Dermatosis papulosa nigra (DPN) is a benign epidermal growth that presents as hyperpigmented or skin-colored papules that develop on the face and neck beginning in adolescence. It typically occurs in individuals with Fitzpatrick skin types III to VI, most commonly affecting people of African and Asian descent. It is considered to be a common variant of seborrheic keratoses (SKs). It was first described in 1925 by Dr. Aldo Castellani based on his observations while visiting Jamaica and Central America. This activity reviews the evaluation and management of dermatosis papulosa nigra and the role of interprofessional team members in collaborating to provide well-coordinated care and enhance patient outcomes.

Pseudofolliculitis barbae is a chronic, irritating, and potentially disfiguring condition that develops as a result of attempts to eliminate hair from the beard area, usually by shaving. It is difficult to determine the incidence of the disorder, but some studies report that it affects up to 1 of every 5 caucasian individuals and that it is much more common in black persons. Clinically it is characterized by the appearance of inflammatory papules and pustules. Once pseudofolliculitis has become established, treatment consists of avoiding shaving and the use of medical treatment similar to that used in acne. However, the long-term result is much more dependent on prevention through a correct shaving technique. In severe cases or when a definitive solution is sought, the treatment of choice is photodepilation.

Folliculitis often appears in sweaty areas or around the beard area in men. It is more likely to happen if you wear tight clothing.

Causes of non-infective folliculitis

Non-infective folliculitis can be caused by:

• shaving and waxing
• obesity
• heavy sweating

Some medicines can also cause folliculitis, such as:

• corticosteroids — especially in the form of creams and ointments used on the skin
• extended use of antibiotics (which can cause gram negative folliculitis)
• medicines that suppress the immune system

People who shave may get a chronic (ongoing) inflammation in their beard area. As the hair grows, the cut end digs into the skin causing inflammation. This is called pseudofolliculitis barbae. It most often affects men with darker skin and tightly curled hair.

Another type of folliculitis is eosinophilic folliculitis. In some cases, it may start due to immune suppression (your immune system not working properly).

Causes of infective folliculitis

Infective folliculitis can be caused by:

• bacteria
• viruses
• fungi

The most common bacteria that cause folliculitis are:

• staphylococcus aureus (bacterial folliculitis) —commonly found on your skin
• pseudomonasaeruginosa (hot tub folliculitis) — found in hot tubs and spas

Other causes of infective folliculitis are:

• demodex mites
• malassezia yeasts (pityrosporum folliculitis)
• herpes simplex virus

Most cuts or wounds, with the exception of ones that only scratch the surface (the epidermis), lead to scar formation. A scar is collagen-rich skin formed after the process of wound healing that differs from normal skin. Scarring occurs in cases in which there is repair of skin damage, but the skin fails to regenerate the original skin structure. Fibroblasts generate scar tissue in the form of collagen, and the bulk of repair is due to the basket-weave pattern generated by collagen fibers and does not result in regeneration of the typical cellular structure of skin. Instead, the tissue is fibrous in nature and does not allow for the regeneration of accessory structures, such as hair follicles, sweat glands, or sebaceous glands.

Sometimes, there is an overproduction of scar tissue, because the process of collagen formation does not stop when the wound is healed; this results in the formation of a raised or hypertrophic scar called a keloid. In contrast, scars that result from acne and chickenpox have a sunken appearance and are called atrophic scars.

Scarring of skin after wound healing is a natural process and does not need to be treated further. Application of mineral oil and lotions may reduce the formation of scar tissue. However, modern cosmetic procedures, such as dermabrasion, laser treatments, and filler injections have been invented as remedies for severe scarring. All of these procedures try to reorganize the structure of the epidermis and underlying collagen tissue to make it look more natural.

Is it true that only people with light skin get skin cancer?

No. Anyone can get skin cancer. It's more common among people with a light (fair) skin tone, but skin cancer can affect anyone. Skin cancer can affect both men and women. Even teenagers and, rarely, younger children can develop skin cancer.

How can people with dark skin get skin cancer?

Although dark skin does not burn in the sun as easily as fair skin, everyone is at risk for skin cancer. Even people who don't burn are at risk for skin cancer. It doesn't matter whether you consider your skin light, dark, or somewhere in between. You are at risk for skin cancer. Being in the sun can damage your skin. Sunlight causes damage through ultraviolet, or UV rays, (they make up just one part of sunlight). Two parts of UV, UVA and UVB, can both cause damage to skin. Also, the sun isn't the only cause of skin cancer. There are other causes. That's why skin cancer may be found in places on the body never exposed to the sun.

