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Rett Syndrome

Table of Contents

Rett Syndrome

RTS; Rett Disorder; RTT; Autism-Dementia-Ataxia-Loss of Purposeful Hand Use Syndrome; Cerebroatrophic Hyperammonemia

Rett syndrome is a rare genetic disease related to autism spectrum disorder (ASD). The disease causes developmental and nervous system problems that almost exclusively affects females and is extremely rare in males. Learn about causes, symptoms and treatments.

Rett girl with stereotyped hands movements

Image by Ingridplg/Wikimedia

Rett Syndrome

Ideogram of human chromosome X

Image by National Center for Biotechnology Information

Ideogram of human chromosome X

Ideogram of human chromosome X

Image by National Center for Biotechnology Information

Rett Syndrome

Rett syndrome is a rare genetic disease that causes developmental and nervous system problems, mostly in girls. It's related to autism spectrum disorder. Babies with Rett syndrome seem to grow and develop normally at first. Between 3 months and 3 years of age, though, they stop developing and even lose some skills. Symptoms include

Loss of speech
Loss of hand movements such as grasping
Compulsive movements such as hand wringing
Balance problems
Breathing problems
Behavior problems
Learning problems or intellectual disability

Rett syndrome has no cure. You can treat some of the symptoms with medicines, surgery, and physical and speech therapy. Most people with Rett syndrome live into middle age and beyond. They will usually need care throughout their lives.

Source: NIH: National Institute of Child Health and Human Development

Additional Materials (15)

What is Rett Syndrome? | Rett Syndrome Research Trust

Video by Monica Coenraads/YouTube

Rett Syndrome | Through the Eyes of Sisters

Video by Monica Coenraads/YouTube

The Cast of the View Discuss Rett Syndrome

Video by Monica Coenraads/YouTube

What Is Rett Syndrome? | Child Psychology

Video by Howcast/YouTube

Q:A: What is Rett syndrome? ǀ Blue Bird Circle Rett Center

Video by Texas Children’s Hospital/YouTube

Rett Syndrome - Boys Town National Research Hospital

Video by BoysTownHospital/YouTube

Living with Rett Syndrome

Video by Children's Hospital Colorado/YouTube

Rett Syndrome Revelation

Video by Harvard Medical School/YouTube

Chromosomal Abnormalities: Turner, Klinefelter & Rett Syndrome, Trisomy etc. – Embryology | Lecturio

Video by Lecturio Medical/YouTube

Children's of Alabama This is Rett Syndrome Video

Video by ChildrensofAlabama/YouTube

Neurobiology of Rett Syndrome and Related Disorders

Video by NIH VideoCast/YouTube

Hope for girls like Grace (Rett syndrome)

Video by rarediseaseday/YouTube

Rett Syndrome: One brave little girl's battle with the rare disease

Video by Telethon Kids Institute/YouTube

A Mother's Mission | Parents

Video by Parents/YouTube

Genetics, epigenetics and disease

Video by The Royal Society/YouTube

1:35

What is Rett Syndrome? | Rett Syndrome Research Trust

Monica Coenraads/YouTube

5:10

Rett Syndrome | Through the Eyes of Sisters

Monica Coenraads/YouTube

9:35

The Cast of the View Discuss Rett Syndrome

Monica Coenraads/YouTube

2:14

What Is Rett Syndrome? | Child Psychology

Howcast/YouTube

5:10

Q:A: What is Rett syndrome? ǀ Blue Bird Circle Rett Center

Texas Children’s Hospital/YouTube

1:06

Rett Syndrome - Boys Town National Research Hospital

BoysTownHospital/YouTube

10:32

Living with Rett Syndrome

Children's Hospital Colorado/YouTube

0:46

Rett Syndrome Revelation

Harvard Medical School/YouTube

8:11

Chromosomal Abnormalities: Turner, Klinefelter & Rett Syndrome, Trisomy etc. – Embryology | Lecturio

Lecturio Medical/YouTube

2:55

Children's of Alabama This is Rett Syndrome Video

ChildrensofAlabama/YouTube

1:07:18

Neurobiology of Rett Syndrome and Related Disorders

NIH VideoCast/YouTube

4:16

Hope for girls like Grace (Rett syndrome)

rarediseaseday/YouTube

5:00

Rett Syndrome: One brave little girl's battle with the rare disease

Telethon Kids Institute/YouTube

4:19

A Mother's Mission | Parents

Parents/YouTube

1:17:03

Genetics, epigenetics and disease

The Royal Society/YouTube

What Is Rett Syndrome?

Rett Girl Smiling

Image by Senorita666/Wikimedia

Rett Girl Smiling

Rett girl smiling at camera

Image by Senorita666/Wikimedia

What Is Rett Syndrome?

Rett syndrome is a neurodevelopmental disorder that affects girls almost exclusively. It is characterized by normal early growth and development followed by a slowing of development, loss of purposeful use of the hands, distinctive hand movements, slowed brain and head growth, problems with walking, seizures, and intellectual disability.

The disorder was identified by Dr. Andreas Rett, an Austrian physician who first described it in a journal article in 1966. It was not until after a second article about the disorder, published in 1983 by Swedish researcher Dr. Bengt Hagberg, that the disorder was generally recognized.

The course of Rett syndrome, including the age of onset and the severity of symptoms, varies from child to child. Before the symptoms begin, however, the child generally appears to grow and develop normally, although there are often subtle abnormalities even in early infancy, such as loss of muscle tone (hypotonia), difficulty feeding, and jerkiness in limb movements. Then, gradually, mental and physical symptoms appear. As the syndrome progresses, the child loses purposeful use of her hands and the ability to speak. Other early symptoms may include problems crawling or walking and diminished eye contact. The loss of functional use of the hands is followed by compulsive hand movements such as wringing and washing. The onset of this period of regression is sometimes sudden.

Apraxia — the inability to perform motor functions — is perhaps the most severely disabling feature of Rett syndrome, interfering with every body movement, including eye gaze and speech.

Children with Rett syndrome often exhibit autistic-like behaviors in the early stages. Other symptoms may include walking on the toes, sleep problems, a wide-based gait, teeth grinding and difficulty chewing, slowed growth, seizures, cognitive disabilities, and breathing difficulties while awake such as hyperventilation, apnea (breath holding), and air swallowing.

Source: National Institute of Neurological Disorders and Stroke (NINDS)

Additional Materials (2)

Face to Face with Rett Syndrome

Video by Monica Coenraads/YouTube

Rett Syndrome - an Osmosis preview

Video by Osmosis/YouTube

4:33

Face to Face with Rett Syndrome

Monica Coenraads/YouTube

0:44

Rett Syndrome - an Osmosis preview

Osmosis/YouTube

What You Need To Know

Richard Engel and his wife Mary lost their son Henry, right, in 2022 from Rett syndrome. Their younger son Theo was born in 2019.

Image by NIH MedlinePlus Magazine/NBC News

Richard Engel and his wife Mary lost their son Henry, right, in 2022 from Rett syndrome. Their younger son Theo was born in 2019.

As a chief foreign correspondent for NBC News over the past 15 years, Richard Engel has covered wars and conflicts around the world. The Peabody and Emmy Awards winner has faced dangerous and tense conditions to bring viewers reporting from Ukraine, Syria, Iran, and Afghanistan. Multiple journalism organizations have honored Engel for his courageous reporting in war zones. But in August 2022, he faced a different life challenge that proved even more difficult: He and his wife lost their 6-year-old son Henry, who was born with a rare genetic disorder called Rett syndrome.

Image by NIH MedlinePlus Magazine/NBC News

Rett Syndrome: an Overview of This Rare Genetic Disorder

What is Rett syndrome?

Rett syndrome is a rare genetic disorder in which a child’s early growth and development regresses after initially meeting their developmental milestones. It is a neurodevelopmental disorder, which means it affects how the brain and nervous system develop. As a result, the child can have severe communication or coordination problems. Children with Rett syndrome may behave or move similarly to children with autism spectrum disorder, which is another neurodevelopmental disorder.

Symptoms

Symptoms of Rett syndrome usually do not appear right away. Children with the disorder may meet age-appropriate milestones for the first 6 to 18 months before they start showing symptoms. Some common symptoms are:

Loss of speech
Loss of hand movements such as grasping
Compulsive movements such as hand wringing
Balance problems
Breathing problems
Social or behavior problems
Learning problems or intellectual disability

Who is more likely to have Rett syndrome?

Although Rett syndrome is a genetic disorder, most cases occur randomly—the chance that someone will inherit Rett syndrome is less than 1%. Children from all racial and ethnic groups may develop Rett syndrome, with most cases diagnosed in girls. It is caused by a mutation in the MECP2 (methyl CpG binding protein 2) gene, which is located on the X chromosome and contributes to brain development. Some girls with Rett syndrome also have female family members with the MECP2 gene mutation.

Not everyone with a MECP2 gene mutation will develop Rett syndrome.

How can doctors find out whether a child has Rett syndrome?

There are prenatal screenings available to find a MECP2 gene mutation, but the same gene mutation in Rett syndrome can be found in other conditions. It is important to notify a doctor if a child shows behavioral changes or physical problems, especially if these changes happened after previously age-appropriate development. That can help a pediatric neurologist, clinical geneticist, or developmental pediatrician screen for and diagnose the disorder.

Is there a cure?

Not at this time. Treatments are being developed to help patients with Rett syndrome manage their symptoms. These may include medications, occupational therapy, special equipment to help children with physical movement, nutritional programs, and educational and social support.

Source: NIH MedlinePlus Magazine

Additional Materials (1)

What Is Rett Syndrome? | Child Psychology

Video by Howcast/YouTube

2:14

What Is Rett Syndrome? | Child Psychology

Howcast/YouTube

Types & Phases

Rett Syn

Image by María C. Fuertes-González1 and Francisco J. Silvestre/Wikimedia

Rett Syn

Oral aperture and positioning for the examination of a patient with Rett syndrome

Image by María C. Fuertes-González1 and Francisco J. Silvestre/Wikimedia

What Are the Types & Phases of Rett Syndrome?

There are two main types of Rett syndrome: classic and atypical. The two types may differ by their symptoms or by the specific gene mutation.

The majority of Rett syndrome patients have the classic form, which typically develops in four phases. Healthcare providers and researchers, relying on consensus criteria, view the progression of classic Rett syndrome as the following phases

Early Onset Phase. In this phase, development stalls or stops completely. Sometimes, the syndrome takes hold at such a subtle pace that parents and healthcare providers do not notice it at first. Researchers once thought that this phase began around 6 months of age. However, after analyzing videotapes of Rett individuals taken from birth, they now know that some infants with Rett syndrome only seem to develop normally. In fact, these infants show problems with very early development. In one study, all of the infants with Rett syndrome showed problems with body movements from birth through age 6 months. Another 42% showed stereotyped hand movements during this period.
Rapid Destructive Phase. The child loses skills (regresses) quickly. Purposeful hand movements and speech are usually the first skills lost. Breathing problems and stereotypic hand movements such as wringing (clasping or squeezing), washing (a movement that resembles washing the hands), and clapping or tapping also tend to start during this stage.
Plateau Phase. The child's regression slows and other problems may seem to lessen, or there may even be improvement in some areas. Seizures and movement problems are common at this stage. Many people with Rett syndrome spend most of their lives in this stage.
Late Motor Deterioration Phase. Individuals in this stage may become stiff or lose muscle tone; some become immobile. Scoliosis (an abnormal curvature of the spine) may be present and even become severe enough to require bracing or surgery. Stereotypic hand movements and breathing problems seem to become less common.

There are currently five known variants of atypical Rett syndrome, defined by characteristic symptoms, age at which the symptoms present, or genetic makeup.

Forms of atypical Rett syndrome that have been identified to date include:

Congenital Rett Syndrome (Rolando Variant)
Early-Onset Rett Syndrome (Hanefeld Variant)
Late-Childhood Rett Syndrome
Forme Fruste Rett Syndrome
Preserved-Speech Variant of Rett Syndrome (Zappella Variant)

Source: Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)

Additional Materials (1)

Rett Syndrome - Boys Town National Research Hospital

Video by BoysTownHospital/YouTube

1:06

Rett Syndrome - Boys Town National Research Hospital

BoysTownHospital/YouTube

Risk Factors

7 year old's missing teeth March 2007 (cropped)

Image by Foto di Giovanni Dall'Orto/Wikimedia

7 year old's missing teeth March 2007 (cropped)

A 7 yrs girl whose incisor milk teeth fell, being partly replaced be permanent teeth already.

Image by Foto di Giovanni Dall'Orto/Wikimedia

Who Gets Rett Syndrome?

Rett syndrome is estimated to affect one in every 10,000 to 15,000 live female births and in all racial and ethnic groups worldwide. Prenatal testing is available for families with an affected daughter who has an identified MECP2 mutation. Since the disorder occurs spontaneously in most affected individuals, however, the risk of a family having a second child with the disorder is less than 1 percent.

Genetic testing is also available for sisters of girls with Rett syndrome who have an identified MECP2 mutation to determine if they are asymptomatic carriers of the disorder, which is an extremely rare possibility.

The MECP2 gene is found on a person’s X chromosome, one of the two sex chromosomes. Girls have two X chromosomes, but only one is active in any given cell. This means that in a girl with Rett syndrome only a portion of the cells in the nervous system will use the defective gene. Some of the child's brain cells use the healthy gene and express normal amounts of the protein.

The severity of Rett syndrome in girls is in part a function of the percentage of their cells that express a normal copy of the MECP2 gene. If the active X chromosome that is carrying the defective gene is turned off in a large proportion of cells, the symptoms will be mild, but if a larger percentage of cells have the X chromosome with the normal MECP2 gene turned off, onset of the disorder may occur earlier and the symptoms may be more severe.

The story is different for boys who have a MECP2 mutation known to cause Rett syndrome in girls. Because boys have only one X chromosome (and one Y chromosome) they lack a back-up copy that could compensate for the defective one, and they have no protection from the harmful effects of the disorder. Boys with such a defect frequently do not show clinical features of Rett syndrome but experience severe problems when they are first born and die shortly after birth. A very small number of boys may have a different mutation in the MECP2 gene or a sporadic mutation after conception that can cause some degree of intellectual disability and developmental problems.

Source: National Institute of Neurological Disorders and Stroke (NINDS)

Why Do Mostly Females Get It?

Pregnancy and the X Chromosome

Image by Pregnancy and the X Chromosome

Pregnancy and the X Chromosome

TheVisualMD

Image by Pregnancy and the X Chromosome

Why Do Mostly Females and So Few Boys Have Rett Syndrome?

Two types of chromosomes determine the sex of an embryo: the X and the Y chromosomes. Girls have two X chromosomes, and boys have one X and one Y chromosome.

Because the mutated gene that causes Rett syndrome is located on the X chromosome, females have twice the opportunity to develop a mutation in one of their X chromosomes. Females with Rett syndrome usually have one mutated X chromosome and one normal X chromosome. Only one X chromosome in a given cell remains active throughout life and cells randomly determine which X chromosome will remain active. If the cells have an active mutated gene more often than the normal gene, the symptoms of Rett syndrome will be more severe. This random process allows most females with Rett syndrome to survive infancy.

Because most boys have only one X chromosome, when this gene is mutated to cause Rett syndrome the detrimental effects are not softened by the presence of a second, normal X chromosome. As a result, many males with Rett syndrome are stillborn or do not live past infancy.

Some boys with Rett syndrome, however, do live past infancy, likely for one of three reasons:

Mosaicism, a condition in which individual cells within the same person have a different genetic makeup. This means that some of the X chromosome genes in a boy's body have the Rett mutation, and some genes do not have the mutation. When a lower percentage of genes have the Rett syndrome mutation, the symptoms are not as severe.
A boy may have two X chromosomes and one Y chromosome (Klinefelter syndrome). Only one X chromosome will be active in each cell, so if one X carries a mutation in MECP2, the severity of symptoms will depend on how many cells have that the mutant X active in the body.
The genetic mutation is less severe than that of other forms of Rett syndrome mutations.

Duplication of the MECP2 gene can occur in boys and affects intellectual and physical function.

Source: Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)

Additional Materials (1)

Neurobiology of Rett Syndrome and Related Disorders

Video by NIH VideoCast/YouTube

1:07:18

Neurobiology of Rett Syndrome and Related Disorders

NIH VideoCast/YouTube

Causes

Altered Genes

Image by TheVisualMD

Altered Genes

Cancer begins when a cell undergoes a mutation, that is, one or more of its genes is damaged or lost. Mutations can occur when a cell is reproducing, but it’s not easy for a cell to become cancerous. A number of different mutations have to happen before the cell becomes a cancer cell. And, if a cell carries a mutation, it usually either destroys itself or is recognized as being abnormal by the immune system and killed. This is why cancer usually occurs in older people: there has been more time for exposure to carcinogens and for chance mutations to occur.

Image by TheVisualMD

What Causes Rett Syndrome?

Most cases of Rett syndrome are caused by a change (also called a mutation) in a single gene. In 1999, NICHD-supported scientists discovered that most classic Rett syndrome cases are caused by a mutation within the Methylcytosine-binding protein 2 (MECP2) gene. The MECP2 gene is located on the X chromosome. Between 90% and 95% of girls with Rett syndrome have a mutation in the MECP2 gene. Among families with a child affected by Rett syndrome the chance of having a second child with the syndrome is very low.

Eight mutations in the MECP2 gene represent the most prevalent causes of Rett syndrome. The development and severity of Rett syndrome symptoms depend on the location and type of the mutation on the MECP2 gene.

The MECP2 gene makes a protein that is necessary for the development of the nervous system, especially the brain. The mutation causes the gene to either make insufficient amounts of this protein or to make a damaged protein that the body cannot use. In either case, if there is not enough of the working protein for the brain to develop normally, Rett syndrome develops.

Researchers are still trying to understand exactly how the brain uses this protein, called MeCP2, and how problems with this protein cause the typical features of Rett syndrome.

Mutations on two other genes can cause some of the atypical variants of Rett syndrome: Congenital Rett syndrome (Rolando variant) is associated with mutations of the FOXG1 gene, and CDKL5 mutations are linked with the early-onset, or Hanefeld, variant. Males affected by these types of mutations can survive infancy. Males can also have a duplication of a normal MECP2 gene and survive, but are severely affected. Too much MeCP2 protein is as bad for development as too little.

Source: Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)

Additional Materials (5)

Effect of a mutation

This image was created by the NHS National Genetics and Genomics Education Centre.

Image by Genomics Education Programme

Mutation

A mutation is a change in a DNA sequence. Mutations can result from DNA copying mistakes made during cell division, exposure to ionizing radiation, exposure to chemicals called mutagens, or infection by viruses.

Image by National Human Genome Research Institute (NHGRI)

Protein MECP2 PDB 1qk9

Structure of the MECP2 protein. Based on PyMOL rendering of PDB 1qk9.

Image by Emw/Wikimedia

DNA and Genetics

Image by TheDigitalArtist/Pixabay

Neurobiology of Rett Syndrome and Related Disorders

Video by NIH VideoCast/YouTube

Effect of a mutation

Genomics Education Programme

Mutation

National Human Genome Research Institute (NHGRI)

Protein MECP2 PDB 1qk9

Emw/Wikimedia

DNA and Genetics

TheDigitalArtist/Pixabay

1:07:18

Neurobiology of Rett Syndrome and Related Disorders

NIH VideoCast/YouTube

MECP2 Gene

Ideogram of human chromosome X

Image by Office of Biological and Environmental Research of the U.S. Department of Energy Office of Science, the Biological and Environmental Research Information System, Oak Ridge National Laboratory.

Ideogram of human chromosome X

Selected genes, traits, and disorders associated with the chromosome listed; (blue and violet) regions reflecting the unique patterns of light and dark bands seen on human chromosomes stained to allow viewing through a light microscope; (red) the centromere, or constricted portion, of each chromosome; (yellow) chromosomal regions that vary in staining intensity and sometimes are called hererochromatin (meaning “different color”); (lines between yellow) variable regions, called stalks, that connect a very small chromosome arm (a “satellite”) to the chromosome.

Image by Office of Biological and Environmental Research of the U.S. Department of Energy Office of Science, the Biological and Environmental Research Information System, Oak Ridge National Laboratory.

MECP2 Gene: Methyl-CpG Binding Protein 2

Normal Function

The MECP2 gene provides instructions for making a protein called MeCP2. This protein helps regulate gene activity (expression) by modifying chromatin, the complex of DNA and protein that packages DNA into chromosomes. The MeCP2 protein is present in cells throughout the body, although it is particularly abundant in brain cells.

In the brain, the MeCP2 protein is important for the function of several types of cells, including nerve cells (neurons). The protein likely plays a role in maintaining connections (synapses) between neurons, where cell-to-cell communication occurs. Many of the genes that are known to be regulated by the MeCP2 protein play a role in normal brain function, particularly the maintenance of synapses.

Researchers believe that the MeCP2 protein may also be involved in processing molecules called messenger RNA (mRNA), which serve as genetic blueprints for making proteins. By cutting and rearranging mRNA molecules in different ways, the MeCP2 protein controls the production of different versions of certain proteins. This process is known as alternative splicing. In the brain, the alternative splicing of proteins is critical for normal communication between neurons and may also be necessary for the function of other types of brain cells.

Health Conditions Related to Genetic Changes

MECP2 duplication syndrome

An extra copy (duplication) of the MECP2 gene in each cell causes MECP2 duplication syndrome, a condition characterized by intellectual disability, delayed development, and seizures. This condition affects males more often than females. When females are affected, they tend to have milder features. The duplication occurs on the long (q) arm of the X chromosome and includes the MECP2 gene; other genes may also be involved, depending on the size of the duplicated segment. The size of the duplication varies from 100,000 to a few million DNA building blocks (base pairs).

Duplication of the MECP2 gene leads to the production of extra MeCP2 protein and an increase in protein function. The resulting changes in gene regulation and protein production in the brain lead to abnormal neuronal function. These neuronal changes disrupt normal brain activity, causing the signs and symptoms of MECP2 duplication syndrome.

MECP2-related severe neonatal encephalopathy

At least 19 mutations in the MECP2 gene cause MECP2-related severe neonatal encephalopathy. This condition almost exclusively affects males and is characterized by small head size (microcephaly), movement disorders, breathing problems, and seizures. Many of the MECP2 gene mutations that cause this condition in males cause a similar disorder called Rett syndrome (described below) in females. Most of these mutations change single base pairs, insert or delete base pairs in the gene, or change how protein is produced from the gene. These changes in DNA alter the structure of the MeCP2 protein or reduce the amount of protein that is produced. As a result, cells do not have enough MeCP2 protein to bind to DNA and regulate other genes. A shortage of MeCP2 alters the activity of genes that are normally controlled by this protein. Mutations in the MECP2 gene may also disrupt alternative splicing of proteins critical for communication between neurons. Although these defects disrupt normal brain development, it remains unclear how MECP2 gene mutations lead to the signs and symptoms of MECP2-related severe neonatal encephalopathy.

PPM-X syndrome

Mutations in the MECP2 gene have been found to cause PPM-X syndrome. This disorder is characterized by mild to severe intellectual disability, bipolar disorder, and a pattern of movement abnormalities known as parkinsonism. This condition affects males more often than females; when females are affected, they tend to have only mild intellectual disability.

Eight particular mutations are responsible for approximately half of all cases of PPM-X syndrome. These mutations either change single protein building blocks (amino acids) in the MeCP2 protein or create a premature stop signal in the instructions for making the protein. Mutations that cause PPM-X syndrome lead to the production of a MeCP2 protein that cannot properly interact with DNA or other proteins and so cannot control the expression of genes. It is unclear how MECP2 gene mutations lead to the signs and symptoms of PPM-X syndrome, but misregulation of genes in the brain likely play a role in the development of intellectual disability and movement and mood disorders in affected individuals.

Rett syndrome

More than 620 mutations in the MECP2 gene have been identified in females with Rett syndrome, a brain disorder that causes problems with communication, learning, and coordination. These mutations include changes in single base pairs, insertions or deletions of DNA in the gene, and changes that affect how the information carried by the gene is used to produce proteins. MECP2 gene mutations alter the structure of the MeCP2 protein or reduce the amount of protein that is produced. The resulting shortage of functional MeCP2 likely impairs the regulation of gene expression in brain cells and may also disrupt alternative splicing of proteins critical for communication between neurons. Studies suggest that these changes may reduce the activity of certain neurons and impact their ability to communicate with one another. It is unclear how these changes lead to the specific features of Rett syndrome.

Autism spectrum disorder

MedlinePlus Genetics provides information about Autism spectrum disorder

Other disorders

Mutations in the MECP2 gene have also been identified in people with several other disorders that affect the brain. For example, MECP2 gene mutations are associated with some cases of moderate to severe X-linked intellectual disability without other features of the syndromes described above. In addition, several people with both the features of Rett syndrome and signs and symptoms similar to Angelman syndrome (a condition characterized by intellectual disability, problems with movement, and inappropriate laughter and excitability) have mutations in the MECP2 gene. MECP2 gene mutations or changes in the gene's activity have been reported in some cases of autism spectrum disorder, which affects communication and social interaction.

Other Names for This Gene

MeCP2 protein
MECP2_HUMAN
methyl CpG binding protein 2
methyl CpG binding protein 2 (Rett syndrome)
MRX16
MRX79
PPMX
RTS
RTT

Genomic Location

The MECP2 gene is found on the X chromosome.

Source: MedlinePlus Genetics

Additional Materials (4)

What is Rett Syndrome? | Rett Syndrome Research Trust

Video by Monica Coenraads/YouTube

The Cast of the View Discuss Rett Syndrome

Video by Monica Coenraads/YouTube

Therapy strategies for Rett syndrome & MECP2 disorders

Video by VJNeurology/YouTube

Q:A: What is Rett syndrome? ǀ Blue Bird Circle Rett Center

Video by Texas Children’s Hospital/YouTube

1:35

What is Rett Syndrome? | Rett Syndrome Research Trust

Monica Coenraads/YouTube

9:35

The Cast of the View Discuss Rett Syndrome

Monica Coenraads/YouTube

2:36

Therapy strategies for Rett syndrome & MECP2 disorders

VJNeurology/YouTube

5:10

Q:A: What is Rett syndrome? ǀ Blue Bird Circle Rett Center

Texas Children’s Hospital/YouTube

Inheritance

X-linked dominant

Image by File:Autosomal dominant - en.svg: Domaina, Angelito7 and SUM1 Derivative work: SUM1 /Wikimedia

X-linked dominant

X-linked dominant inheritance scenarios for either the mother or father being affected

Image by File:Autosomal dominant - en.svg: Domaina, Angelito7 and SUM1 Derivative work: SUM1 /Wikimedia

How Is Rett Syndrome Inherited?

In more than 99 percent of people with Rett syndrome, there is no history of the disorder in their family. Many of these cases result from new mutations in the MECP2 gene.

A few families with more than one affected family member have been described. These cases helped researchers determine that classic Rett syndrome and variants caused by MECP2 gene mutations have an X-linked dominant pattern of inheritance. A condition is considered X-linked if the mutated gene that causes the disorder is located on the X chromosome, one of the two sex chromosomes. The inheritance is dominant if one copy of the altered gene in each cell is sufficient to cause the condition.

Males with mutations in the MECP2 gene often die in infancy. However, a small number of males with a genetic change involving MECP2 have developed signs and symptoms similar to those of Rett syndrome, including intellectual disability, seizures, and movement problems. In males, this condition is described as MECP2-related severe neonatal encephalopathy. The signs and symptoms in some males with an MECP2 gene mutation are on the milder end of the spectrum.

Source: MedlinePlus Genetics

Additional Materials (3)

X-linked dominant inheritance

The chance of passing on an X-linked dominant condition differs between men and women because men have one X chromosome and one Y chromosome, while women have two X chromosomes. A man passes on his Y chromosome to all of his sons and his X chromosome to all of his daughters. Therefore, the sons of a man with an X-linked dominant disorder will not be affected, but all of his daughters will inherit the condition. A woman passes on one or the other of her X chromosomes to each child. Therefore, a woman with an X-linked dominant disorder has a 50 percent chance of having an affected daughter or son with each pregnancy.

Image by U.S. National Library of Medicine

X dominant affected mother

Image showing inheritance of X-linked dominant mutation from an affected mother. A woman with an X-linked dominant disorder has a 50% chance of having an affected daughter or son with each pregnancy.

Image by GYassineMrabet / NLM / NIH

X linked Inheritance

Video by Children's National Hospital/YouTube

X-linked dominant inheritance

U.S. National Library of Medicine

X dominant affected mother

GYassineMrabet / NLM / NIH

1:46

X linked Inheritance

Children's National Hospital/YouTube

Symptoms

Rett Scoliosis

Image by Konstantinos C Soultanis,corresponding author1 Alexandros H Payatakes,2,3 Vasilios T Chouliaras,2 Georgios C Mandellos,2 Nikolaos E Pyrovolou,1 Fani M Pliarchopoulou,4 and Panayotis N Soucacos1/Wikimedia

Rett Scoliosis

A 15-year-old female with Rett syndrome.

Image by Konstantinos C Soultanis,corresponding author1 Alexandros H Payatakes,2,3 Vasilios T Chouliaras,2 Georgios C Mandellos,2 Nikolaos E Pyrovolou,1 Fani M Pliarchopoulou,4 and Panayotis N Soucacos1/Wikimedia

What Are the Symptoms of Rett Syndrome?

The first symptom of Rett syndrome is usually the loss of muscle tone, called hypotonia. With hypotonia, an infant's arms and legs will appear "floppy."

Although hypotonia and other symptoms of Rett syndrome often present themselves in stages, some typical symptoms can occur at any stage. Symptoms may vary among patients and range from mild to severe.

Typical Symptoms (may occur at any stage) can include:

Loss of ability to grasp and intentionally touch things
Loss of ability to speak. (Initially, a child may stop saying words or phrases that he or she once said; later, the child may make sounds, but not say any purposeful words.)
Severe problems with balance or coordination, leading to loss of the ability to walk. (These problems may start out as clumsiness and trouble walking. Although a majority of those with Rett Syndrome are still able to walk later in life, others may become unable to sit up or walk or may become immobile.)
Mechanical, repetitive hand movements, such as hand wringing, hand washing, or grasping
Complications with breathing, including hyperventilation and breath holding when awake
Anxiety and social-behavioral problems
Intellectual disability

In addition, a person with Rett syndrome may experience one or more of the following associated problems:

Scoliosis, or curvature of the spine from side to side. Scoliosis is a problem for the majority of girls with Rett syndrome. In some cases, the curving of the spine can become so severe that the girls require surgery. For some, bracing relieves the problem, prevents it from getting worse, or delays or eliminates the need for surgery.)
Seizures. (These may involve the whole body, or they may be staring spells with no movement.)
Constipation and gastroesophageal reflux
Discomfort in the abdomen or gallbladder problems such as gallstones
Cardiac or heart problems,usually problems with heart rhythm. (Some persons with Rett syndrome may have abnormally long pauses between heartbeats, as measured by an electrocardiogram, or they may experience other types of arrhythmia.)
Trouble feeding oneself, swallowing, and chewing food. (In some cases, too, in spite of healthy appetites, girls with Rett syndrome do not gain weight or have trouble maintaining a healthy weight. As a result, some girls with Rett syndrome rely on feeding tubes.)
Disrupted sleep patterns at night (during childhood) and increased sleep (after age 5). (Some researchers suggest that problems with sleep are among the earliest symptoms of Rett syndrome and can appear between 1 and 2 months of age. Such problems can lead to sudden death during sleep.)
Excessive saliva and drooling
Poor circulation in hands and legs
Walking on toes or the balls of feet
Walking with a wide gait (ataxia)
Grinding the teeth (bruxism)

Symptoms can vary from person to person and from one stage to the next. Symptoms may also improve in the "Plateau Phase".

Source: Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)

Additional Materials (1)

Q:A: What is Rett syndrome? ǀ Blue Bird Circle Rett Center

Video by Texas Children’s Hospital/YouTube

5:10

Q:A: What is Rett syndrome? ǀ Blue Bird Circle Rett Center

Texas Children’s Hospital/YouTube

Diagnosis

Genetic testing

Image by genome.gov

Genetic testing

Genetic testing fact sheet

Image by genome.gov

How Do Health Care Providers Diagnose Rett Syndrome?

Blood Test

Genetic evaluation of a blood sample can identify whether a child has one of the known mutations that cause Rett syndrome.Even if a child has a mutation of the Methylcytosine-binding protein 2 (MECP2) gene (which also occurs in other conditions), the symptoms of Rett syndrome may not always be present, so healthcare providers also need to evaluate the child's symptoms to confirm a diagnosis.

Clinical Symptoms

A child must meet the following five necessary criteria to be diagnosed with classic Rett syndrome:

Main Diagnostic Criteria

A pattern of development, regression, then recovery or stabilization
Partial or complete loss of purposeful hand skills such as grasping with fingers, reaching for things, or touching things on purpose
Partial or complete loss of spoken language
Repetitive hand movements, such as wringing the hands, washing, squeezing, clapping, or rubbing
Gait abnormalities, including walking on toes or with an unsteady, wide-based, stiff-legged gait

A slowing of head growth between 3 months and 4 years of age, leading to acquired microcephaly, is also characteristic of Rett syndrome and calls for a diagnosis to be considered.

Healthcare providers will also consider whether any of the following conditions are present. The presence of any of the symptoms below would rule out a Rett syndrome diagnosis.

Atypical Rett Syndrome

Genetic mutations causing some atypical variants of Rett syndrome have been identified. After a blood test to confirm a child's genetic makeup, a healthcare provider may diagnose the child with atypical Rett syndrome if the child demonstrates development, followed by regression and then recovery or stabilization. In addition, the healthcare provider will confirm at least two of the other four main criteria, and five of the 11 supportive criteria before making a diagnosis.

Other Possible Diagnoses

Sometimes Rett syndrome is misdiagnosed as regressive autism, cerebral palsy, or nonspecific developmental delays.

For some males, the features of Rett syndrome occur with another genetic condition called Klinefelter syndrome, in which a boy has two X chromosomes and one Y chromosome. This means that the boy may have one mutated MECP2 gene and one normal MECP2 gene, reducing the effects of the mutated gene.

Source: Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)

Additional Materials (1)

Chromosomal Abnormalities: Turner, Klinefelter & Rett Syndrome, Trisomy etc. – Embryology | Lecturio

Video by Lecturio Medical/YouTube

8:11

Chromosomal Abnormalities: Turner, Klinefelter & Rett Syndrome, Trisomy etc. – Embryology | Lecturio

Lecturio Medical/YouTube

Prenatal Genetic Screening

Prenatal Genetic Screening

Also called: Prenatal DNA Testing, Carrier Screening for Genetic Disorders

Genetic tests look at the genetic information, called DNA, carried inside a person’s cells. When genetic screening is done for a baby’s parents, it can determine if either or both of the parents carry genes for a disease or disorder that can be passed on to their child.

Prenatal Genetic Screening

Also called: Prenatal DNA Testing, Carrier Screening for Genetic Disorders

Genetic tests look at the genetic information, called DNA, carried inside a person’s cells. When genetic screening is done for a baby’s parents, it can determine if either or both of the parents carry genes for a disease or disorder that can be passed on to their child.

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Use the slider below to see how your results affect your health.
Your result is Negative.
No genetic disorders found.
Related conditions
You should consider genetic screening if:
- You or your partner has a family history of a specific genetic disorder, such as cystic fibrosis.
- You belong to an ethnic group in which a genetic disease is more common—for instance, sickle cell disease in African Americans.
- You will be 35 or older on your due date, as your chances of having a child with genetic abnormalities increase as you get older.
- You have experienced multiple miscarriages, because the presence of genetic abnormalities in the fetus may be causing the miscarriages.
1. https://arupconsult.com/content/carrier-screening-genetic-disorders [accessed on Sep 03, 2020]
2. https://medlineplus.gov/genetictesting.html [accessed on Jan 31, 2019]
3. https://www.acog.org/Patients/FAQs/Prenatal-Genetic-Screening-Tests?IsMobileSet=false [accessed on Jan 31, 2019]
4. https://kidshealth.org/en/parents/genetics.html [accessed on Jan 31, 2019]
5. https://www.stanfordchildrens.org/en/topic/default?id=uses-of-genetic-testing-90-P02160 [accessed on Jan 31, 2019]
6. https://www.mayoclinic.org/tests-procedures/genetic-testing/about/pac-20384827 [accessed on Jan 31, 2019]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (8)

Prenatal Screening and Genetic Testing: Expert Q&A

Video by UChicago Medicine/YouTube

Understanding options for expanding prenatal genetic screening with non-invasive prenatal testing

Video by Illumina/YouTube

Stanford Hospital's Dr. Jane Chueh on Prenatal Screening and Diagnosis

Video by Stanford Health Care/YouTube

An introduction to genetics & prenatal genetic testing

Video by Illumina/YouTube

Prenatal testing for chromosomal abnormalities

Video by Northwell Health/YouTube

Understanding Prenatal Screening and Testing Options at OSU Maternal Fetal Medicine

Video by Ohio State Wexner Medical Center/YouTube

Prenatal Testing

Video by Stanford Children's Health | Lucile Packard Children's Hospital Stanford/YouTube

Noninvasive Prenatal Screening Patient Education Animation

Video by Myriad Women's Health/YouTube

28:07

Prenatal Screening and Genetic Testing: Expert Q&A

UChicago Medicine/YouTube

3:46

Understanding options for expanding prenatal genetic screening with non-invasive prenatal testing

Illumina/YouTube

1:11:38

Stanford Hospital's Dr. Jane Chueh on Prenatal Screening and Diagnosis

Stanford Health Care/YouTube

3:21

An introduction to genetics & prenatal genetic testing

Illumina/YouTube

3:32

Prenatal testing for chromosomal abnormalities

Northwell Health/YouTube

14:57

Understanding Prenatal Screening and Testing Options at OSU Maternal Fetal Medicine

Ohio State Wexner Medical Center/YouTube

20:52

Prenatal Testing

Stanford Children's Health | Lucile Packard Children's Hospital Stanford/YouTube

2:39

Noninvasive Prenatal Screening Patient Education Animation

Myriad Women's Health/YouTube

Developmental and Behavioral Screening Tests

Developmental and Behavioral Screening Tests

Developmental and behavioral screening tests look at how a child is developing. If a child is developing more slowly than other children of the same age, it may indicate a development disability. Early treatment for these disabilities can have a big impact on a child's life.

Developmental and Behavioral Screening Tests

Developmental and behavioral screening tests look at how a child is developing. If a child is developing more slowly than other children of the same age, it may indicate a development disability. Early treatment for these disabilities can have a big impact on a child's life.

Developmental and behavioral screening tests look at how a child is developing. The screenings are made up of checklists and questionnaires for parents. They include questions about their child's language, movement, thinking, behavior, and emotions.
Many of the questions are based on developmental milestones. Developmental milestones are skills and behaviors that show up in babies and children at certain ages as they grow. They include smiling for the first time, rolling over, and walking. The screening compares your child's milestones to those of other children of the same age. If the screening shows your child is developing at a slower rate, it may be a sign of a developmental disability. Developmental disabilities are conditions that cause problems in physical and/or mental functions. They include:
- Intellectual disabilities (ID). These conditions cause below average mental abilities. People with ID often have problems with learning and daily living skills.
- Autism spectrum disorder. This is a disorder that affects behavior, communication, and social skills.
- Cerebral palsy. This is a condition that affects movement, coordination, and balance.
- Deafness or other hearing problems
Developmental and behavioral screening tests don't diagnose these conditions. But a screening can show if your child is not developing on schedule. When developmental disabilities are found and treated early, it can make a big impact on a child's life. Early treatment, known as early intervention, helps children learn important skills, make the most of their strengths, and improve their quality of life.
Developmental and behavioral screening tests are used to see if a child is meeting his or her developmental milestones. Below are some examples of milestones for infants and toddlers.
- Birth to 4 months Includes smiling, cooing, and bringing hands to mouth.
- 6 months. Includes playing with others, looking at themselves in the mirror, sitting without support, and rolling over.
- 9 months. Includes making sounds like "mama" and "dada," understanding the word "no," crawling, and pulling to a stand.
- 1 year. Includes playing peekaboo, following simple directions, and walking while holding on to furniture.
- 18 months. Includes speaking and understanding several words, eating with a spoon, walking, and walking up and down stairs.
- 2 to 3 years. Includes recognizing labels and colors, naming pictures of common objects, getting dressed and undressed, and walking and running easily.
Developmental milestones are general guidelines. Children grow at different rates. There is a range in what is considered normal development. But looking at milestones can help identify potential problems early.
The American Academy of Pediatrics (AAP) recommends developmental and behavioral screenings for all children during regular well-child checkups at the following ages:
- 9 months
- 18 months
- 30 months
The AAP also recommends that all children should be screened for autism spectrum disorder during regular checkups at 18 and 24 months.
Also, talk to your provider about a screening if you think there is a problem with your child's development. As a parent, you will probably be the first to notice any problems with the way your child interacts, learns, speaks, or moves.
Screenings may be done by your child's provider and/or by you with guidance from your child's provider.
There are many different types of developmental and behavioral screening tests. Each asks questions about a child's development. You may be asked about your child's social interactions, language skills, and/or gross and fine motor skills. Motor skills are the ability to move muscles. Gross motor skills involve moving large muscles for movements such as walking and jumping. Fine motor skills are the ability to move small muscles with precision, such as picking up a toy or using a fork.
Common tests include:
- Ages and Stages Questionnaire. This test is designed for children between the ages of 1 month and 5 1/2 years. It contains a series of questions with answer choices of "yes," "sometimes," and "not yet."
- Parents' Evaluation of Developmental Status (PEDS). This test is designed for children from birth to age 8. It is a brief test that can be completed in about five minutes.
- Child Development Inventories (CDI). These are three different tests. They are geared to age groups from infancy to preschool. Each contains 60 yes or no questions.
- Modified Checklist for Autism in Toddlers (M-CHAT). This test is for toddlers between the ages of 16 and 30 months. It includes a series of yes or no questions.