How can I find skin cancer early?

• Talk with your doctor if you see any changes on your skin that do not go away within one month.
• Check the skin on all surfaces of your body, even in your mouth.
• Watch for a new mole or other new growth on your skin.
• Check for changes in the appearance of an old growth on the skin or scar (especially a burn scar).
• Watch for a patch of skin that is a different color and becomes darker or changes color.
• Watch for a sore that does not heal – it may bleed or form a crust.
• Check your nails for a dark band. Check with your doctor if you see changes, such as if the dark band begins to spread.

When skin cancer is found early, it can be treated more easily.

What does skin cancer look like?

There are many different types of skin cancer (such as melanoma and basal cell skin cancer). Each type looks different. Also, skin cancer in people with dark skin often looks different from skin cancer in people with fair skin. A change on the skin is the most common sign of skin cancer. This may be any new growth on the skin, a sore that doesn't heal, or a change in an old growth.

If you notice a change on your skin, see your doctor. Don't wait until the change looks like the more advanced skin cancers in these photos.

How can I protect myself from skin cancer?

Have your doctor check your skin if you are concerned about a change.
Your doctor may take a sample of your skin to check for cancer cells.

Ask your doctor about your risk of skin cancer:

• Some skin conditions and certain medicines (such as some antibiotics or hormones) may make your skin more sensitive to damage from the sun.
• Medicines or medical conditions (such as HIV) that suppress the immune system may make you more likely to develop skin cancer.
• Having scars or skin ulcers increases your risk.
• Exposure to a high level of arsenic (a poison that is sometimes found in well water or pesticides) increases your risk.

Stay out of the sun as much as you can. Whenever possible, avoid exposure to the sun from
10 a.m. to 4 p.m. If you work or play outside, then…

• Try to wear long sleeves, long pants, and a hat that shades your face, ears, and neck with a brim all around.
• Use sunscreen with a label that says it is broad spectrum or is at least SPF 15 and can filter both UVA and UVB rays.
• Wear sunglasses that filter UV to protect your eyes and the skin around your eyes.
• If you are concerned about having a low level of vitamin D from not being in the sun, talk with your doctor about supplements.

Don't use tanning beds, tanning booths, or sunlamps.

Overview

Most skin cancers are caused by contact with ultraviolet (UV) rays from the sun and other sources of UV radiation, like tanning beds.

Limiting your contact with UV radiation lowers your risk of skin cancer. To protect your skin from damage caused by UV radiation:

• Stay out of the sun as much as possible between 10 a.m. and 4 p.m., when the sun’s rays are strongest
• Cover up with long sleeves, long pants or a long skirt, a hat, and sunglasses
• Put on broad spectrum sunscreen with SPF 15 or higher
• Don’t use indoor tanning machines

A change on your skin — like a new growth or mole, a sore that won’t heal, or a change in an old mole — is the most common sign of skin cancer. If you notice a change in your skin, talk to your doctor.

Why do I need to protect my skin?

Protecting your skin from the sun and other UV radiation today may help prevent skin cancer later in life. Most skin cancer appears later in life, but skin damage from the sun can start during childhood.

Taking steps to protect your skin may also help prevent:

• Wrinkles
• Blotches or spots on your skin
• Other damage to your skin and eyes

Definition

What is skin cancer?

Skin cancer is the most common kind of cancer in the United States. There are 3 main types of skin cancer:

• Basal cell carcinoma
• Squamous cell carcinoma
• Melanoma

Basal cell carcinoma and squamous cell carcinoma are also called nonmelanoma skin cancer, and they’re much more common than melanoma. Melanoma is the most dangerous type of skin cancer.

Skin cancer can almost always be cured when it’s found and treated early. That’s why it’s important to check your skin regularly for new growths (like moles or lumps) or changes in old growths. Tell your doctor or nurse right away if you notice a change.

Am I at Risk?

What causes skin cancer?

Ultraviolet (UV) radiation from the sun is the main cause of skin cancer. UV radiation can also come from tanning beds, tanning booths, or sunlamps.

Anyone can get skin cancer. You’re at higher risk if you have:

• Fair (light-colored) skin with freckles
• Skin that burns easily or doesn’t tan easily
• Blond or red hair
• Blue or green eyes

You’re at higher risk for melanoma, the most dangerous type of skin cancer, if you have:

• Unusual moles (moles that change color, grow unevenly, or change in texture)
• A large number of moles (more than 50)
• Fair skin that burns easily
• A family history of melanoma or unusual moles
• A personal history of frequently coming in contact with sunlight or UV radiation
• A personal history of many blistering sunburns, especially when you were a child or teenager

Can people with dark skin get skin cancer?