Additional Materials (12)

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Boy with visible brain highlighting Norepinephrine Pathway

Boy with visible Brain highlighting Serotonin Pathway

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1) Boy with visible Brain highlighting 1) Dopamine Pathway 2) Norepinephrine Pathway 3) Serotonin Pathway

1) Boy with visible Brain highlighting Dopamine Pathway 2) Boy with visible brain highlighting Norepinephrine Pathway 3) Boy with visible Brain highlighting Serotonin Pathway A toddler boy is shown in profile with some visible brain anatomy. The pathway for the neurotransmitter norepinephrine, shown in green, overlays the outline of the brain. The image supports content about individual temperament and personality differences, including the balance of brain chemicals, that can affect each person's capacity for positive and negative emotions.

Interactive by TheVisualMD

Brain Growth

Brain Growth

Brain Growth

Brain Growth

Brain Growth

Brain Growth

Brain Growth

Brain Growth

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Brain Growth - Development of the Cerebellum

Brain Growth from Birth to 14 Months : Explore the brain at four different ages at birth and at 3, 7, and 14 months of age. Views from multiple angles reveal the intricate structure of many of the internal components of the baby brain. Brain growth in an infant"s first year of life is nothing short of remarkable: the brain uses 60% of the total energy consumed by the infant and nearly triples in size.

Interactive by TheVisualMD

Gray Matter

Brainstem

Cerebellum

Hippocampus

White Matter

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Brain Growth from Birth to 14 Months

Explore the brain at four different ages at birth and at 3, 7, and 14 months of age. Views from multiple angles reveal the intricate structure of many of the internal components of the baby brain. Brain growth in an infant`s first year of life is nothing short of remarkable: the brain uses 60% of the total energy consumed by the infant and nearly triples in size.

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Infant Brain at 3 Weeks of Age cross section

Infant Brain at 3 Months of Age cross section

Infant Brain at 7 Months of Age cross section

Infant Brain at 14 Months of Age cross section

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Infant Brain Development

1) Infant Brain at 3 Weeks of Age cross section 2) Infant Brain at 3 Months of Age cross section 3) Infant Brain at 7 Months of Age cross section 4) Infant Brain at 14 Months of Age cross section Brain growth in the first year of life is very rapid. The brain uses 60% of the total energy consumed by the infant and nearly triples in size from the time of birth. Brain maturation in the infant shows trends of increasing myelination (formation of the myelin sheath around a nerve fiber) from occipital to frontal lobes, and from central to subcortical white matter (medial to lateral) as the subject ages. The child's brain has basically finished growing by age 2, although cognitive development clearly continues beyond that time.

Interactive by TheVisualMD

Right Side

Back Side

Left Side

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Brain angiography with contrast

Cerebral angiography is a procedure that uses a special dye (contrast material) and x-rays to see how blood flows through the brain. Doctors may order this test if symptoms or signs of vascular malformation (abnormal blood vessels), aneurysm (blood-filled dilation of a blood vessel), narrowing of the arteries in the brain, and vasculitis (inflammation of blood vessels) are present. Sometimes, it is also used to confirm a brain tumor, evaluate the arteries of the head and neck before surgery, and find a clot that may have caused a stroke.

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Communication disorders

Language

Touch

Sound

Sight

Motor Skills

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Brodmann Areas of 14 Month Old Brain

Explore the sensory areas known as the Brodmann Areas of a 10-month-old baby's brain. Many regions of the brain have been correlated with various cortical functions for instance touch movement sight hearing and language. In the first year of life neural connections in the brain are being made especially rapidly. By the end of that year the infant brain resembles that of an adult more than that of a newborn.

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Gaze Response in Infant Brain

Gaze Response in Infant Brain

Gaze Response in Infant Brain

Gaze Response in Infant Brain

Gaze Response in Infant Brain

Gaze Response in Infant Brain

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Gaze Response in Infant Brain

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Gaze Response in Infant Brain

Discover the areas of a 10-month-old's brain that are activated when responding to the mother's gaze. Babies are born nearsighted and at first can see things best when they're about 8-15 inches away but their vision improves continuously throughout the first year. Newborns prefer human faces to all other patterns or colors.

Interactive by TheVisualMD

DHA and ARA Concentrations in the Brain

DHA and ARA Concentrations in the Brain

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DHA and ARA Concentrations in the Brain

View, from multiple angles, the areas within a baby`s brain where docosahexaenoic acid (DHA) and arachidonic acid (ARA) is concentrated. Unlike fats that are burned for energy, the fatty acids DHA and ARA play key roles as structural and signaling components in cell membranes in the brain and eye.

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Healthy Dendritic Spines / Unhealthy Dendritic Spines

Stress Can Affect Brain Cells

See how stress can affect your brain cells.

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Brain vasculature : Located within the cranium (skull), an adult human brain weighs about 3 lb (1.5 kg). The brain has many parts including the cerebrum, cerebellum, brain stem, pituitary gland, and hypothalamus. The brain acts as a control center by receiving, interpreting, and directing sensory information throughout the body. The cerebral vasculature transports oxygen, nutrients and other important substances to the brain to ensure its proper functioning.

Interactive by TheVisualMD

Nerve Growth with DHA Supplement Nutrition / Nerve Growth without DHA Supplement Nutrition

DHA and Neurogenesis

Comparison of nerve growth with and without DHA supplement. Docosahexaenoic acid (DHA) is an omega-3 fatty acid. It is essential for the proper functioning of nerve cells of the brain in both adults and infants. DHA concentrations in breast milk are influenced by the amount of fatty fish in the mother's diet. In the US, infant formula has been supplemented with DHA since 2001. DHA contributes to numerous nervous system functions, such as visual acuity, neurogenesis, and synaptogenesis. It also lowers the risk for cardiovascular disease. DHA is highly concentrated in the brain and eye.

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Prefrontal cortex

The ventromedial prefrontal cortex in your brain is active in every choice you make. It`s Decision Central. The dorsolateral prefrontal cortex is more active when you are keeping your impulses in check by employing self-control.

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TheVisualMD

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Stress Can Affect Brain Cells

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Autism Spectrum Disorder (ASD) Screening

Autism Spectrum Disorder (ASD) Screening

Also called: ASD Screening, Autism Screening

Autism spectrum disorder (ASD) screening looks for signs of ASD in children age 2 and under. ASD is a developmental disability that affects behavior, communication, and social skills. Screening helps find out which children need more testing to see if they have ASD.

Autism Spectrum Disorder (ASD) Screening

Also called: ASD Screening, Autism Screening

Autism spectrum disorder (ASD) screening looks for signs of ASD in children age 2 and under. ASD is a developmental disability that affects behavior, communication, and social skills. Screening helps find out which children need more testing to see if they have ASD.

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Use the slider below to see how your results affect your health.
Your result is Negative.
There is no special test for ASD. Your child's doctor may use a variety of formal and informal autism screening tools, ranging from simple observations to formal assessments.
Related conditions
The American Academy of Pediatrics (AAP) recommends ASD screening for all children at their 18-month and 24-month well-child checkups.
More ASD screening may be needed if your child has a higher risk for ASD. The risk for ASD is higher for children who:
- Have a sibling or other family member who has ASD
- Have older parents
- Have certain genetic disorders or chromosomal conditions, such as Down syndrome, Fragile X, Rett syndrome, or tuberous sclerosis
- Had problems during childbirth and/or were born with a low birth weight
Research studies have found no link between vaccines and ASD.
Your child may need ASD screening at any age if you, a teacher, or other caregiver notices possible autism symptoms. Some of the more common ASD symptoms in children and teens include:
- Problems with communication and social behavior, such as:
  Making little or no eye contact with others
  Not responding when people smile or talk to them
  Rarely sharing their interests with others (for example, rarely showing you their favorite toy)
  Trouble having conversations
  Talking a lot about a favorite subject without noticing others aren't interested
  Having an unusual tone of voice that's robot-like or sing-song
  Having trouble making friends
  Not understanding humor or sarcasm
- Having unusual behaviors and/or or narrow interests, called "restrictive/repetitive behaviors." For example:
  Repeating words or phrases (called echolalia), or hand flapping and/or body rocking
  Having a lasting, intense interest in specific topics, such as numbers, details, or facts
  Showing unusual attachment to toys, objects
  Becoming upset by slight changes in a routine and having difficulty changing from one activity to another
  Being more sensitive or less sensitive than other people to sensory input, such as light, sound, the feel of clothing, or temperature
If you're concerned about your child or teen, talk with your child's provider even if your child had a normal ASD screening in the past.
Adults may need ASD screening if they have problems that could be signs of autism, but they were never diagnosed with ASD. Usually, their symptoms are mild, which is why they were not diagnosed earlier. Their challenges may include:
- Problems communicating and interacting with others, such as having trouble understanding other people's emotions
- Restricted interests and/or repetitive behaviors
- Trouble understanding what behavior is expected in school, work, or other areas of life
Adults with ASD may also have difficulty keeping a schedule and setting long-term goals. They often have other conditions such as anxiety, depression, or attention deficit hyperactivity disorder (ADHD).
For children: Screening for ASD is usually done by your child's pediatrician (a doctor who specializes in treating children) or nurse. Screening may also be done in school by trained professionals. The screening may have one or more parts, including:
- Questionnaires. You'll usually complete one or more questionnaires. The questions ask about your child's development and behavior, including speech, movement, thinking, and emotions. ASD often runs in families, so you may also be asked about your family health history.
- Observation. The provider will watch how your child plays and interacts with you and/or others. For example, the provider will check if your child responds to your laugh or looks at a person who tries to get their attention. Not responding may be a sign of ASD.
- Interactive screening tests. These tests are play activities, such as playing make-believe with dolls or other toys. These tests are designed to check your child's communication skills, social behavior, and other abilities.
For adults, screening tools for ASD are still being developed and tested. Your primary care provider may refer you to a specialist, such a psychologist or psychiatrist. The specialist may:
- Talk with you about the challenges you face in your day-to-day life
- Ask you to complete a questionnaire about your symptoms
- Ask to talk with family members who remember what you were like as a young child
- Do screening tests for depression, ADHD, and/or anxiety, which are common in people who have ASD
The results of an ASD screening may be given as a score. The score may be described as low, medium, or high risk for ASD. If screening results do not find signs of ASD, but you have concerns, discuss them with your provider.
If the screening shows signs of ASD, it may mean that more testing is needed to confirm whether they are caused by ASD.
Children who show signs of ASD often need to see a specialist for more testing. Several types of specialists may be trained to diagnose ASD, including:
- Developmental pediatricians, doctors who have training in child development and treating children with special needs
- Child neurologists, doctors who specialize in diagnosing and treating conditions involving the brain, spine, and nerves
- Child psychologists or psychiatrists, providers who diagnose and treat children who have mental health, behavioral and/or developmental conditions. Psychologists usually have doctoral degrees (PhDs), and psychiatrists are medical doctors (MDs).
There is no one test that can diagnose ASD. So, a specialist will use a combination of methods, including:
- Detailed questionnaires and/or interviews with parents, teachers, or caregivers
- Watching the child's behavior
- Tests to evaluate the child's thinking, learning, and language abilities
- Exams to check for other conditions that can cause behavior and/or communication problems. These exams may check:
  The nervous system
  Hearing
  Vision
- Genetic testing to look for inherited disorders that can cause ASD. If ASD runs in your family, these tests may be done to help make a diagnosis. Otherwise, they may be done after ASD is diagnosed to help guide treatment.
If your child is diagnosed with ASD, get treatment as soon as possible. ASD treatment involves a variety of services and support depending on your child's needs.
Adults who show signs of ASD may see a psychologist, psychiatrist, neuropsychologist, or other specialist with experience diagnosing ASD in adults. But it can be difficult to find a specialist with this experience. That's because adult testing to diagnose ASD is fairly new. If you would like to find out if you have ASD, ask your primary care provider to help you find a specialist. You might also try contacting an organization in your community that supports people with ASD.
1. Autism Screening & Assessments | Autism Research Institute [accessed on May 26, 2021]
2. ASD Specific Screening Tools [accessed on May 26, 2021]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

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Autism Spectrum Disorder

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Document by National Institute of Environmental Health Sciences

What is Autism Spectrum Disorder? Fact Sheet

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Asperger syndrome (AS) is an autism spectrum disorder (ASD), one of a distinct group of complex neurodevelopment disorders characterized by social impairment, communication difficulties, and restrictive, repetitive, and stereotyped patterns of behavior.

Document by National Institute of Neurological Disorders and Stroke (NINDS)

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Three-year-old Hunter, son of Tricia and Staff Sgt. Justin Hoffman, 15th Airlift Squadron loadmaster, 437th Airlift Wing, heads to the basketball courts at a Joint Base Charleston –Air Base Park with his younger brother Cage not too far behind, April 14, 2012. Hunter was diagnosed with moderate to severe classical autism and receives Applied Behavior Analysis therapy to help counteract the symptoms of the disease. He enjoys playing sports and especially hockey. (U.S. Air Force photo by Airman 1st Class Dennis Sloan/Released)

Image by U.S. Air Force photo by Airman 1st Class Dennis Sloan/Released

Rett Syndrome

The locus in red locates the gene responsible for the lower end of FIG.

Image by Original uploader was Mirmillon at fr.wikipedia

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Sotos Syndrome

3 1/2 year old male

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Image by cdphe.ched

Milestone Checklists

How your child plays, learns, speaks, acts, and moves offers important clues about your child’s development. Developmental milestones are things most children can do by a certain age. Check the milestones your child has reached every few months. Take this with you and talk with your child’s doctor at every visit about the milestones your child has reached and what to expect next.

Document by Centers for Disease Control and Prevention

FMR1 Gene: Living with Fragile X Syndrome

The FMR1 gene makes a protein needed for your brain to grow properly. A defect in the gene makes your body produce too little of the protein, or none at all. The majority of males with fragile X syndrome have a significant intellectual disability. Affects of the disease range from subtle learning disabilities to severe mental retardation and autism. Behavioral characteristics include attention deficit disorders, speech disturbances, hand biting, hand flapping, autistic behaviors, poor eye contact, and aversion to touch and noise. While some females with fragile X syndrome will exhibit these characteristics, fewer females are affected and their degree of impact is usually diminished.

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Colorado Autism Poster and Early Intervention

Colorado Autism Poster and Early Intervention

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Autism Spectrum Disorder

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NIH News in Health

Sensitive content

This media may include sensitive content

Autism awareness

U.S. Air Force photo by Airman 1st Class Dennis Sloan/Released

Rett Syndrome

Original uploader was Mirmillon at fr.wikipedia

Information For Parents: Measles and the Vaccine (Shot) to Prevent It

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Sotos Syndrome

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Autism

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Milestone Checklists

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Down Syndrome Tests

Down Syndrome Tests

Also called: Trisomy 21 Testing

Down syndrome tests are used to screen for or to diagnose Down syndrome, which is a type of chromosomal disorder. Down syndrome screening tests have little or no risk to you or your baby, but they can't diagnose or rule out whether your baby has Down syndrome.

Down Syndrome Tests

Also called: Trisomy 21 Testing

Down syndrome tests are used to screen for or to diagnose Down syndrome, which is a type of chromosomal disorder. Down syndrome screening tests have little or no risk to you or your baby, but they can't diagnose or rule out whether your baby has Down syndrome.

Down syndrome is a disorder that causes intellectual disabilities, distinctive physical features, and various health problems. These may include heart defects, hearing loss, and thyroid disease. Down syndrome is a type of chromosomal disorder.
Chromosomes are the parts of your cells that contain your genes. Genes are parts of DNA passed down from your mother and father. They carry information that determines your unique traits, such as height and eye color.
- People normally have 46 chromosomes, divided into 23 pairs, in each cell.
- One of each pair of chromosomes comes from your mother, and the other pair comes from your father.
- In Down syndrome, there is an extra copy of chromosome 21.
- The extra chromosome changes the way the body and brain develop.
Down syndrome, also called trisomy 21, is the most common birth defect in the United States.
In two rare forms of Down syndrome, called mosaic trisomy 21 and translocation trisomy 21, the extra chromosome doesn't show up in every cell. People with these disorders usually have fewer of the characteristics and health problems associated with the common form of Down syndrome.
Down syndrome screening tests show whether your unborn baby is more likely to have Down syndrome. Other types of tests confirm or rule out the diagnosis.
Many health care providers recommend Down syndrome screening and/or diagnostic tests for pregnant women who are 35 years of age or older. A mother's age is the primary risk factor for having a baby with Down syndrome. The risk increases as a woman gets older. But you may also be at higher risk if you've already had a baby with Down syndrome and/or have a family history of the disorder.
In addition, you may want to get tested to help you prepare if the results show your baby may have Down syndrome. Knowing in advance can give you time to plan for health care and support services for your child and family.
But testing isn't for everyone. Before you decide to get tested, think about how you'd feel and what you might do after learning the results. You should discuss your questions and concerns with your partner and your health care provider.
If you didn't get tested during pregnancy or want to confirm the results of other tests, you may want to have your baby tested if he or she has symptoms of Down syndrome. These include:
- Flattened face and nose
- Almond-shaped eyes that slant upward
- Small ears and mouth
- Tiny white spots on the eye
- Poor muscle tone
- Developmental delays
There are two basic types of Down syndrome tests: screening and diagnostic tests.
Down syndrome screening includes the following tests done during pregnancy:
- First trimester screening includes a blood test that checks the levels of certain proteins in the mother's blood. If levels are not normal, it means there is a higher chance of the baby having Down syndrome. The screening also includes an ultrasound, an imaging test that looks at the unborn baby for signs of Down syndrome. The test is done between the 10th and 14th week of pregnancy.
- Second trimester screening. These are blood tests that also look for certain substances in the mother's blood that may be a sign of Down syndrome. A triple screen test looks for three different substances. It is done between the 16th and 18th week of pregnancy. A quadruple screen test looks for four different substances and is done between the 15th and 20th week of pregnancy. Your provider may order one or both of these tests.
If your Down syndrome screening shows a higher chance of Down syndrome, you may want to take a diagnostic test to confirm or rule out a diagnosis.
Down syndrome diagnostic tests done during pregnancy include:
- Amniocentesis, which takes a sample of amniotic fluid, the fluid that surrounds your unborn baby. It is usually done between the 15th and 20th week of pregnancy.
- Chorionic villus sampling (CVS), which takes a sample from the placenta, the organ that nourishes your unborn baby in your uterus. It's usually done between the 10th and 13th week of pregnancy.
- Cordocentesis (percutaneous umbilical blood sampling), which takes a blood sample from the umbilical cord. PUBS gives the most accurate diagnosis of Down syndrome during pregnancy, but it can't be done until late in pregnancy, between the 18th and 22nd week.
Down syndrome diagnosis after birth:
Your baby may get a blood test that looks at his or her chromosomes. This test will tell you for sure whether your baby has Down syndrome.
During a blood test, a health care professional will take a blood sample from a vein in your arm, using a small needle. After the needle is inserted, a small amount of blood will be collected into a test tube or vial. You may feel a little sting when the needle goes in or out. This usually takes less than five minutes.
For the first trimester ultrasound, a health care provider will move an ultrasound device over your abdomen. The device uses sound waves to look at your unborn baby. Your provider will check for thickness at the back of your baby's neck, which is a sign of Down syndrome.
For amniocentesis:
- You'll lie on your back on an exam table.
- Your provider will move an ultrasound device over your abdomen. Ultrasound uses sound waves to check the position of your uterus, placenta, and baby.
- Your provider will insert a thin needle into your abdomen and withdraw a small amount of amniotic fluid.
For chorionic villus sampling (CVS):
- You'll lie on your back on an exam table.
- Your provider will move an ultrasound device over your abdomen to check the position of your uterus, placenta, and baby.
- Your provider will collect cells from the placenta in one of two ways: either through your cervix with a thin tube called a catheter, or with a thin needle through your abdomen.
For percutaneous umbilical blood sampling (PUBS):
- You'll lie on your back on an exam table.
- Your provider will move an ultrasound device over your abdomen to check the position of your uterus, placenta, baby, and umbilical cord.
- Your provider will insert a thin needle into the umbilical cord and withdraw a small blood sample.
1. Down Syndrome Tests: MedlinePlus Lab Test Information [accessed on Nov 05, 2018]
2. National Down Syndrome Society. Understanding a Diagnosis of Down Syndrome. [accessed on Nov 05, 2018]

Additional Materials (50)

Karyotype of 21 trisomy (Down syndrome)

Karyotype of 21 trisomy (Down syndrome)

Image by U.S. Department of Energy Human Genome Program

What conditions or disorders are commonly associated with Down syndrome?

A Trisomy 21, Down Syndrome Baby, simply enjoying life!

Image by Himileanmedia

Down Syndrome: Other FAQs

A cropped photo of the eyes of a baby with Down Syndrome. Brushfield spots are visible between the inner and outer circle of the iris.

Image by Szymon Tomczak

Each person with Down syndrome has different talents and the ability to thrive.

Down syndrome is a lifelong condition. Services early in life will often help babies and children with Down syndrome to improve their physical and intellectual abilities. Most of these services focus on helping children with Down syndrome develop to their full potential. These services include speech, occupational, and physical therapy, and they are typically offered through early intervention programs in each state. Children with Down syndrome may also need extra help or attention in school, although many children are included in regular classes.

Image by CDC

PAPP-A: PAPP-A Screening Tests

The PAPP-A screen is administered as a first-trimester screen integrated with an hCG test and nuchal translucency (NT) ultrasound. The test screens for chromosomal abnormalities such as Down syndrome and trisomy 18. The image featured here shows an ultrasound image of a fetus suspected to have down syndrome. The areas of concern are highlighted in yellow.

Image by TheVisualMD

Trisomy (Down syndrome)

A common form of aneuploidy (gain or loss of chromosomes from the normal 46) is trisomy, or the presence of an extra chromosome in cells. "Tri-" is Greek for "three"; people with trisomy have three copies of a particular chromosome in cells instead of the normal two copies. Down syndrome is an example of a condition caused by trisomy. People with Down syndrome typically have three copies of chromosome 21 in each cell, for a total of 47 chromosomes per cell.

Image by U.S. National Library of Medicine

Ultrasound image of a fetus suspected to have Down syndrome. The areas of concern are highlighted in yellow.

Image by TheVisualMD

What is Down syndrome?

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Image by Centers for Disease Control and Prevention, National Center on Birth Defects and Developmental Disabilities

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Feet of a 10 year old boy with Down Syndrome, with the typical large space between the large toe and second toe.

Image by Loranchet

Newborn with Down Syndrome

This photograph depicts a newborn with the genetic disorder Down Syndrome, due to the presence of an extra 21st chromosome. The estimated incidence of Down Syndrome is between 1:1,000 to 1:1,100 live births. Each year approximately 3,000 to 5,000 children are born with this chromosomal disorder.

Image by CDC/ Dr. Godfrey P. Oakley

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Megacystis in fetus : Ultrasound revealing megacystis in a fetus with Down syndrome.

Image by X.Compagnion

A Trisomy 21, Down Syndrome Baby, simply enjoying life!

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Image by Himileanmedia

Brushfield eyes

Brushfield eyes. Brushfield spots are visible between the inner and outer circle of the iris.

Image by Erin Ryan

Genes and Genetic Defects

Genetic testing isn't new. In the 1960s, doctors were able to test newborn babies for certain rare single-gene disorders, such as phenylketonuria (PKU), a rare metabolic disease that causes mental retardation. (PKU can be prevented with a special diet if it's detected early, which was why it was critical to test newborns.)

Image by TheVisualMD

Intellectual disability

Children with intellectual disability or other developmental conditions can compete in theSpecial Olympics.

Image by A1C Justin Veazie

Amniocentesis

Image by BruceBlaus

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Prenatal Diagnostic Testing

If a pregnant woman has an abnormal genetic screening test result, a doctor may suggest a prenatal diagnostic test be done to determine with more certainly whether or not a fetus has a particular disorder. There are two main diagnostic testing procedures, chorionic villus sampling (CVS) and amniocentesis. Both of these tests involve collecting a sample from inside the womb, which is then examined to detect diseases such as Down Syndrome, Edwards Syndrome, neural tube defects, cystic fibrosis, fragile-x, and spinal muscular atrophy. Prenatal diagnostic tests provide valuable information on the health of the fetus and can help alleviate the stress of expectant parents.

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Amniocentesis

Amniocentesis

Also called: Amnio, Amniotic Fluid Test, AFT, Amniotic Fluid Analysis

Amniocentesis is a test done during pregnancy, usually between weeks 15 and 20. It uses a sample of amniotic fluid to diagnose certain genetic disorders, birth defects, and other health problems in an unborn baby.

Amniocentesis

Also called: Amnio, Amniotic Fluid Test, AFT, Amniotic Fluid Analysis

Amniocentesis is a test done during pregnancy, usually between weeks 15 and 20. It uses a sample of amniotic fluid to diagnose certain genetic disorders, birth defects, and other health problems in an unborn baby.

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Use the slider below to see how your results affect your health.
Your result is Normal.
A normal or negative result means that there were 46 chromosomes in the sample without any unusual changes in their structure. Normal karyotypes for females contain two X chromosomes and are denoted 46,XX; males have both an X and a Y chromosome denoted 46,XY.
Related conditions
Amniocentesis is used to diagnose certain health problems in an unborn baby. It is commonly used to find:
- Genetic and chromosomal disorders, including:
  Down syndrome, a disorder that causes intellectual disabilities and other health problems
  Cystic fibrosis, a disease of the mucus and sweat glands that causes thick sticky mucus, which can lead to problems with breathing and digestion
  Sickle cell disease, a group of red blood cell disorders that can cause anemia and other health problems
  Tay-Sachs disease, a disease that destroys nerve cells, causes mental and physical problems, and often death in early childhood (uncommon)
- Neural tube defects, severe birth defects of the baby's brain and/or spine, such as spina bifida and anencephaly.
The test may also be used to:
- Check your baby's lung development if you have a risk for giving birth too soon (premature birth). In this case, amniocentesis is done later in pregnancy.
- Diagnose an infection or certain other illnesses in the baby
Having amniocentesis is your choice. You may want this test if you have a high risk for having a baby with a health problem. You may have an increased risk if:
- You are age 35 or older. (The risk of having a baby with a genetic disorder increases with age.)
- You had a prenatal screening test that shows your baby might have a problem.
- You or your partner have a family history of a genetic disorder or neural tube defect.
- You or your partner had genetic testing that showed you carry a genetic disorder.
- You or your partner have a child with a genetic disorder or birth defect.
Amniocentesis isn't right for everyone. Before you decide to get tested, think about how you'd feel and what you might do after learning the results.
The test is usually done between 15 and 20 weeks of pregnancy. It is sometimes done later in pregnancy to check the baby's lung development or diagnose certain infections or illnesses, such as anemia in the unborn baby caused by Rh incompatibility.
During the procedure:
- You'll lie on your back on an exam table.
- Your provider may apply a numbing medicine to your abdomen.
- Your provider will move an ultrasound wand-like device, called a transducer, on your belly. Ultrasound uses sound waves to show the position of your baby and placenta so your provider can see where to take a sample of amniotic fluid.
- Your provider will insert a thin needle into your abdomen and withdraw a small amount of amniotic fluid.
- When the sample is removed, your provider will check your baby's heartbeat with the ultrasound.
The procedure usually takes about 15 minutes. Afterwards, you may be told to avoid any hard exercise or physical activity for the next 24 hours.
Amniotic fluid may be tested for many different disorders. Your test results will depend on which tests your provider ordered.
- Normal results are reported as "normal" or "negative." This means that it's very unlikely that your baby has the disorder that was tested, but it does not guarantee your baby will not have any health problems.
- Results that are not normal are reported as "abnormal" or "positive." This means that your baby very likely has the disorder that was tested.
Your provider will explain your test results. Amniocentesis is very accurate, but in certain cases, your provider may order more tests to learn about your baby's health.
It may help to speak to a genetic counselor before testing and/or after you get your results. A genetic counselor is a specially trained professional in genetics and genetic testing who can help you understand what your results mean.
1. Amniocentesis (amniotic fluid test): MedlinePlus Medical Test [accessed on Jan 20, 2024]
2. Amniocentesis: MedlinePlus Medical Encyclopedia [accessed on Jan 17, 2019]
3. Diagnosis of Birth Defects | CDC [accessed on Jan 17, 2019]
4. Amniocentesis. Test in pregnancy, amniocentesis information. | Patient [accessed on Jan 17, 2019]
5. Amniocentesis - Health Encyclopedia - University of Rochester Medical Center [accessed on Jan 17, 2019]
6. Amniotic Fluid Analysis [accessed on Jan 17, 2019]
7. Amniocentesis - InsideRadiology [accessed on Jan 17, 2019]
8. Amniocentesis - NHS [accessed on Jan 17, 2019]
9. Amniocentesis - American Pregnancy Association [accessed on Jan 17, 2019]
10. Amniocentesis Procedure [accessed on Jan 17, 2019]
11. Amniocentesis | March of Dimes [accessed on Jan 17, 2019]

Additional Materials (10)

Amniocentesis

Amniocentesis

Image by TheVisualMD

Amniocentesis Being Performed on Human Pregnancy

Amniocentesis Being Performed on Human Pregnancy

Image by TheVisualMD

Amniocentesis

Video by Obstetrics & Gynecology Associates/YouTube

Amniocentesis: Pre-Baby Care (Pregnancy Health Guru)

Video by Healthguru/YouTube

Amniocentesis | Parents

Video by Parents/YouTube

This browser does not support the video element.

Prenatal Diagnostic Testing

If a pregnant woman has an abnormal genetic screening test result, a doctor may suggest a prenatal diagnostic test be done to determine with more certainly whether or not a fetus has a particular disorder. There are two main diagnostic testing procedures, chorionic villus sampling (CVS) and amniocentesis. Both of these tests involve collecting a sample from inside the womb, which is then examined to detect diseases such as Down Syndrome, Edwards Syndrome, neural tube defects, cystic fibrosis, fragile-x, and spinal muscular atrophy. Prenatal diagnostic tests provide valuable information on the health of the fetus and can help alleviate the stress of expectant parents.

Video by TheVisualMD

Genetic Testing During Pregnancy

Video by University of California Television (UCTV)/YouTube

Amniocentesis.flv

Video by PortalMedicoModerno/YouTube

Amnio vs. Genetic Blood Testing

Video by Lee Health/YouTube

Amniocentesis

Video by Washington State Department of Health/YouTube

Amniocentesis

TheVisualMD

Amniocentesis Being Performed on Human Pregnancy

TheVisualMD

3:15

Amniocentesis

Obstetrics & Gynecology Associates/YouTube

2:01

Amniocentesis: Pre-Baby Care (Pregnancy Health Guru)

Healthguru/YouTube

4:57

Amniocentesis | Parents

Parents/YouTube

4:34

Prenatal Diagnostic Testing

TheVisualMD

4:38

Genetic Testing During Pregnancy

University of California Television (UCTV)/YouTube

0:49

Amniocentesis.flv

PortalMedicoModerno/YouTube

1:56

Amnio vs. Genetic Blood Testing

Lee Health/YouTube

3:44

Amniocentesis

Washington State Department of Health/YouTube

Prenatal Cell-Free DNA Screening

Prenatal Cell-Free DNA Screening

Also called: Cell-Free fetal DNA testing for fetal chromosomal abnormalities, Cell-free fetal DNA, cffDNA, Non-invasive prenatal test, NIPT, cfDNA, Cell Free DNA Screening

A prenatal cell-free DNA (cfDNA) screening is a blood test for pregnant women. It checks to see if an unborn baby is more likely to have Down syndrome or another chromosome disorder.

Prenatal Cell-Free DNA Screening

Also called: Cell-Free fetal DNA testing for fetal chromosomal abnormalities, Cell-free fetal DNA, cffDNA, Non-invasive prenatal test, NIPT, cfDNA, Cell Free DNA Screening

A prenatal cell-free DNA (cfDNA) screening is a blood test for pregnant women. It checks to see if an unborn baby is more likely to have Down syndrome or another chromosome disorder.

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Use the slider below to see how your results affect your health.
Your result is Negative.
A negative cell-free fetal DNA test result means that it is very unlikely that the baby has trisomy 13, 18, or 21.
Related conditions
Prenatal cell-free DNA (cfDNA) screening is a blood test for pregnant women. During pregnancy, some of an unborn baby's DNA circulates in the mother's bloodstream. A cfDNA screening checks this DNA to find out if the baby is more likely to have Down syndrome or another disorder caused by a trisomy.
A trisomy is a disorder of the chromosomes. Chromosomes are the parts of your cells that contain your genes. Genes are parts of DNA passed down from your mother and father. They carry information that determines your unique traits, such as height and eye color.
- People normally have 46 chromosomes, divided into 23 pairs, in each cell.
- If one of these pairs has an extra copy of a chromosome, it's called a trisomy. A trisomy causes changes in the way the body and brain develop.
- In Down syndrome, there is an extra copy of chromosome 21. This is also known as trisomy 21. Down syndrome is the most common chromosome disorder in the United States.
- Other trisomy disorders include Edwards syndrome (trisomy 18), where there is an extra copy of chromosome 18, and Patau syndrome (trisomy 13), where there is an extra copy of chromosome 13. These disorders are rare but more serious than Down syndrome. Most babies with trisomy 18 or trisomy 13 die within the first year of life.
A cfDNA screening has very little risk to you and your baby, but it can't tell you for sure whether your baby has a chromosome disorder. Your health care provider will need to order other tests to confirm or rule out a diagnosis.
A cfDNA screening is most often used to show if your unborn baby has an increased risk for one of the following chromosome disorders:
- Down syndrome (trisomy 21)
- Edwards syndrome (trisomy 18)
- Patau syndrome (trisomy 13)
The screening may also be used to:
- Determine a baby's gender (sex). This may be done if an ultrasound shows that a baby's genitals are not clearly male or female. This may be caused by a disorder of the sex chromosomes.
- Check Rh blood type. Rh is a protein found on red blood cells. If you have the protein, you are considered Rh positive. If you don't, you are Rh negative. If you are Rh negative and your unborn baby is Rh positive, your body's immune system may attack your baby's blood cells. If you find out you are Rh negative early in pregnancy, you can take medicines to protect your baby from dangerous complications.
A cfDNA screening can be done as early as the 10th week of pregnancy.
Many health care providers recommend this screening to pregnant women who are at higher risk of having a baby with a chromosome disorder. You may be at higher risk if:
- You are age 35 or older. A mother's age is the primary risk factor for having a baby with Down syndrome or other trisomy disorders. The risk increases as a woman gets older.
- You've had another baby with a chromosome disorder.
- Your fetal ultrasound didn't look normal.
- Other prenatal test results were not normal.
Some health care providers recommend screening to all pregnant women. This is because the screening has almost no risk and has a high rate of accuracy compared with other prenatal screening tests.
You and your health care provider should discuss if a cfDNA screening is right for you.
1. Cell-Free Fetal DNA. Lab Tests Online. [accessed on Nov 08, 2018]
2. What is noninvasive prenatal testing (NIPT) and what disorders can it screen for? Genetics Home Reference (GHR), U.S. National Library of Medicine [accessed on Nov 08, 2018]
3. Prenatal cell-free DNA screening - Mayo Clinic [accessed on Nov 08, 2018]
4. FAQ: Cell-Free DNA Screening | Patient Education | UCSF Medical Center [accessed on Nov 08, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (23)

Cell free fetal DNA (cffDNA)

Cell free fetal DNA (cffDNA) migrating into the maternal blood stream via the apoptotic trophoblast cells shedding off the placental tissue.

Image by Swils6/Wikimedia

Pinpointing Genes

This illustration explains chromosome staining, inherited markers, and DNA cloning.

Image by National Cancer Institute / Jane Hurd (Illustrator)

DNA Molecule

DNA Molecule

Image by TheVisualMD

Sensitive content

This media may include sensitive content

Liquid biopsy

Tumor cells shed protein and DNA into bloodstream for laboratory analysis and early cancer detection.

Image by Jill George/NIH

Amniocentesis

BruceBlaus

Image by Wikimedia Commons

Human Chorionic Gonadotropin (hCG): hCG Levels Increase Over Time

hCG testing for pregnancy is available to women of child-bearing age. The \"quad\" screen, of which hCG is a component, is especially recommended for women with higher-risk pregnancies as indicated by factors such as maternal age, family history, and disease history. Levels can first be detected by a blood test about 11 days after conception and about 12-14 days after conception by a urine test. In general the hCG levels will double every 72 hours. The level will reach its peak in the first 8-11 weeks of pregnancy and then will decline and level off for the remainder of the pregnancy.

Image by TheVisualMD

Sensitive content

This media may include sensitive content

Chorionic Villus Sampling (CVS)

Chorionic Villus Sampling (CVS) is a prenatal diagnostic test that gathers information about a fetus' health from a sample of chorionic villi cells from the placenta. If a woman is at high risk for a genetic disease, a doctor may recommend CVS to determine whether a baby has certain genetic disorders, such as cystic fibrosis, among other diseases.

Image by TheVisualMD

Prenatal Testing: What to Expect During a First Prenatal Visit

An ultrasound is a simple test during pregnancy that will give your healthcare provider a detailed look at your baby's progress. Learn helpful tips for what to expect and how to stay healthy while pregnant.

Image by TheVisualMD

The Tipsy Test Genebook from BGI

BGI "Genebook", an experimental platform for genetic testing being offered as a perk to the staff. The Tipsy test screens alcohol metabolism genes and gives a score on how well you should be able to metabolise alcohol

Image by Scotted400

Factors affecting penetrance

Factors affecting penetrance

Image by Genomics Education Program

Hipaa Violations by Type

This chart breaks Hipaa Privacy Violations down by the percentage of total violations for each violation type. Based on data available from The U.S Department of Health and Human Services for the period 9/22/2009 to 07/04/2012. Includes the following types: sensitive data disclosed without permision, data compromised by hackers, improper disposal of data, data lost and not accounted for, data physically stolen, and other/unknown. I created this chart in Microsoft Excel 2010 using the information provided on this page of the HHS.gov website. I altered the descriptions used by HHS to make them more descriptive. For example, I changed 'Theft' to 'Data Stolen Physically' as it specifically refers to data that was stolen by physically carying an item out of the place of business.

Image by Compliance and Safety LLC

Methylation of CpG islands in TSG promoters can suppress gene expression and lead to cancer

Methylation of CpG islands in TSG promoters can suppress gene expression and lead to cancer.

Image by WassermanLab

Preimplantation genetic diagnosis

1♂︎—Sperm is collected from a male. 1♀︎—Eggs are collected via in vitro fertilization from a female. 2—The sperm and eggs are fertilized. 3a—The embryos are allowed to develop; those that thrive are given identifiers. 3b—A genetic test is run on each embryo for a given trait and the results are matched with the embryos. 4—The embryos without the desired trait are identified and discarded. 5—The remaining embryos are allowed to grow to the point that they can be implanted. 6a—The embryos with the desired trait are implanted. 6b—The embryos result in a healthy pregnancy. 6c—Fraternal twins with the desired trait, not expressed in their mother, are born.