Yes. Anyone can get skin cancer, even people with dark skin — like Black or African American people. That’s why it’s important to protect your skin from the sun — even if you don’t get sunburns easily — and to check your body for signs of skin cancer regularly.

Keep in mind that people with dark skin may get melanoma on parts of the body you might not expect, like:

• The palms of the hands
• The bottoms of the feet
• Under the nails

Few studies have examined melanoma incidence and survival rates among non-Hispanic black populations because melanoma risk is lower among this group than among non-Hispanic white populations. However, non-Hispanic black people are often diagnosed with melanoma at later stages, and the predominant histologic types of melanomas that occur in non-Hispanic black people have poorer survival rates than the most common types among non-Hispanic white people.

What is already known on this topic?

Non-Hispanic black people have lower incidence rates of melanoma than non-Hispanic white people; however, non-Hispanic black people are typically diagnosed at a later stage, have different proportions of histologic types of melanoma, and have poorer survival rates than non-Hispanic white people.

What is added by this report?

From 2011 through 2015, the histology of most melanomas diagnosed among non-Hispanic black patients was acral lentiginous melanoma. Five-year relative survival rates for acral lentiginous melanoma are lower than for the predominant histologic type diagnosed among non-Hispanic white people.

What are the implications for public health practice?

Improved education of health care providers about incidence of acral lentiginous melanoma among non-Hispanic black people is needed because of its atypical presentation and poor survival rates for this cancer.

Introduction

Melasma is a common skin problem caused by brown to gray-brown patches on the face. Most people get it on their cheeks, chin, nose bridge, forehead, and above the upper lip. It is more common in women than men. Pregnancy is a common cause of melasma. It also affects woman taking oral contraceptives and hormones.

Etiology

Etiologic factors include genetic influences, ultraviolet (UV) radiation, pregnancy, hormonal therapies, cosmetics, phototoxic drugs, and antiseizure medications.

Melasma stimulates melanocytes by the female sex hormones estrogen and progesterone, producing more melanin pigments when the skin is exposed to the sun.

Genetic

Genetic predisposition may be a major factor in the development of melasma.

• Melasma is more common in females than in males.

• Persons with light-brown skin types from regions of the world with high sun exposure are more prone to the development of melasma.

• Approximately 50% report a positive family history of the condition. Identical twins have been reported to develop melasma.

Sunlight Exposure

UV radiation can cause lipids peroxidation in cellular membranes, resulting in free radicals which could stimulate melanocytes to produce excess melanin.

• Sunscreens that block UV-B radiation (290-320 nm) do not block the longer wavelengths of UV-A and visible radiation (320-700 nm) which also stimulate melanocytes to produce melanin.

Hormonal Influences

Hormones may play a role in developing melasma in some individuals.

• The mask of pregnancy is known to occur in obstetric patients. The exact mechanism is unknown. Estrogen, progesterone, and melanocyte-stimulating hormone levels are normally increased during the third trimester of pregnancy and may be a factor.

• Patients with melasma who are nulliparous have no increased levels of estrogen or MSH but show elevated levels of estrogen receptors within the lesions. In addition, melasma with estrogen- and progesterone-containing oral contraceptive pills and diethylstilbestrol treatment for prostate cancer have been observed.

• A woman who is postmenopausal and given progesterone may develop melasma, while those who are given estrogen alone do not; this implicates progesterone as playing a primary role in the development of melasma.

Thyroid Disease

There is a four-fold increase in thyroid disease in melasma patients.

• There is an association between the development of melasma and the presence of melanocytic nevi and lentiginous nevi.

• This would indicate a relationship between the development of melasma and the presence of pigmentation.

Epidemiology

Persons of any race can be affected. Melasma is more common in darker skin types than in lighter skin types, and it is particularly more common in light brown skin types. Women are affected nine times more than men. Melasma is rare before puberty and more common in reproductive years. Melasma is present in 15% to 50% of pregnant patients. The prevalence varies between 1.5% and 33% depending on the population.

Pathophysiology

The most important factor is exposure to sunlight. UV radiation induces production of alpha-melanocyte–stimulating hormone and corticotropin as well as interleukin 1 and endothelin 1, which contributes to increased melanin production by intraepidermal melanocytes. Prolonged UV exposure-induced dermal inflammation and fibroblast activation upregulate stem cell factors in the melasma dermis, resulting in increased melanogenesis.