Image by Psiĥedelisto, Vincent Le Moign, and Nevit Dilmen (User:Nevit)

Genetic discrimination

genetic discrimination

Image by TheVisualMD

Pinpointing Genes in Cancer

This illustration explains about 1) chromosome staining, 2)inherited markers and 3) DNA cloning.

Image by Jane Hurd (Illustrator) / National Cancer Institute (NCI)

Genetic Changes and Cancer

Genes contain information to make proteins, and proteins control many important functions like cell growth. Genetic mutations can change how proteins function. Some types of genetic mutations change proteins in ways that cause healthy cells to become cancerous.

Image by National Cancer Institute (NCI)

Types of Genetic Mutations

Genes contain information to make proteins, and proteins control many important functions like cell growth. Genetic mutations can change how proteins function. Some types of genetic mutations change proteins in ways that cause healthy cells to become cancerous.

Image by National Cancer Institute (NCI)

Prenatal Cell-Free DNA Screening (cfDNA Screening)

Video by Washington State Department of Health/YouTube

Screening in Pregnancy

Video by Michigan Medicine/YouTube

Stanford Hospital's Dr. Jane Chueh on Prenatal Screening and Diagnosis

Video by Stanford Health Care/YouTube

Cell-free DNA Analysis and Cancer Treatment

Video by NEJMvideo/YouTube

Prenatal Screening Options: cfDNA (cell free DNA)

Video by UNC Center for Maternal and Infant Health/YouTube

Cell-Free DNA Prenatal Screen

Video by Mayo Clinic Laboratories/YouTube

Cell free fetal DNA (cffDNA)

Swils6/Wikimedia

Pinpointing Genes

National Cancer Institute / Jane Hurd (Illustrator)

DNA Molecule

TheVisualMD

Sensitive content

This media may include sensitive content

Liquid biopsy

Jill George/NIH

Amniocentesis

Wikimedia Commons

Human Chorionic Gonadotropin (hCG): hCG Levels Increase Over Time

TheVisualMD

Sensitive content

This media may include sensitive content

Chorionic Villus Sampling (CVS)

TheVisualMD

Prenatal Testing: What to Expect During a First Prenatal Visit

TheVisualMD

The Tipsy Test Genebook from BGI

Scotted400

Factors affecting penetrance

Genomics Education Program

Hipaa Violations by Type

Compliance and Safety LLC

Methylation of CpG islands in TSG promoters can suppress gene expression and lead to cancer

WassermanLab

Preimplantation genetic diagnosis

Psiĥedelisto, Vincent Le Moign, and Nevit Dilmen (User:Nevit)

Genetic discrimination

TheVisualMD

Pinpointing Genes in Cancer

Jane Hurd (Illustrator) / National Cancer Institute (NCI)

Genetic Changes and Cancer

National Cancer Institute (NCI)

Types of Genetic Mutations

National Cancer Institute (NCI)

3:54

Prenatal Cell-Free DNA Screening (cfDNA Screening)

Washington State Department of Health/YouTube

5:34

Screening in Pregnancy

Michigan Medicine/YouTube

1:11:38

Stanford Hospital's Dr. Jane Chueh on Prenatal Screening and Diagnosis

Stanford Health Care/YouTube

3:36

Cell-free DNA Analysis and Cancer Treatment

NEJMvideo/YouTube

4:56

Prenatal Screening Options: cfDNA (cell free DNA)

UNC Center for Maternal and Infant Health/YouTube

4:58

Cell-Free DNA Prenatal Screen

Mayo Clinic Laboratories/YouTube

Chorionic Villus Sampling

Chorionic Villus Sampling

Also called: CVS, Chorionic Villus Biopsy, Placental Biopsy

Chorionic villus sampling (CVS) is a test for pregnant women that checks cells from the placenta. It is used in the first trimester of pregnancy to diagnose certain chromosome and genetic disorders in an unborn baby.

Chorionic Villus Sampling

Also called: CVS, Chorionic Villus Biopsy, Placental Biopsy

Chorionic villus sampling (CVS) is a test for pregnant women that checks cells from the placenta. It is used in the first trimester of pregnancy to diagnose certain chromosome and genetic disorders in an unborn baby.

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Use the slider below to see how your results affect your health.
Your result is Normal.
A normal result means that no signs of chromosomal or genetic defects were detected in your developing baby.
Related conditions
CVS testing is used to diagnose chromosome problems or other genetic diseases in an unborn baby. These include:
- Down syndrome, a disorder that causes intellectual disabilities, certain physical features, and various health problems.
- Cystic fibrosis, a disease that causes mucus buildup in the lungs and other organs, making it hard to breathe.
- Sickle cell disease, a disorder of the red blood cells. It can cause pain, infections, organ damage, and strokes.
- Tay-Sachs disease, a disorder that causes fatty proteins to build up in the brain. It affects sight, hearing, and mental development. Most children with Tay-Sachs die by the age of 5.
CVS testing is very accurate and can be done early in pregnancy, between the 10th and 13th week. But it can only diagnose certain genetic diseases. A CVS test does not diagnose or screen for birth defects such as neural tube defects, conditions that cause abnormal development of a developing baby's brain and/or spine. Different tests, including an alpha-fetoprotein (AFP) blood test, are used to screen for or diagnose these and other birth defects.
You may need CVS testing if you are at higher risk for having a baby with a chromosome disorder. Risk factors include:
- Age. Women age 35 and older have a higher risk of having a baby with Down syndrome or another genetic disorder.
- Family history of a genetic disorder
- Having another child with a genetic disorder
You may also need CVS testing if you had abnormal results on a prenatal screening test.
There are two types of CVS tests:
- Transabdominal The sample is taken through the abdomen.
- Transcervical. The sample is taken through the cervix. The cervix is the lower, narrow end of the uterus that opens into the vagina.
Your provider will use an ultrasound to check your baby's position and guide the procedure (transabdominal or transcervical). Ultrasound is an imaging test that uses sound waves to create pictures.
During a transabdominal CVS, your provider will:
- Clean your abdomen with an antiseptic.
- Apply a numbing medicine to your abdomen.
- Insert a long, thin needle through your abdomen and uterus and into the placenta. You may feel a cramping or stinging sensation as the needle enters the uterus.
- Use the needle to withdraw a sample of tissue from the placenta.
- Remove the needle.
During a transcervical CVS, your provider will:
- Clean your vagina and cervix with an antiseptic
- Use an instrument called a speculum to gently spread apart the sides of your vagina.
- Insert a thin tube through your vagina and cervix and up to the placenta. You may feel a slight twinge or cramping as this is done.
- Use the tube to gently suck in a sample of tissue from the placenta.
- Remove the tube.
CVS is generally considered to be a safe procedure, but it does have some risks. These include:
- Miscarriage, which happens in about one in every hundred procedures
- Infection
- Bleeding
- Rh sensitization. This is a condition in which your body makes antibodies (proteins made by the immune system) that attack your baby's red blood cells. If diagnosed during pregnancy, it is easily treatable.
- Limb defects in the baby (this is very rare)
1. http://americanpregnancy.org/prenatal-testing/chorionic-villus-sampling/ [accessed on Jan 26, 2019]
2. https://medlineplus.gov/ency/article/003406.htm [accessed on Sep 18, 2019]
3. https://medlineplus.gov/lab-tests/down-syndrome-tests/ [accessed on Sep 18, 2019]
4. https://www.cdc.gov/ncbddd/birthdefects/diagnosis.html [accessed on Sep 18, 2019]
5. https://www.hopkinsmedicine.org/health/treatment-tests-and-therapies/chorionic-villus-sampling-cvs [accessed on Sep 18, 2019]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (14)

Chorionic Villus Sampling

Video by manny1976/YouTube

Chorionic Villus Sampling (CVS)

Video by Washington State Department of Health/YouTube

Prenatal screening, fetal testing, and other tests during pregnancy

Video by MedLecturesMadeEasy/YouTube

This browser does not support the video element.

Prenatal Diagnostic Testing

If a pregnant woman has an abnormal genetic screening test result, a doctor may suggest a prenatal diagnostic test be done to determine with more certainly whether or not a fetus has a particular disorder. There are two main diagnostic testing procedures, chorionic villus sampling (CVS) and amniocentesis. Both of these tests involve collecting a sample from inside the womb, which is then examined to detect diseases such as Down Syndrome, Edwards Syndrome, neural tube defects, cystic fibrosis, fragile-x, and spinal muscular atrophy. Prenatal diagnostic tests provide valuable information on the health of the fetus and can help alleviate the stress of expectant parents.

Video by TheVisualMD

Diagnostic Testing in Pregnancy

Video by Michigan Medicine/YouTube

Prenatal Testing - What You Need To Know

Video by Rehealthify/YouTube

Amniocentesis: Pre-Baby Care (Pregnancy Health Guru)

Video by Healthguru/YouTube

Chorionic Villus Sampling (CVS) Mnemonic

Video by Medicosis Perfectionalis/YouTube

First Trimester of Pregnancy -- CVS Prenatal Test | Parents

Video by Parents/YouTube

Genetic Testing During Pregnancy

Video by University of California Television (UCTV)/YouTube

Prenatal Screening Options: Chorionic Villus Sampling (CVS)

Video by UNC Center for Maternal and Infant Health/YouTube

Embryo 26 Day Old (Week 5 for Gestational Age) Suspended in Chorionic Cavity

Computer Generated Image from Micro-MRI, actual size of embryo = 4.0 mm - This image presents a right-sided view of the embryo during its fourth week of embryonic development. The age is calculated from the day of fertilization. At the beginning of the 4th week, the heart begins to beat and the embryonic circulation sets in. At the end of 4 weeks over 30 somites are present . Somites are paired blocks of cells which in the later stages of development give rise to connective tissue, bone, muscle and the spine. The embryo is suspended in the protective chorionic cavity by the body stalk (the amniotic cavity and yolk sac have been removed to demonstrate the C-shaped curvature of the embryo). The red spot in the head region indicates the developing eye.

Image by TheVisualMD

Chorionic villi

Chorionic villus

Image by BruceBlaus

Chorionic villi

Schematic view of the placenta and chorion.

Image by Swils6

4:42

Chorionic Villus Sampling

manny1976/YouTube

4:16

Chorionic Villus Sampling (CVS)

Washington State Department of Health/YouTube

18:42

Prenatal screening, fetal testing, and other tests during pregnancy

MedLecturesMadeEasy/YouTube

4:34

Prenatal Diagnostic Testing

TheVisualMD

2:10

Diagnostic Testing in Pregnancy

Michigan Medicine/YouTube

1:45

Prenatal Testing - What You Need To Know

Rehealthify/YouTube

2:01

Amniocentesis: Pre-Baby Care (Pregnancy Health Guru)

Healthguru/YouTube

2:13

Chorionic Villus Sampling (CVS) Mnemonic

Medicosis Perfectionalis/YouTube

2:44

First Trimester of Pregnancy -- CVS Prenatal Test | Parents

Parents/YouTube

4:38

Genetic Testing During Pregnancy

University of California Television (UCTV)/YouTube

5:18

Prenatal Screening Options: Chorionic Villus Sampling (CVS)

UNC Center for Maternal and Infant Health/YouTube

Embryo 26 Day Old (Week 5 for Gestational Age) Suspended in Chorionic Cavity

TheVisualMD

Chorionic villi

BruceBlaus

Chorionic villi

Swils6

Cordocentesis Test

Cordocentesis Test

Also called: Percutaneous Umbilical Blood Cord Sampling, PUBS, Umbilical Vein Sampling, Fetal Blood Sampling

Cordocentesis, also known as percutaneous umbilical blood sampling, is a diagnostic prenatal test in which a sample of the baby's blood is collected from the umbilical cord for testing. It is used primarily to detect and treat blood conditions.

Cordocentesis Test

Also called: Percutaneous Umbilical Blood Cord Sampling, PUBS, Umbilical Vein Sampling, Fetal Blood Sampling

Cordocentesis, also known as percutaneous umbilical blood sampling, is a diagnostic prenatal test in which a sample of the baby's blood is collected from the umbilical cord for testing. It is used primarily to detect and treat blood conditions.

{"label":"Cordocentesis Reference Range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"A normal result means that no chromosomal abnormalities, blood disorders, or infection were detected in your developing baby.","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"An abnormal result may indicate a chromosomal abnormality, blood disorder, or infection. Talk to your doctor to know what this result means in your baby's specific case.","conditions":["Down syndrome","Edwards syndrome","Patau syndrome","Blood disorders","Fetal anemia","Infection"]}],"value":0.5}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
A normal result means that no chromosomal abnormalities, blood disorders, or infection were detected in your developing baby.
Related conditions
1. https://medlineplus.gov/lab-tests/down-syndrome-tests/ [accessed on Sep 18, 2019]
2. https://www.mayoclinic.org/tests-procedures/percutaneous-umbilical-blood-sampling/about/pac-20393638 [accessed on Sep 18, 2019]
3. https://www.nichd.nih.gov/health/topics/down/conditioninfo/diagnosis [accessed on Sep 18, 2019]
4. https://www.ncbi.nlm.nih.gov/pubmed/27014852 [accessed on Sep 18, 2019]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (7)

Cordiocentesis Being Performed on Human Pregnancy with Placenta towards Front

Cordiocentesis Being Performed on Human Pregnancy with Placenta towards Front

Image by TheVisualMD

3D Visualization of Fetus and Placenta

The placenta is an indispensable but temporary organ that physiologically joins the mother and the developing fetus. This remarkable, shared structure is the centerpiece of the complex dance that takes place between the needs of the mother’s body and the demands of the growing fetus. The placenta’s role is to facilitate the constant exchange of nutrients and wastes, including gases, as well as hormones and key immune factors.

Image by TheVisualMD

Nurture & Protect

As the fetus grows, there is a strict separation of maternal and fetal blood supplies. This is the work of the placenta, which allows maternal and fetal capillaries to intertwine closely enough to allow the exchange of gas, nutrient, and messenger molecules, but keeps them separate enough to prevent the triggering of an immune response. The fetus would be seen as an unwelcome invader by the mom`s immune system. The placenta serves as a traffic cop, making sure that nutrients are delivered to the fetus and wastes removed, but doing its best to keep harmful substances out. Certain pathogens such as the measles virus, and poisons such as heavy metals, drugs, and alcohol do seep through to the fetus, and can impair normal growth and development. In many cases, the timing of the exposure plays a key role in the degree of impact.

Image by TheVisualMD

The Knot close up

Image by andrechinn

Percutaneous umbilical cord blood sampling

Fetus in utero, between fifth and sixth months.

Image by Henry Gray / Gray's Anatomy

Fetal Circulation

Fetal Circulation

Image by OpenStax College

Fetal Circulation

The fetal circulatory system includes three shunts to divert blood from undeveloped and partially functioning organs, as well as blood supply to and from the placenta.

Image by OpenStax College

Cordiocentesis Being Performed on Human Pregnancy with Placenta towards Front

TheVisualMD

3D Visualization of Fetus and Placenta

TheVisualMD

Nurture & Protect

TheVisualMD

The Knot close up

andrechinn

Percutaneous umbilical cord blood sampling

Henry Gray / Gray's Anatomy

Fetal Circulation

OpenStax College

Fetal Circulation

OpenStax College

Alpha-Fetoprotein (AFP) Screening

Alpha-Fetoprotein (AFP) Screening

Also called: AFP Maternal, Maternal Serum AFP, msAFP screen, AFB

An alpha-fetoprotein (AFP) test that measures the amount of AFP in your blood. AFP levels that are too high or too low during pregnancy may indicate a birth defect in the fetus.

Alpha-Fetoprotein (AFP) Screening

Also called: AFP Maternal, Maternal Serum AFP, msAFP screen, AFB

An alpha-fetoprotein (AFP) test that measures the amount of AFP in your blood. AFP levels that are too high or too low during pregnancy may indicate a birth defect in the fetus.

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Use the slider below to see how your results affect your health.
ng/mL
10
150
Your result is Normal.
AFP is a protein made by your fetus' liver. The protein passes through the placenta and into your blood.
Related conditions
An AFP test is a test that is mainly used to measure the level of alpha-fetoprotein (AFP) in the blood of a pregnant person. The test checks the baby's risk for having certain genetic problems and birth defects. An AFP test is usually done between 15 and 20 weeks of pregnancy.
AFP is a protein that a developing baby makes. Normally, some AFP passes from the baby into the pregnant person's blood. Certain conditions can make a baby's body release more or less AFP. During pregnancy, if your AFP blood levels are higher or lower than normal, it may be sign that:
- The baby has a high risk of having a genetic disorder, such as:
  A neural tube defect, which is a serious condition that causes abnormal development of a developing baby's brain and/or spine.
  Down syndrome, a genetic disorder that causes intellectual disabilities and other health problems.
- Your estimated due date is wrong. AFP levels normally rise and fall at set times during pregnancy, so an abnormal AFP may mean that your baby is due earlier or later than estimated. This is the most common reason for abnormal AFP levels.
- You're pregnant with more than one baby. Each baby makes AFP, so your AFP blood levels will be higher with two or more babies.
Other names: AFP Maternal; Maternal Serum AFP; msAFP screen
If you are pregnant, AFP test is routinely offered between the 15th and 20th week of pregnancy. Your provider may especially recommend the test if you:
- Have a family history of birth defects
- Are 35 years or older
- Have diabetes
- Have used medicines or drugs during pregnancy that could harm the baby
The most common cause for abnormal AFP test results during pregnancy is an error estimating your due date. But a result that isn't normal may also be a sign of possible problems:
- Lower than normal AFP levels may mean your baby has a genetic disorder such as Down syndrome, a genetic disorder that causes intellectual disabilities and health problems.
- Higher than normal AFP levels may mean your baby has an increased risk of having a neural tube defect, such as:
  Spina bifida, a condition in which the bones of the spine don't close around part of the spinal cord
  Anencephaly, a condition in which the brain does not develop properly
High AFP levels may also mean that you are having more than one baby. You may also get a false-positive result. That means that your AFP results aren't normal, but your baby is healthy.
If your AFP test results aren't normal, you will likely have more tests to help make a diagnosis.
AFP tests are often part of a group of prenatal tests called multiple marker or triple screen tests. These tests can help diagnose Down syndrome, trisomy 18 (Edwards syndrome), and other genetic disorders. A triple screen test includes tests for:
- Alpha-fetoprotein (AFP)
- Human chorionic gonadotropin (HCG), a hormone produced by the placenta
- Estriol, a form of estrogen made by the baby and the placenta
In some cases, a fourth test is included, called an inhibin A test, which helps diagnose Down syndrome.
If you have a high risk for having a baby with certain birth defects, your provider may also recommend a test called prenatal cell-free DNA (cfDNA) screening. This is blood test can be done as early as the 10th week of pregnancy. It can show if your baby has a higher chance of having Down syndrome or certain other genetic disorders.
1. Alpha-Fetoprotein (AFP) Test: MedlinePlus Medical Test [accessed on Feb 12, 2024]
2. Adigun OO, Bhimji SS. Alpha Fetoprotein (AFP, Maternal Serum Alpha Fetoprotein, MSAFP) [Updated 2017 Oct 14]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2018 Jan-. [accessed on Oct 03, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (10)

Newborn Screening: A Personal Story

Video by March of Dimes/YouTube

Your Newborn's Health Screening

Video by KK Women's and Children's Hospital/YouTube

Newborn Screening

Video by Mayo Clinic/YouTube

Maternal Serum Screening (MSS)

Video by Washington State Department of Health/YouTube

Anterior Total Hip Replacement- Minimally Invasive Hip Replacement

Video by alainelbazmd/YouTube

Total Hip Replacement

Video by Covenant Health/YouTube

3D Medical Animation: MicroHip, Total Hip Joint Replacement Surgery (THR) by Dr. Markus C. Michel

Video by Microhip/YouTube

Pancreatic Auto Islet Transplantation with Total Pancreatectomy

Video by Johns Hopkins Medicine/YouTube

Hip replacement

A total hip replacement is a surgical procedure whereby the diseased cartilage and bone of the hip joint is surgically replaced with artificial materials.

Image by BruceBlaus

Animation of a Total Heart Transplant

Video by UChicago Medicine/YouTube

3:25

Newborn Screening: A Personal Story

March of Dimes/YouTube

9:30

Your Newborn's Health Screening

KK Women's and Children's Hospital/YouTube

2:25

Newborn Screening

Mayo Clinic/YouTube

3:57

Maternal Serum Screening (MSS)

Washington State Department of Health/YouTube

4:51

Anterior Total Hip Replacement- Minimally Invasive Hip Replacement

alainelbazmd/YouTube

2:00

Total Hip Replacement

Covenant Health/YouTube

8:09

3D Medical Animation: MicroHip, Total Hip Joint Replacement Surgery (THR) by Dr. Markus C. Michel

Microhip/YouTube

1:57

Pancreatic Auto Islet Transplantation with Total Pancreatectomy

Johns Hopkins Medicine/YouTube

Hip replacement

BruceBlaus

1:04

Animation of a Total Heart Transplant

UChicago Medicine/YouTube

Nuchal Translucency Scan

Nuchal Translucency Scan

Also called: NT Scan, Nuchal Translucency Screening, NT Screening, Nuchal Translucency Ultrasound Screening

A nuchal translucency scan, or NT scan, is a specialized routine ultrasound performed at the end of the first trimester of pregnancy. The NT scan measures the clear (translucent) space in the tissue at the back of your baby's neck. It is used to help identify chromosomal abnormalities.

Nuchal Translucency Scan

Also called: NT Scan, Nuchal Translucency Screening, NT Screening, Nuchal Translucency Ultrasound Screening

A nuchal translucency scan, or NT scan, is a specialized routine ultrasound performed at the end of the first trimester of pregnancy. The NT scan measures the clear (translucent) space in the tissue at the back of your baby's neck. It is used to help identify chromosomal abnormalities.

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Use the slider below to see how your results affect your health.
mm
2.8
Your result is Normal.
Your baby's NT scan results are normal, which means that this result alone is not expected to negatively impact the fetal health.
Related conditions
The objective of this test along with the other first-trimester screening tests is to identify a pregnant woman’s risk of having a baby with chromosomal abnormalities such as Down syndrome, Edwards syndrome, or Patau syndrome.
Your doctor may recommend this test if:
- You have a history of fetal abnormalities
- Familiar genetic conditions
- To assess the risk of chromosome abnormalities in the fetus
1. First Trimester Screening [accessed on Nov 14, 2018]
2. 1STT - Clinical: First Trimester Maternal Screen [accessed on Nov 14, 2018]
3. Nuchal translucency | Radiology Reference Article | Radiopaedia.org [accessed on Nov 14, 2018]
4. NT Scan: What You’ll Find Out [accessed on Nov 14, 2018]
5. Nuchal Translucency Ultrasound Screening Test In 1st Trimester [accessed on Nov 14, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (7)

Medical ultrasound image. Provided as-is. Please feel free to categorise, add description, crop.

Medical ultrasound image. Provided as-is. Please feel free to categorise, add description, crop.

Image by Nevit Dilmen (talk)

Prenatal Testing: Nuchal Test (Pregnancy Health Guru)

Video by Healthguru/YouTube

Fetal Medicine Foundation - Nuchal translucency

Video by FMFoundation/YouTube

How to perform Nuchal Translucency Scan

Video by ultrasoundlink/YouTube

Nuchal Translucency Patient Information Video

Video by Queensland X-Ray/YouTube

CRL Crown rump length 12 weeks ecografia Dr. Wolfgang Moroder

Ultrasound image of the foetus at 12 weeks of pregnancy in a sagittal scan. Measurements of fetal Crown Rump Lenght (CRL).

Image by This Photo was taken by Wolfgang Moroder. Feel free to use my photos, but please mention me as the author and send me a message. This image is not public domain. Please respect the copyright protection. It may only be used according to the rules mentioned here. This specifically excludes use in social media, if applicable terms of the licenses listed here not appropriate. Please do not upload an updated image here without consultation with the Author. The author would like to make corrections only at his own source. This ensures that the changes are preserved.Please if you think that any changes should be required, please inform the author.Otherwise you can upload a new image with a new name. Please use one of the templates derivative or extract. /Wikimedia

Coronal scan of the fetal esophagus Ecografia a ultrasuoni Dr. Wolfgang Moroder

Ultrasound image of the fetal esophagus at 19 weeks of pregnancy.

Image by This Photo was taken by Wolfgang Moroder. Feel free to use my photos, but please mention me as the author and send me a message. This image is not public domain. Please respect the copyright protection. It may only be used according to the rules mentioned here. This specifically excludes use in social media, if applicable terms of the licenses listed here not appropriate. Please do not upload an updated image here without consultation with the Author. The author would like to make corrections only at his own source. This ensures that the changes are preserved.Please if you think that any changes should be required, please inform the author.Otherwise you can upload a new image with a new name. Please use one of the templates derivative or extract. /Wikimedia

Medical ultrasound image. Provided as-is. Please feel free to categorise, add description, crop.

Nevit Dilmen (talk)

2:42

Prenatal Testing: Nuchal Test (Pregnancy Health Guru)

Healthguru/YouTube

2:01

Fetal Medicine Foundation - Nuchal translucency

FMFoundation/YouTube

2:24

How to perform Nuchal Translucency Scan

ultrasoundlink/YouTube

7:17

Nuchal Translucency Patient Information Video

Queensland X-Ray/YouTube

CRL Crown rump length 12 weeks ecografia Dr. Wolfgang Moroder

This Photo was taken by Wolfgang Moroder. Feel free to use my photos, but please mention me as the author and send me a message. This image is not public domain. Please respect the copyright protection. It may only be used according to the rules mentioned here. This specifically excludes use in social media, if applicable terms of the licenses listed here not appropriate. Please do not upload an updated image here without consultation with the Author. The author would like to make corrections only at his own source. This ensures that the changes are preserved.Please if you think that any changes should be required, please inform the author.Otherwise you can upload a new image with a new name. Please use one of the templates derivative or extract. /Wikimedia

Coronal scan of the fetal esophagus Ecografia a ultrasuoni Dr. Wolfgang Moroder

This Photo was taken by Wolfgang Moroder. Feel free to use my photos, but please mention me as the author and send me a message. This image is not public domain. Please respect the copyright protection. It may only be used according to the rules mentioned here. This specifically excludes use in social media, if applicable terms of the licenses listed here not appropriate. Please do not upload an updated image here without consultation with the Author. The author would like to make corrections only at his own source. This ensures that the changes are preserved.Please if you think that any changes should be required, please inform the author.Otherwise you can upload a new image with a new name. Please use one of the templates derivative or extract. /Wikimedia

Pregnancy-Associated Plasma Protein-A Test

Pregnancy-Associated Plasma Protein-A Test

Also called: PAPP-A

The pregnancy-associated plasma protein-A (PAPP-A) is a protein that is normally produced by the placenta during pregnancy. This test measures the levels of this protein, which can be used to help screen for pregnancy complications and chromosomal abnormalities in the fetus.

Pregnancy-Associated Plasma Protein-A Test

Also called: PAPP-A

The pregnancy-associated plasma protein-A (PAPP-A) is a protein that is normally produced by the placenta during pregnancy. This test measures the levels of this protein, which can be used to help screen for pregnancy complications and chromosomal abnormalities in the fetus.

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Use the slider below to see how your results affect your health.
0.5
Your result is Normal.
Your PAPP-A levels are normal, which means that this result alone is not expected to negatively impact a pregnancy or fetal health.
Related conditions
The objective of this test along with the other first-trimester screening tests is to identify a pregnant woman’s risk of having a baby with chromosomal abnormalities such as Down syndrome and Edwards syndrome.
The PAPP-A tets can also be used to assess the risk of premature birth, stillbirth, and other pregnancy complications.
Your doctor may recommend this test if:
- You have a history of fetal abnormalities
- Familiar genetic conditions
- To assess the risk of chromosome abnormalities in the fetus
1. Pregnancy-associated plasma protein-A - Embryology [accessed on Nov 14, 2018]
2. Pregnancy-associated plasma protein A (PAPP-A) and preeclampsia. - PubMed - NCBI [accessed on Nov 14, 2018]
3. First Trimester Screening [accessed on Nov 14, 2018]
4. 1STT - Clinical: First Trimester Maternal Screen [accessed on Nov 14, 2018]
5. Variation of Papp-A Level in the First Trimester of Pregnancy and Its Clinical Outcome [accessed on Nov 14, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (34)

Embryo 36 Day Old (Week 7 for Gestational Age) Brain and Cardiovascular System

Computer Generated Image from Micro-MRI, actual size of embryo = 6.0 mm. This image offers a right-sided perspective of the internal organ development of an embryo at the beginning of six weeks. The age is calculated from the day of fertilization. Of the prominent organs displayed are those of the cardiovascular system which continue to develop at a rapid rate during this phase. The heart (seen here as somewhat shadowed red rounded structure in the medial aspect of the embryo) is the first functional organ to develop in the human embryo. The heart begins its existence as two simple tubes that quickly fuse to form a single chamber or heart tube that is busily pumping blood by the 23nd day. At around the 25th day, it exhibits four slightly bulged areas that represent the earliest heart chambers called sinus venosus, atrium, ventricle, bulbous cordis. During the next three weeks of development, the heart tube undergoes dramatic contortions so as to change its structure to become a four-chambered organ capable of acting as a double pump. This image depicts the heart at the 36th day of development. The tubes have undergone the aforementioned changes and the heart is divided into its four definitive chambers. They will assume their adult positions in just one more month. By the fourth week of development, the heart is pumping blood through the rudimentary vascular system. In the eye region (as represented by a red dot surrounded by a green ring) the lens is almost completely closed and are starting to undergo retinal pigmentation. The brain is also undergoing rapid differentiation as the irregularly shaped vesicles continue to form. The prominent uppermost bump in this image represents the future cerebellum. Continual development in the brain will bring about three major components, the forebrain, midbrain, and hindbrain.

Image by TheVisualMD

Embryo 36 Day Old (Week 7 for Gestational Age) External and Internal Anatomy

Computer Generated Image from Micro-MRI, actual size of embryo = 6.0 mm. These images offer several perspectives of the internal and external development of an embryo at the beginning of six weeks. The age is calculated from the day of fertilization. The upper left image depicts a left anterolateral view of the external anatomy of the embryo. The liver region is semi-transparent so as to display the vasculature. The upper right image reveals the a right anterior view of the internal structures of the same embryo. The lower left image illustrates limb development as seen from a superior right view. The lower right image reveals the inner structural development from the same perpective. The cardiovascular system continues to develop at a rapid rate during this phase. The heart is the first functional organ to develop in the human embryo. It begins its existence as two simple tubes that quickly fuse to form a single chamber or heart tube that is busily pumping blood by the 23nd day. At around the 25th day, it exhibits four slightly bulged areas that represent the earliest heart chambers called sinus venosus, atrium, ventricle, bulbous cordis. During the next three weeks of development, the heart tube undergoes dramatic contortions so as to change its structure to become a four-chambered organ capable of acting as a double pump. This upper and lower right hand images depict the heart at the 36th day of development. The tubes have undergone the aforementioned changes and the heart is divided into its four definitive chambers. They will assume their adult positions in just one more month. These two images also offer a clear depiction of the vessels that convey blood to and from the heart and brain. By the fourth week of development, the heart is pumping blood through the rudimentary vascular system. The blood largely bypasses the liver (as seen in the upper left, upper right and lower right images). The umbilical vessels (posterior and anterior to the heart and liver) convey blood between the fetal circulation and the placenta where gas and nutrient exchanges occur with the mothers blood. Once the fetal circulatory system is formed, few vascular changes occur until birth and the umbilical vessels close. In the eye region (as represented by a red dot surrounded by a green ring the two upper and right lower images) the lens is almost completely closed and are starting to undergo retinal pigmentation. The growing nerve endings around the spinal cord are indicated in white in the two right hand images. The brain is also undergoing rapid differentiation as the irregularly shaped vesicles continue to form. The prominent uppermost bump in these images represent the future cerebellum. Continual development in the brain will bring about three major components, the forebrain, midbrain, and hindbrain. During this phase of development the limbs buds become visible as outpocketings from the body walls (as seen in the lower left-hand image). Six week old embryos, the distal portions of the limb buds become flattened to form the handplates and footplates. Fingers and toes will develop when a process called cell death separates the these structures into five distinct parts.

Image by TheVisualMD

Embryo 44 Day Old (Week 6) Circulatory System

Computer Generated Image from Micro-MRI, actual size of embryo = 13.0 mm - This image presents a left-sided view of the embryo during the seventh week of development. The age is calculated from the day of fertilization. The primary focus is on the circulatory system; the great number of blood vessels and veins throughout the embryo's body. The heart is indicated in bright red and the large structure underneath in deep violet red is the liver. The left lung is marked in orange. The spinal region is indicated in white. The umbilical cord, a transport mechanism for nutrients and wastes between the embryo and mother is visible on the right side of the embyro

Image by TheVisualMD

Human Embryo 18 Day Old (Week 4 for Gestational Age) with Primitive Streak

This image presents a side-view of an embryo during its third week of development. The age is calculated from the day of fertilization. The embryo is attached to the uterine wall and attains a pear-shaped structure. The white line seen on the embryo is the primitive streak, which establishes the longitudinal axis of the embryo and signals the development of the right and left sides of the body. The primitive streak also indicates where the division of the brain will occur.

Image by TheVisualMD

Embryo 56 Day Old (Week 10 Gestational Age, Week 8 Fetal Age) Visible Lung and Liver

Computer Generated Image from Micro-MRI, actual size of embryo = 30 mm - This image presents a left-sided view of the embryo undergoing its eighth week of development. The age is calculated from the day of fertilization. At this point of development, all body parts have been differentiated and all body systems are in place. The right eye is indicated as the pink circle in the facial region. The arms and legs have elongated, and distinctions of fingers and toes can be observed. The heart is indicated in red and the lungs are indicated in white. The liver is the large purplish-red organ below. The pink tube-like protrusion from the embryo is the umbilical cord, which serves as a mechanism of gas exchange, nutrient delivery and waste removal.

Image by TheVisualMD

Embryo 51 Day Old (Week 9 Gestational Age, Week 7 Fetal Age) with Translucent Skin

Computer Generated Image from Micro-MRI, actual size of embryo = 18.0 mm - This image provides a left-sided view of the embryo undergoing its eighth week of development. The age is calculated from the day of fertilization. The image has been manipulated so that the skin appears translucent so that the internal organs can be observed. The embryo still maintains a semblance of a curvature with the head bent downwards, but due to the strengthening neck muscles, the curve has decreased. The brain is highlighted orange. The large red structure in the trunk of the embryo is the liver. The red, tube-like structure protruding outwards from the embryo is the umbilical cord, a which serves as a mechanism for gas exchange, nutrient delivery and waste removal. Outlined in yellow are the arms and legs which have elongated. The hand plates have undergone distinction earlier than foot plates.

Image by TheVisualMD

Somites (developing spinal cord, neural tube), Embryo, with Prominent Yolk Sac

Contained entirely within the nurturing space of the womb, the developing embryo cannot eat or breathe, and therefore must obtain all nutrients from other sources. For the first nine weeks, the early embryo depends on the yolk sac of the embryo for nourishment. Inside the yolk sac, tiny structures called 'blood islands' form. These will become the first blood and the first blood vessels. As pregnancy continues, these important external structures develop into the embryo's link to the mother's system - the umbilical cord and the supporting network known as the placenta. Until birth, the developing embryo is completely dependent on the mother for nutrients and waste disposal through the umbilical cord and the placenta.

Image by TheVisualMD

This browser does not support the video element.

20 Week Old Fetus and Placenta

Lateral view of fetus, approximately 20 weeks within the placenta. Womb environment is nondescript and rendered in dark red and black. Camera zooms in. Skin appears translucent showing underlying structures. The shape of the brain is closer to its final one but is still smooth and has no definition yet. Its development is ongoing years after birth.

Video by TheVisualMD

Blastocyst Implanted in the Uterine Wall with coagulation plug

Computer - This image depicts the blastocyst implanted to the uterine wall. The structure of the blastocyst consists of inner cells, called embryoblasts, and of outer cells, called trophoblasts. Early implantation occurs around the sixth day after fertilization. Trophoblasts penetrate into the uterine epithelium wall and by the eleventh and twelfth day, the blastocyst is embedded in the endometrium, which lines the inside wall.

Image by TheVisualMD

Chromosome Arrangement for Blastomere Formation

Computer Generated Image from Micro-MRI, actual size of zygote = 0.1 mm - This image illustrates the alignment and arrangement of chromosomes, highlighted in bright glowing white. A zygote is made up of a total of 46 chromosomes; 23 which are inherited from the mother and 23 from the father. The spindle fibers (indicated in orange) pull apart the chromosomes from the middle during cell division.

Image by TheVisualMD

Embryo 6 Week Old Skeletal System

3D visualization reconstructed from scanned human data of the developing skeletal system of a six week old embryo. During this phase of development, the foreshadowing cartilaginous models of bone begin to ossify and terminal portions of the limb buds become flattened to form the hand plates and footplates, the future hands and feet. Growing outward from the middle of the shaft, the long bones that give the body its adult contours continue to grow until the age of 17 to 21.

Image by TheVisualMD

Circulatory System of a Human Embryo

Computer Generated Image from Micro-MRI of the circulatory system of an embryo. The image has been manipulated so the skin is transparent so as to reveal the circulatory system. One of the first systems to develop in the embryo, the heart can be seen near the center in the image, highlighted in bright red. Blood vessels extend from the heart, carrying blood to supply oxygen and nutrients to other parts of the body. The two gray orb-like structures in the head region indicate the developing eyes.

Image by TheVisualMD

Cardiovascular System of 44 Day Old Embryo

3D visualization based on scanned human data of a 44-day-old embryo. Focus is on the cardiovascular system. Before birth, the cardiovascular system has no use for the lungs. Gases are exchanged via the mother, and blood returning from the body to the right atrium is shunted either to the left atrium through a temporary opening called the foremen ovale, an oval-shaped window, or the thicker-walled right ventricle.

Image by TheVisualMD

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7 week old embryo

Slow zoom out from an extreme close up of the face and than back to a close up of a face of a Carnegie19 stage, about 7 weeks old embryo. Well developed eyes, nasal openings and separated fingers are already present.

Video by TheVisualMD

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Embryo Inside Womb Carnegie Stage 16

Room full of women doing yoga. Slow zoom into one of the woman's torso to reveal the womb and an embryo at Carnegie stage 16, about 40 days developing. The Micro Magnetic Resonance Imaging based visualization reveals upper limb buds that are paddle-shaped and lower limb buds that are flipper-like. The heart is the prominent pink structure at the center of the embryo. Right above the heart is the first and second pharyngeal arches which have overgrown to make the third and forth arches indistinct.

Video by TheVisualMD

This browser does not support the video element.

Embryo at Carnegie Stage 18

Creative take showing a water bottle transitioning into an embryo. When the water bottle is removed from the table, it is replaced with an embryo at Carnegie stage 18, about 44 days. As the camera zooms on the embryo the background fades to black. The eye and external ear auricle are distinct. The heart is represented by the red structure in the centre with the chambers beginning to take shape. The hand and foot plates are more also more distinct.

Video by TheVisualMD

This browser does not support the video element.

Embryo at Carnegie Stage 20

Camera zooms into a computer monitor with an image of an embryo at Carnegie stage 20, about 51 does on it. The image of the embryo transitions to a 3-D SEM-looking embryo. The camera rotates around the embryo to give a 360 view of all sides. At this stage the embryo's fingers are separated and the toes are beginning to separate. the nose is stubby and the eye is pigmented.

Video by TheVisualMD

This browser does not support the video element.

Embryo at Carnegie Stage 14

Environment is within the womb with an embryo at Carnegie stage 14, about 32-day developing. The embryo is encompassed within the amniotic sac and situated beside the fetus is the yolk-sac. Different camera angles rotate around the embryo. Through the amniotic sac, the fetus' heart is represented by the red structure in the centre. The 4 chambers or the heart have developed. The arm and feet plates are visible.

Video by TheVisualMD

Embryo 44 Day Old

Embryo 44 Day Old: A view inside the embryo at 42 days shows that the neural buds along the spinal cord are clearly developed. These tiny buds now are merely one-tenth the width of a human hair and will grow to more than half an inch in some cases. It is noticeable that the hands of the embryo are more defined, rays show up between fingers. The stomach and liver are also visible. At this time, the embryo develops a sense of smell.

Image by TheVisualMD

Brain Development of Human Embryo

The first period of development is call the embryonic period, which begins with fertilization and ends eight weeks later. During this period, the embryo undergoes extraordinary changes in a relatively short time. From Day 28 to Day 50 it grows considerably in size--three to four times the original mass. Early signs are the expansion of spaces within the brain called ventricles, followed by the creation of new nervous tissue. Because of the brain's complexity, development takes place from head to toe.

Image by TheVisualMD

6 Week Old Embryo with Undifferentiated Gonad

Three-dimensional visualization reconstructed from scanned human data. Lateral view of an embryo at 6 weeks, with internal undifferentiated gonad development visible. Structures shown include the eye, 1st, 2nd, and 3rd pharyngeal arches, upper and lower limb buds, and tail, as well as the umbilical cord connecting the embryo to the surrounding chorionic sac. At 6 weeks of development, male and female fetuses look identical both internally and externally. At this stage internal gonad development consists of two undifferentiated ducts: the Mullerian ducts, and the Wolffian ducts. External genital development consists of an indifferent penis, which will either form into a penis and scrotum or clitoris and labia. Differentiation of the gonads begins after the 6th week, while external genital differentiation starts a little later, after the 7th week.

Image by TheVisualMD

Brain of Embryo Cross Section

Early signs are the expansion of spaces within the brain called ventricles, followed by the creation of new nervous tissue. Because of the brain's complexity, development takes place from head to toe.

Image by TheVisualMD

Embryo 56 Day Old Heart and Blood Vessel

Computer Generated Image from Micro-MRI, actual size of embryo = 30.0 mm - This image provides a right-sided perspective of an embryo during its eighth week of development. The age is calculated from the day of fertilization. The skin has been made translucent so that internal organs can be observed. The brain is highlighted in yellow-orange. Red blood vessels branching from the functionally complete, four-chambered heart, indicated in red, extend towards the brain. In the facial region, the red circle indicates the eye. The liver, shown in pale yellow, is situated below the heart.

Image by TheVisualMD

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Cleavage in Developing Embryo

Being shown is the embryonic cleavage or rapid division of a zygote to form a multicellular morula. A morula is an embryo at an early stage of embryonic development, consisting of approximately 12-32 cells (blastomeres) in a sold ball contained within the zona pellucida.

Video by TheVisualMD

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Embryo at Carnegie Stage 19 Cardiovascular System

Lateral view of a woman doing a sit up on the floor. Camera zooms into woman's pelvic area to reveal an embryo at Carnegie stage 19, about 48 days. As the embryo rotates, all of its structures dissolve away to only leave the cardiovascular system. By this stage, the embryo's cardiovascular system is a vast and intricate system needed to fuel its growth.

Video by TheVisualMD

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Embryo at Carnegie Stage 14

Environment is within the womb of an embryo at Carnegie stage 14, about 32 days, developing. The embryo is encompassed within the amniotic sac and situated beside the fetus is the yolk-sac. Different camera angles rotate around the fetus. Through the amniotic, the fetus' heart is represented by the red structure in the centre. The 4 chambers heart can be see beating at the camera rotates from behind. The arm and feet plates are visible.

Video by TheVisualMD

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Embryo at Carnegie Stage 16

Camera view from the underside of an embryo at Carnegie stage 16, about 40 days. View is of the tail and the foot plates.

Video by TheVisualMD

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Embryo at Carnegie Stage 18

Lateral view of a woman doing a sit up on the floor. Camera zooms into woman's pelvic area to reveal an embryo at Carnegie stage 18, about 44 days. As the embryo rotates, all of its structures dissolve away to only leave the cardiovascular system. By this stage, the embryo's cardiovascular system is a vast and intricate system needed to fuel its growth.

Video by TheVisualMD

Embryos at 44 Days (8 for Gestational Age) with Circulatory System

Through rotation and gradual imaging techniques, these human fetal visualizations show the vast amount of blood circulation needed to fuel the extraordinary growth of a 44-day-old fetus. The images at the bottom show only the circulatory system. The blood transports so many substances and does so many jobs it's hard to name them. Chiefly, though, it moves oxygen and food to all parts of the body while taking away waste chemicals. This process necessarily begins in the first week, and by twenty days watertight tubes branch throughout the embryo. The system grows \"ahead\" of the baby, proliferating in all directions like highways on a busy map, stimulating new areas of development. (Understanding how blood vessels are laid down in relation to cellular reproduction has provided some of the most hopeful recent insights against cancer.) After birth this network also serves to provide the baby with central heat, distributing warmth evenly through the body, from busy parts like the heart to cooler areas like still muscles. Please see our Infant Nutrition Health Center.

Image by TheVisualMD

Implantation (human embryo)

Illustration of Implantation of a human embryo

Image by OpenStax College

9-Week Human Embryo from Ectopic Pregnancy

The size (2cm in length) and anatomic features suggest development equivalent to a nine-week pregnancy (or seven weeks post ovulation). In obstetrics, pregnancy is dated from the first day of the last menstrual period, which is about two weeks prior to the ovulation that resulted in the pregnancy

Image by Ed Uthman

Tubal Pregnancy with embryo

This photo of an opened oviduct with an ectopic pregnancy features a spectacularly well preserved 10-millimeter embryo. It is uncommon to see any embryo at all in an ectopic, and for one to be this well preserved (and undisturbed by the prosector's knife) is quite unusual. Even an embryo this tiny shows very distinct anatomic features, including tail, limb buds, heart (which actually protrudes from the chest), eye cups, cornea/lens, brain, and prominent segmentation into somites. The gestational sac is surrounded by myriad chorionic villi resembling elongated party balloons. This embryo is about five weeks old (or seven weeks in the biologically misleading but eminently practical dating system used in obstetrics).

Image by Ed Uthman, MD

Embryo and Fetus Development

Embryo and Fetus Development, placenta and amniotic sac

Image by TheVisualMD

Brain Development of 29 Day Old Embryo

Brain Development of 33 Day Old Embryo

Brain Development of 52 Day Old Embryo

Brain Development of 59 Day Old Human Embryo

Brain Development of 70 Day Old Human Embryo

Brain Development of 20 Week Old Human Fetus

Brain Development of 6 Month Old Human Fetus

Brain Development of Adult

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Brain development from embryo to adult

The cerebral cortex--the most prominent feature when we think of a human brain--derives from the forebrain. This region is responsible for reason, planning, emotion, and problem solving, and by the end of the second trimester it is the primary visible structure. If you examine the surface of the cerebral cortex, you'll see convoluted folds; the raised surfaces are known as gyri and the \"trenches\" are sulci. These irregular folds provide greater surface area for cell-to-cell communication and interaction, increasing the brain's complexity.

Interactive by TheVisualMD

Embryo 36 Day Old (Week 7 for Gestational Age) Brain and Cardiovascular System

TheVisualMD

Embryo 36 Day Old (Week 7 for Gestational Age) External and Internal Anatomy

TheVisualMD

Embryo 44 Day Old (Week 6) Circulatory System

TheVisualMD

Human Embryo 18 Day Old (Week 4 for Gestational Age) with Primitive Streak

TheVisualMD

Embryo 56 Day Old (Week 10 Gestational Age, Week 8 Fetal Age) Visible Lung and Liver

TheVisualMD

Embryo 51 Day Old (Week 9 Gestational Age, Week 7 Fetal Age) with Translucent Skin

TheVisualMD

Somites (developing spinal cord, neural tube), Embryo, with Prominent Yolk Sac

TheVisualMD

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20 Week Old Fetus and Placenta

TheVisualMD

Blastocyst Implanted in the Uterine Wall with coagulation plug

TheVisualMD

Chromosome Arrangement for Blastomere Formation

TheVisualMD

Embryo 6 Week Old Skeletal System

TheVisualMD

Circulatory System of a Human Embryo

TheVisualMD

Cardiovascular System of 44 Day Old Embryo

TheVisualMD

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7 week old embryo

TheVisualMD

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Embryo Inside Womb Carnegie Stage 16

TheVisualMD

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Embryo at Carnegie Stage 18

TheVisualMD

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Embryo at Carnegie Stage 20

TheVisualMD

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Embryo at Carnegie Stage 14

TheVisualMD

Embryo 44 Day Old

TheVisualMD

Brain Development of Human Embryo

TheVisualMD

6 Week Old Embryo with Undifferentiated Gonad

TheVisualMD

Brain of Embryo Cross Section

TheVisualMD

Embryo 56 Day Old Heart and Blood Vessel

TheVisualMD

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Cleavage in Developing Embryo

TheVisualMD

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Embryo at Carnegie Stage 19 Cardiovascular System

TheVisualMD

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Embryo at Carnegie Stage 14

TheVisualMD

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Embryo at Carnegie Stage 16

TheVisualMD

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Embryo at Carnegie Stage 18

TheVisualMD

Embryos at 44 Days (8 for Gestational Age) with Circulatory System

TheVisualMD

Implantation (human embryo)

OpenStax College

9-Week Human Embryo from Ectopic Pregnancy

Ed Uthman

Tubal Pregnancy with embryo

Ed Uthman, MD

Embryo and Fetus Development

TheVisualMD

Brain development from embryo to adult

TheVisualMD

Maternal Serum Multiple Marker Screen

Maternal Serum Multiple Marker Screen

Also called: Multiple Marker Screening, MMS, Multiple Marker Test, Quad Screen, Triple Screen

A multiple marker test is a blood test for pregnant women. It is used to screen for certain types of birth defects (such as neural tube defects, Down syndrome, and trisomy 18 syndrome).

Maternal Serum Multiple Marker Screen

Also called: Multiple Marker Screening, MMS, Multiple Marker Test, Quad Screen, Triple Screen

A multiple marker test is a blood test for pregnant women. It is used to screen for certain types of birth defects (such as neural tube defects, Down syndrome, and trisomy 18 syndrome).

This blood test provides information about your developing baby. The maternal serum multiple marker test measures at least three markers found in the mother’s blood: alpha-fetoprotein (AFP), human chorionic gonadotropin (hCG) and unconjugated estriol. These substances are made by the developing baby and the placenta. The levels of these markers can be analyzed through a simple blood sample. Certain birth defects can sometimes be detected when the levels of these markers are different than expected. Some laboratories will measure additional chemicals to achieve a higher detection rate for these conditions.
Maternal serum multiple marker test is sometimes called triple test, AFP plus, enhanced AFP, AFP3 test or triple screen prenatal risk profile (PRP). When the blood is being tested for four markers, the test may be called the quad screen or AFP4, etc.
The test is a simple blood test on the mother’s blood and poses no threat to the mother or to her baby.
The test is available to any pregnant woman between 15 and 21 weeks of pregnancy (counting from the first day of the last menstrual period). Your provider may especially recommend the test if you:
- Have a family history of birth defects
- Have diabetes
- Have used medicines or drugs during pregnancy that could harm the baby
If you are 35 or older, your healthcare provider will probably suggest you have an amniocentesis or CVS test instead of or in addition to the maternal serum screening.
Maternal serum multiple marker screening is not a diagnostic test, but a screening test. A positive or abnormal result indicates the need for additional testing, such as ultrasound or amniocentesis. An abnormal test does not necessarily mean there is a definite health problem with the pregnancy. Genetic counseling to discuss this test is recommended.
Elevations in AFP may –
- identify a high percentage of neural tube defects including anencephaly;
- detect a miscalculated due date;
- identify twins or a pregnancy with multiples;
- detect an abnormal opening in the abdominal wall;
- predict risk for preterm delivery;
- determine a low birth weight; or
- represent a normal variation.
If the result is negative or normal, it means that it is unlikely that your baby has a birth defect. However, a normal result doesn't guarantee that you will have a normal pregnancy or baby.
1. Alpha-Fetoprotein (AFP) Test: MedlinePlus Medical Test [accessed on Feb 12, 2024]
2. Determining Your Baby's Risk of Birth Defects. Illinois Department of Public Health. [accessed on Feb 12, 2024]
3. Prenatal Test: Multiple Marker Test (for Parents) - Nemours KidsHealth. Mar 7, 2022 [accessed on Feb 12, 2024]
4. Second Trimester Maternal Serum Screening [accessed on Nov 14, 2018]
5. Second Trimester Maternal Serum Screening Programmes [accessed on Nov 14, 2018]
6. Quad Screen Test - American Pregnancy Association [accessed on Nov 14, 2018]
7. Quad screen - Mayo Clinic [accessed on Nov 14, 2018]
8. Quadruple screen test: MedlinePlus Medical Encyclopedia [accessed on Nov 14, 2018]

Additional Materials (4)

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Prenatal Diagnostic Testing

If a pregnant woman has an abnormal genetic screening test result, a doctor may suggest a prenatal diagnostic test be done to determine with more certainly whether or not a fetus has a particular disorder. There are two main diagnostic testing procedures, chorionic villus sampling (CVS) and amniocentesis. Both of these tests involve collecting a sample from inside the womb, which is then examined to detect diseases such as Down Syndrome, Edwards Syndrome, neural tube defects, cystic fibrosis, fragile-x, and spinal muscular atrophy. Prenatal diagnostic tests provide valuable information on the health of the fetus and can help alleviate the stress of expectant parents.

Video by TheVisualMD

Genes and Genetic Defects

Genetic testing isn't new. In the 1960s, doctors were able to test newborn babies for certain rare single-gene disorders, such as phenylketonuria (PKU), a rare metabolic disease that causes mental retardation. (PKU can be prevented with a special diet if it's detected early, which was why it was critical to test newborns.)

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Mapping Your Future: Screening for Disease Risk

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Amniocentesis

Amniocentesis is a prenatal test that gathers information about a fetus` health from a sample of amniotic fluid. Amniotic fluid is the fluid that surrounds the fetus in the uterus. It contains cells from the fetus that naturally slough off during development. If a woman is at high risk for a genetic disease, a doctor may recommend an "amnio" to determine whether a fetus has certain genetic disorders, such as cystic fibrosis, among other diseases.

Image by TheVisualMD

4:34

Prenatal Diagnostic Testing

TheVisualMD

Genes and Genetic Defects

TheVisualMD

Mapping Your Future: Screening for Disease Risk

TheVisualMD

Amniocentesis

TheVisualMD

E3

Unconjugated Estriol Test

Also called: uE3

Estriol (E3) is a hormone that belongs to a group of steroids called estrogens. E3 is mainly produced by the placenta in pregnant women, and its levels can be unbalanced when abnormalities in the fetus are present. Unconjugated Estriol (UE3) helps screen for maternal-fetal diseases.

Unconjugated Estriol Test

Also called: uE3

Estriol (E3) is a hormone that belongs to a group of steroids called estrogens. E3 is mainly produced by the placenta in pregnant women, and its levels can be unbalanced when abnormalities in the fetus are present. Unconjugated Estriol (UE3) helps screen for maternal-fetal diseases.

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Use the slider below to see how your results affect your health.
ng/mL
4.2
14.9
Your result is Normal.
Your UE3 results are normal. However, reference ranges can vary depending on the gestational age and the method used for testing by the laboratory. Furthermore, it lacks value as a stand-alone result and must be correlated with the other two or three markers (AFP, hCG, and Inhibin A) of a Triple or Quad screen.
Related conditions
1. Estriol Unconjugated Test - Test Results, Normal Range, Cost And More [accessed on Nov 14, 2018]
2. UE3 - Clinical: Estriol, Unconjugated, Serum [accessed on Nov 14, 2018]
3. Low Maternal Serum Unconjugated Estriol During Prenatal Screening as an Indication of Placental Steroid Sulfatase Deficiency and X-Linked Ichthyosis | American Journal of Clinical Pathology | Oxford Academic [accessed on Nov 14, 2018]
4. Second Trimester Maternal Serum Screening [accessed on Nov 14, 2018]
5. Indication of prenatal diagnosis in pregnancies complicated by undetectable second-trimester maternal serum estriol levels [accessed on Nov 14, 2018]
6. DEFINE_ME [accessed on Nov 14, 2018]
7. Second Trimester Maternal Serum Screening Programmes [accessed on Nov 14, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (7)

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Prenatal Genetic Screening

Prenatal genetic screening tests can play an important role in the development of a healthy fetus. Ideally, parents will undergo a carrier screening before conception. This allows a couple to find out the chances that they will have a child with a certain genetic diseases. Carrier screenings help determine inherited risks such as cystic fibrosis, fragile-x, and spinal muscular atrophy.

Video by TheVisualMD

Estradiol, Estrone, And Estriol, How Do They Differ?

Video by EmpowHER/YouTube

Estriol (E3)

A hydroxylated metabolite of ESTRADIOL or ESTRONE that has a hydroxyl group at C3, 16-alpha, and 17-beta position. Estriol is a major urinary estrogen. During PREGNANCY, a large amount of estriol is produced by the PLACENTA. Isomers with inversion of the hydroxyl group or groups are called epiestriol.

Estrogen Molecule

Medical visualization of an estrogen molecule. Estrogen, as with all of the other main sex hormones, is a steroid hormone derived from cholesterol. Along with progesterone, estrogen is one of the most important female sex hormones. Estrogen production is primarily located in the developing follicles in the ovaries, called the corpus luteum, and the placenta. Another main site of estrogen production is fatty tissue, making weight a contributing factor to the timing of puberty. Smaller amounts are produced by other tissues such as the the breasts, liver, and adrenal glands. Estrogen is responsible for female secondary sexual characteristics such as breast growth, as well as aspects of menstrual cycle regulation, such as the thickening of the endometrium. As with all sex hormones, the effects of estrogen aren't limited to reproduction; estrogen affects bone growth and is involved with learning and memory. Both men and women have all of the main sex hormones, but in very different amounts. Women have much more estrogen than men, but some research suggests that estrogen may be essential for maintenance of the male libido, or sex drive.

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Estrogens: Pregnancy

Estrone (E1) and estradiol (E2) are the two main estrogens in non-pregnant females, while estriol (E3), produced by the woman's placenta and liver of the fetus, is the main hormone of pregnancy.

Image by TheVisualMD

Embryo and Fetus Development, placenta and amniotic sac.

Embryo and Fetus Development, placenta and amniotic sac. Unconjugated estriol (uE3), a hormone produced by the placenta and the baby

Image by TheVisualMD

Estrogen Molecules

Estrogens are a group of steroids that function as the main female sex hormones. More than 20 forms exist, but the most common forms of estrogens tested are estrone (E1), estradiol (E2), and estriol (E3). Total estrogens are most commonly measured in blood or urine. E1 and E2 are the two main estrogens in non-pregnant females, while E3 is the main pregnancy hormone (Progesterone is another major female hormone that also plays key roles in pregnancy and menstruation). High levels of estrogen may accompany early onset of puberty, tumors of the ovary, hyperthyroidism and cirrhosis (and in males, breast enlargement or tumors of the testes). Low levels of estrogen may be due to hypopituitarism, genetic disorders, pregnancy complications, post menopause or extreme exercise.

Image by TheVisualMD

4:15

Prenatal Genetic Screening

TheVisualMD

3:34

Estradiol, Estrone, And Estriol, How Do They Differ?

EmpowHER/YouTube

Estriol (E3)

Estrogen Molecule

TheVisualMD

Estrogens: Pregnancy

TheVisualMD

Embryo and Fetus Development, placenta and amniotic sac.

TheVisualMD

Estrogen Molecules

TheVisualMD

Hearing Tests for Children

Hearing Tests for Children

Also called: Pediatric Audiometry

Hearing tests for children measure how well your child can hear. A child can be born with a hearing problem or develop one later on. If your child is diagnosed with hearing loss, you may be able to take steps to treat or manage the condition.

Hearing Tests for Children

Also called: Pediatric Audiometry

Hearing tests for children measure how well your child can hear. A child can be born with a hearing problem or develop one later on. If your child is diagnosed with hearing loss, you may be able to take steps to treat or manage the condition.

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Use the slider below to see how your results affect your health.
dB
15
25
40
55
70
90
Your result is Normal hearing.
Hearing threshold levels (the quietest sounds you can hear) are measured in decibels (dB) at different frequencies from low (500 Hz) to high (8000 Hz). The range for normal hearing is 0 to 15 dB. The full safe range of human hearing ranges from -10 to 120 dB.
Related conditions
Hearing tests measure how well your baby or child can hear different sounds. Some babies are born with hearing problems. Other children are born with normal hearing and begin to have hearing problems later in childhood.
Hearing loss in infancy and early childhood can delay a child's ability to talk, understand spoken language, and develop social skills. Hearing tests can find problems early so that children with hearing loss can be treated and get help learning language skills as soon as possible.
Hearing depends on a series of steps that change sound waves into electrical signals that the brain understands as sounds. Hearing loss happens when there's a problem with any of these steps:
- Sound waves enter the outer ear and travel to the eardrum in the middle ear.
- The soundwaves vibrate the eardrum, which sends the vibrations to tiny bones that make the vibrations stronger.
- The vibrating bones make tiny waves in the fluid that's inside the cochlea. The cochlea is a snail-shaped structure in the inner ear. It is lined with sensory cells that have hair-like structures. When the hair cells move with the fluid waves, they create electrical signals.
- The auditory (hearing) nerve carries the electrical signals from the inner ear to the brain, which turns them into sounds you can recognize and understand.
There are three main types of hearing loss:
- Conductive hearing loss happens when sound waves can't reach the inner ear. Earwax or abnormal fluid in the ear may be blocking the path, or a hole in the eardrum may prevent it from vibrating. Ear infections are a common cause of this type of hearing loss in infants and young children. Medical treatment or surgery can often improve hearing.
- Sensorineural hearing loss (also called nerve deafness) happens when there's damage to the cochlea in the inner ear or the auditory nerve. This type of hearing loss ranges from mild (difficulty hearing certain sounds) to profound (not hearing any sound). The hearing loss is usually permanent, but it can improve with hearing aids or other devices.
- Mixed hearing loss is a combination of both sensorineural and conductive hearing loss.
One type of sensorineural hearing loss is called auditory neuropathy spectrum disorder (ANSD). With ANSD, there's problem with how the inner ear or the hearing nerve sends sound to the brain. This type of hearing disorder may happen if your child has health problems before or during birth or as a newborn. These problems include premature birth (being born too soon), low birth weight, and jaundice. ANSD may also be caused by a genetic disorder.
Other names: audiometry; audiography, audiogram, sound test
Routine hearing screening tests are recommended for all babies and children:
- Newborns should have a screening test for hearing problems by 1 month of age.
  If you give birth in a hospital, the screening test is usually done before your baby goes home.
  If you give birth at home, make sure to get your baby tested during the first month after birth.
- Children should have their hearing checked before they enter school. School-aged children may have hearing screening tests as part of their regular health checkups. The tests are often done in school, too.
More complete hearing tests are needed any time there is a concern about your child's hearing:
- If your baby doesn't pass the newborn hearing screening test, your baby will need complete hearing tests as soon as possible, but no later than 3 months of age.
- If your baby passes the newborn hearing screening test, but has a high risk for developing hearing loss, your baby will need complete hearing tests between 24 to 30 months of age. Your baby's risk may be higher if childhood hearing loss runs in your family or if your baby had certain infections. Ask your baby's provider about your baby's risk level.
- If your baby or child shows signs of hearing loss, contact your child's provider as soon as possible.
Signs of hearing loss in a baby include:
- Not jumping or being startled at loud noises
- After 6 months of age, not turning toward a sound
- By 12 months of age, not saying a few simple words, such as "dada" or "mama"
Signs of hearing loss in children include:
- Unclear speech
- Not following directions
- Often saying, "Huh?"
- Turning the TV volume up too high
- Learning problems
Hearing tests depend on your child's age and ability to follow instructions:
Hearing screening tests for newborns, infants, and very young children can measure hearing without needing your child to cooperate. These tests can even be done while your child sleeps:
- Auditory brainstorm (ABR) tests check the inner ear, the hearing nerve, and parts of the brain that are involved with hearing. During an ABR test:
  The provider will place electrodes (small sensors that stick to the skin) on the scalp. The electrodes are connected to a computer.
  Tiny, soft earphones will be placed inside the ears.
  The earphones will play sounds.
  The electrodes measure how the brain responses to the sounds. The results are shown on the computer.
- Otoacoustic emissions (OAE) tests check for damage in the hair cells in the cochlea. During an OAE test:
  A small device will be placed in the ear. It can make sound and measure sound.
  Sound from the device makes the fluid in the cochlea ripple, which moves the hair cells. When the hairs move, they make vibrations that have their own sound called OAEs.
  The device measures OAEs to see how well the hair cells are working. If the test shows little or no OAEs, your child may have sensorineural hearing loss.
Hearing screening tests for older children are usually audiometry tests. These tests check the quietest sounds or words that your child can hear. For these tests:
- Your child will wear headphones. If your child won't wear headphones, sounds may be played through speakers in a sound booth.
- For a pure-tone test, each time your child hears a tone they will raise their hand, push a button, or say that they heard the sound.
- For a speech test (also called speech discrimination testing), your child will hear simple words at different levels of loudness. Some words will be spoken over noise. Your child will repeat the words they hear.
Audiometry tests can be adapted for very young children and infants. For young children, the tests may include a game to help them pay attention to the sounds. For example, a child may put a block in a box each time they hear a sound.
For infants and toddlers, the provider will watch for behavior changes that show the child heard a sound. For example, an infant may start sucking a pacifier or look to see where the sound came from. When the child responds to a sound, they get to see a moving toy as a reward.
More complete hearing tests will be done if your child doesn't pass a hearing screening test. Your child's provider will usually refer you to a hearing specialist, such as:
- A pediatric audiologist, a health care professional who is trained to test hearing, diagnose hearing loss, and provide hearing devices and services to improve hearing in children.
- A pediatric otolaryngologist (ENT), a doctor who specializes in diagnosing and treating ear conditions in children. This type of provider may also be called a pediatric otologist.
During a complete hearing exam, your child may have several types of hearing tests that examine different parts hearing. These tests may include an ABR and/or an OAE test for children who were screened with audiometry tests. Other common tests include:
- Tympanometry. This test checks how well the eardrum and bones in the middle ear are working. Your child will need to sit very still, so this test usually isn't used for infants or young children. During the test:
  A small device will be placed in your child's ear.
  The device will send air and sound into the ear, which makes the eardrum move. Your child will feel the air pressure.
  A machine records the movements of the eardrum on graphs called tympanograms.
  If the eardrum doesn't move normally, your child may have fluid or wax buildup in the ear, a hole in the eardrum, a tumor in the ear, middle ear bones that don't vibrate well, or another problem in the middle ear.
- Acoustic Reflex Measures, also called middle ear muscle reflex (MEMR) test. This test shows how the ear responds to loud sounds. Normally, a tiny muscle inside the ear tightens to protect your ear when you hear loud noises. If unusually loud noises are needed to trigger the muscle to tighten, or if it doesn't tighten at all, your child may have hearing loss. To do the test:
  A small device will be placed in your child's ear.
  The device will make loud sounds.
  A machine will show if the sound triggered the ear muscle to tighten.
If your child's hearing screening test shows normal hearing, your child usually won't need more hearing tests until their next routine screening. But if you have concerns about your child's hearing or if your child has risks for hearing loss, talk with your child's provider about getting more complete hearing tests.
If the results of complete hearing tests show that your child has hearing loss, the results will also show how severe it is, which ear is affected more, and whether they have conductive sensorineural, or both types of hearing loss.
- With conductive hearing loss, treatment may be able to restore your child's hearing. The treatment will depend on what's blocking sound from reaching the inner ear. It may include removing wax, draining fluid, or doing surgery to fix problems with the eardrum or ear bones.
- With sensorineural hearing loss, the loss of hearing is permanent. But your child's hearing may improve with hearing aids or surgery to implant a device called a cochlear implant.
Other treatment and support options for hearing loss in children include:
- Working with professionals who can help children and their families learn to communicate. This may include learning sign language, lip reading, or other ways to communicate.
- Education to help your child learn communication skills.
- Assistive devices, such as devices for using the telephone and alerting your child to alarms, doorbells, and other sounds.
- Support groups.
If you have questions about your child's hearing and treatment, talk with your child's primary care provider or hearing specialist.
1. Hearing Tests for Children: MedlinePlus Medical Test [accessed on Feb 06, 2024]

Additional Materials (27)

Pediatrician examines a child

Lt. Cmdr. Dorey Harlan, a pediatrician assigned to the Military Sealift Command hospital ship USNS Mercy (T-AH 19), examines a child during a medical community service event at the Damril Clinic in Kampong Cham, Cambodia.

Image by U.S. Navy photo by Mass Communication Specialist 2nd Class Jon Husman

Newborn hearing screening

Sarah Thompson, daughter of Senior Airman Josh Thompson, 1st Special Operations Wing, has an ear bud placed in her ear prior to her newborn hearing screening. The screening measures otoacoustic emissions, which are sounds produced by the outer hair cells within the inner ear. It is common practice for babies born on base and a state-mandated procedure in Florida. (U.S. Air Force photo/Samuel King Jr.)

Image by U.S. Air Force photo/Samuel King Jr.

auditory technician, performs a hearing test on a newborn baby

Hospital Corpsman 2nd Class Derrick Villalobos, an auditory technician, performs a hearing test on a newborn baby at Naval Medical Center San Diego. A physical assessment is performed in the first 24 hours of life and includes blood work, hearing tests and a head-to-toe examination. More than 300 babies are born per month at the medical center.

Image by U.S. Navy photo by Mass Communication Specialist 3rd Class Amanda L. Kilpatrick

Infographic Newborn screening system

Infographic Newborn screening system

Image by Colorado Department of Public Health and Environment

Newborn Hearing Screening - Boys Town National Research Hospital

Video by BoysTownHospital/YouTube

Testing a Child's Hearing - Boys Town National Research Hospital

Video by BoysTownHospital/YouTube

Information about newborn hearing tests

Video by CNN/YouTube

Newborn Hearing Testing Screening (OAE and ABR)

Video by Fauquier ENT/YouTube

When should I have my child's hearing tested?

Video by Ascension Via Christi/YouTube

Mayo Clinic Minute: Why your child needs a hearing test

Video by Mayo Clinic/YouTube

Newborn Hearing Screening

Video by Health Science Channel/YouTube

Caring For Your Newborn

Video by Dartmouth-Hitchcock/YouTube

Tips for teaching deaf children with a mild hearing loss

Video by National Deaf Children's Society/YouTube

My Baby Has a Hearing Loss: A Starting Guide for Parents

Video by California Speech Language Hearing Association/YouTube

Hearing Loss in Children: Strategies for Better Communication | Boston Children's Hospital

Video by Boston Children's Hospital/YouTube

Is your child's hearing loss genetic?

Video by Michigan Medicine/YouTube

How Newborn Hearing Screening Helps Children

Video by Washington State Department of Health/YouTube

Newborn Hearing Testing - WVU Medicine Health Report

Video by WVU Medicine/YouTube

Mayo Clinic Minute: When older adults need a hearing exam

Video by Mayo Clinic/YouTube

Mayo Clinic Minute: Importance of screening your newborn's hearing

Video by Mayo Clinic/YouTube

Routine ear check-up

Maj. James Tschudy, a pediatrician with the 6th Medical Operations Squadron, examines a patient’s ear during a routine check-up at MacDill Air Force Base, Fla., April 21, 2016. Military children go through the same aches, illnesses and injuries that most children do, but often with the added stress of a recent PCS, parent’s deployments and military lifestyles. (U.S. Air Force photo by Senior Airman Jenay Randolph)

Image by U.S. Air Force photo by Senior Airman Jenay Randolph

Assessing Baby's Reaction to Sound

Image by tung256/Pixabay

3-week-old infant receives a hearing test

Wyatt Worsley, 3-week-old son of U.S. Navy Petty Officer 2nd Class Clayton Worsley, Norfolk Naval Base, receives a hearing test from U.S. Air Force Major Jennifer Carey, 633d Medical Group chief of audiology services, during his after birth screening July 13,. Major Carey volunteers to care for newborn patients when the labor and delivery clinic needs the extra help.

Image by U.S. Air Force photo/Staff Sgt. Ashley Hawkins

Diagram of tympanometry

Diagram of tympanometry

Image by Scott Martin, translation of File:Tympanometrie Schema1.svg by Welleschik into English

How to Conduct a Tuning Fork Test

Video by American Academy of Otolaryngology—Head and Neck Surgery/YouTube

What is Auditory Brainstem Response (ABR) Testing?

Video by Interacoustics/YouTube

ABR Case Study: Normal Hearing

Video by Interacoustics/YouTube

Pediatrician examines a child

U.S. Navy photo by Mass Communication Specialist 2nd Class Jon Husman

Newborn hearing screening

U.S. Air Force photo/Samuel King Jr.

auditory technician, performs a hearing test on a newborn baby

U.S. Navy photo by Mass Communication Specialist 3rd Class Amanda L. Kilpatrick

Infographic Newborn screening system

Colorado Department of Public Health and Environment

1:54

Newborn Hearing Screening - Boys Town National Research Hospital

BoysTownHospital/YouTube

3:17

Testing a Child's Hearing - Boys Town National Research Hospital

BoysTownHospital/YouTube

2:10

Information about newborn hearing tests

CNN/YouTube

3:51

Newborn Hearing Testing Screening (OAE and ABR)

Fauquier ENT/YouTube

2:36

When should I have my child's hearing tested?

Ascension Via Christi/YouTube

1:01

Mayo Clinic Minute: Why your child needs a hearing test

Mayo Clinic/YouTube

3:56

Newborn Hearing Screening

Health Science Channel/YouTube

24:44

Caring For Your Newborn

Dartmouth-Hitchcock/YouTube

2:46

Tips for teaching deaf children with a mild hearing loss

National Deaf Children's Society/YouTube

19:46

My Baby Has a Hearing Loss: A Starting Guide for Parents

California Speech Language Hearing Association/YouTube

5:53

Hearing Loss in Children: Strategies for Better Communication | Boston Children's Hospital

Boston Children's Hospital/YouTube

2:14

Is your child's hearing loss genetic?

Michigan Medicine/YouTube

3:02

How Newborn Hearing Screening Helps Children

Washington State Department of Health/YouTube

1:40

Newborn Hearing Testing - WVU Medicine Health Report

WVU Medicine/YouTube

1:01

Mayo Clinic Minute: When older adults need a hearing exam

Mayo Clinic/YouTube

1:00

Mayo Clinic Minute: Importance of screening your newborn's hearing

Mayo Clinic/YouTube

Routine ear check-up

U.S. Air Force photo by Senior Airman Jenay Randolph

Assessing Baby's Reaction to Sound

tung256/Pixabay

3-week-old infant receives a hearing test

U.S. Air Force photo/Staff Sgt. Ashley Hawkins

Diagram of tympanometry

Scott Martin, translation of File:Tympanometrie Schema1.svg by Welleschik into English

4:34

How to Conduct a Tuning Fork Test

American Academy of Otolaryngology—Head and Neck Surgery/YouTube

9:04

What is Auditory Brainstem Response (ABR) Testing?

Interacoustics/YouTube

13:18

ABR Case Study: Normal Hearing

Interacoustics/YouTube

Treatment

Pediatric Therapy facility

Image by U.S. Navy photo by Mass Communication Specialist 1st Class Brien Aho/Released

Pediatric Therapy facility

Ten-year-old Joseph Camano, left, exercises on a swing during a routine physical therapy session at the Diane Epplein & Assoc. Pediatric Therapy facility gymnasium while fellow patient nine-year-old Logan Flaathen, center, and occupational therapist Judy Anderson observe. Camano was born with no legs and a malformed right arm and he and his father, Lt. Cmdr. Santiago Camano, are enrolled in the Exceptional Family Member Program (EFMP), a service-wide initiative designed to interface closely with the detailing process to ensure family members receive the care they require and service members can fulfill their career requirements and goals.

Image by U.S. Navy photo by Mass Communication Specialist 1st Class Brien Aho/Released

What Are the Treatments for Rett Syndrome?

Most people with Rett syndrome benefit from well-designed interventions no matter what their age, but the earlier that treatment begins, the better. With therapy and assistance, people with Rett syndrome can participate in school and community activities.

These treatments, forms of assistance, and options for medication generally aim to slow the loss of abilities, improve or preserve movement, and encourage communication and social contact. A list of treatment options is presented below; the need for these treatments depends on the severity of different symptoms.

Physical Therapy/Hydrotherapy

Improves or maintains mobility and balance
Reduces misshapen back and limbs
Provides weight-bearing training for patients with scoliosis (an abnormal curvature of the spine)

Occupational Therapy

Improves or maintains use of hands
Reduces stereotypic hand movements such as wringing, washing (a movement that resembles washing the hands), clapping, rubbing, or tapping
Teaches self-directed activities like dressing and feeding

Speech-Language Therapy

Teaches nonverbal communication
Improves social interaction

Feeding Assistance

Supplements calcium and minerals to strengthen bones and slow scoliosis
High-calorie, high-fat diet to increase height and weight
Insertion of a feeding tube if patients accidentally swallow their food into their lungs (aspiration)

Physical Assistance

Braces or surgery to correct scoliosis
Splints to adjust hand movements

Medication

To reduce breathing problems
To eliminate problems with abnormal heart rhythm
To relieve indigestion and constipation
To control seizures

Source: Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)

Additional Materials (1)

Hope for girls like Grace (Rett syndrome)

Video by rarediseaseday/YouTube

4:16

Hope for girls like Grace (Rett syndrome)

rarediseaseday/YouTube

Prognosis

Girl mouthing right hand

Image by Senorita666

Girl mouthing right hand

Image by Senorita666

What Is the Outlook for Those with Rett Syndrome?

Despite the difficulties with symptoms, many individuals with Rett syndrome continue to live well into middle age and beyond. Because the disorder is rare, very little is known about long-term prognosis and life expectancy. While there are women in their 40s and 50s with the disorder, currently it is not possible to make reliable estimates about life expectancy beyond age 40.

Source: National Institute of Neurological Disorders and Stroke (NINDS)

Research

Human Genome

Image by Darryl Leja, NHGRI

Human Genome

The CEER program, established in 2004, is designed to bring together experts in wide-ranging fields - bioethics, law, behavioral and social sciences, epidemiology, public health, public policy, genomics and clinical research - to study the potential societal implications of genomic information and research. CEER projects also help inform public policy and research guidelines, in addition to educating the next generation of researchers.

Image by Darryl Leja, NHGRI

What Research Is Being Done for Rett Syndrome?

Within the Federal government, the National Institute of Neurological Disorders and Stroke (NINDS), the Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD), the National Institute of Mental Health (NIMH), and the Office of Rare Diseases Research (ORDR) support clinical and basic research on Rett syndrome.

Understanding the cause of this disorder is necessary for developing new therapies to manage specific symptoms, as well as for providing better methods of diagnosis. The discovery of the main Rett syndrome gene (MECP2) in 1999 provides a basis for further genetic studies and enables the use of recently developed animal models such as transgenic mice which are deficient in MECP2. These mice have neurologic abnormalities that can be reversed by activating the MECP2 gene later in life.

One NINDS-supported study looks for mutations in the MECP2 gene of individuals with Rett syndrome to learn about MeCP2 protein function and dysfunction. Information from this study will increase understanding of the disorder and may lead to new therapies. Other research aims at identifying molecular pathways that are affected by the dysfunction, developing animal models of the disorder, and early-stage therapy development.

Some researchers suggest that the specific type of mutation in the MECP2 gene affects the severity of symptoms of Rett syndrome. Studies are now underway to understand each mutation that may cause the features of Rett syndrome, and how these mutations might change the features of the syndrome. One NIH-funded study of the natural history of Rett syndrome should also provide new information about these topics.

Scientists know that lack of a properly functioning MeCP2 protein disturbs the function of mature brain cells but they do not know the exact mechanisms by which this happens. Investigators are trying to find other genetic switches that operate in a similar way to the MeCP2 protein. Once they discover how the protein works and locate similar switches, they may devise therapies that can substitute for the malfunctioning switch. Another outcome might involve manipulating other biochemical pathways to compensate for the malfunctioning MECP2 gene, thereby preventing progression of the disorder. Gene therapy to achieve regulated expression of a normal MECP2 gene is also under study in animal models.

Researchers are also trying to find other genes that may be involved in Rett syndrome. Some studies have helped to narrow the search for these genes, but much is still unknown about how these genes may cause or contribute to Rett syndrome.

Source: National Institute of Neurological Disorders and Stroke (NINDS)

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Rett Syndrome

Rett syndrome is a rare genetic disease related to autism spectrum disorder (ASD). The disease causes developmental and nervous system problems that almost exclusively affects females and is extremely rare in males. Learn about causes, symptoms and treatments.

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