Histopathology

Melanin is increased in the dermis or epidermis or both. Epidermal melanin is located in the keratinocytes in the basal and suprabasal areas. Dermal melanin also is found in the superficial and mid dermis within the macrophages congregating around small, dilated vessels. Inflammation is sparse or absent.

History and Physical

Melasma occurs in sun-exposed areas as an acquired hypermelanosis, presenting as symmetrically distributed hyperpigmented macules which can be confluent or punctate. It is worse in areas that receive excessive sun exposure, including the cheeks, the upper lip, the chin, and the forehead.

Evaluation

No laboratory tests are indicated although some studies suggest mild abnormalities in thyroid function are associated, specifically pregnancy- or oral contraceptive pill-associated melasma. In these cases, it is reasonable to consider checking thyroid function tests. Wood lamp examination helps to localize the pigment to the dermis or epidermis.

Treatment / Management

The best treatment is a topical combination of hydroquinone cream and avoidance of sun or estrogen exposure. In addition to the avoidance of sun exposure, discontinuing the use of high-SPF sunscreens (50 or higher) can prevent the development of melasma. First-line therapy for melasma consists of effective topical therapies, mainly in the form of triple combinations (hydroquinone 4%, tretinoin 0.05%, and fluocinolone acetonide 0.01%) and when triple combinations are unavailable or when patients have hypersensitivity to them, then dual ingredients or single agents be considered.

Chemical peels and lasers may yield unpredictable results and are associated with adverse effects including epidermal necrosis, postinflammatory hyperpigmentation, and hypertrophic scars. These interventions are second-line therapies and used only if the topical medication has failed. In experienced hands, chemical peels and lasers are usually safe and may produce results faster than topical medications.

Skin Peels These procedures carry a risk of adverse outcomes. Peels use glycolic or salicylic acid-based compounds which may increase turnover of hyperpigmented keratinocytes.

• They often begin as a monthly treatment using low concentration formulas and progress to weekly applications at higher concentrations.

• Lightening agents are usually used in conjunction with superficial peels for better results.

• Skin peels should only be used after a trial of therapy with at least one skin-lightening agent.

• Close monitoring of skin depigmentation is necessary, and therapy should be halted if alterations in pigmentation in the surrounding skin are noted.

Lasers

The efficacy of lasers for the treatment of melasma has been associated with undesired cosmetic results. Their use should be considered in cases of extensive disease that is refractory to laser use as it may actually worsen the condition.

Differential Diagnosis

The differential diagnoses include:

• Actinic Lichen Planus

• Acanthosis Nigricans

• Discoid Lupus Erythematosus

• Drug-Induced Photosensitivity

• Exogenous Ochronosis

• Frictional Melanosis

• Mastocytosis

• Nevi of ito and Ota

• Pigmented Contact Dermatitis

• Poikiloderma of Civatte

• Postinflammatory Hyperpigmentation

Prognosis

Melasma has no associated mortality or morbidity. No cases of malignant transformation or association with the increased risk of melanoma or other malignancies have been reported. Patients with melasma actually are considered to have less risk for melanoma.

The dermal pigment may take longer to resolve than the epidermal pigment because no effective therapy is capable of removing dermal pigment. However, treatment should not be withheld simply because of a preponderance of dermal pigment. The source of the dermal pigment is the epidermis, and, if epidermal melanogenesis can be inhibited for long periods, the dermal pigment will not replenish and will slowly resolve.

Resistant cases or recurrences of melasma occur often and are certain if strict avoidance of sunlight is not rigidly heeded.

Pearls and Other Issues

Patients should avoid the routine use of cosmetics on sensitive skin. Vigorously rubbing triple creams on hyperpigmented areas may worsen the situation. Ochronosis can occur with prolonged exposure to creams with potent steroids.

Melasma should be distinguished from post-inflammatory hyperpigmentation, actinic lichen planus, and hydroquinone-induced exogenous ochronosis.

Patient education should include strict sun avoidance as this is essential for resolution and may prevent recurrence of melasma. Melasma patients should apply bleaching creams to dark areas only. Resolution with strict sun avoidance and topical bleaching creams can take many months; patients should be educated to expect slow but gradual lightening.

Enhancing Healthcare Team Outcomes

Melasma is a benign skin disorder that has no morbidity. The key reason why some patients seek treatment is aesthetic. Fortunately, melasma resolves on its own in most cases. Thus, healthcare workers including nurse practitioners, dermatologists, and primary care providers should educate the patient on avoiding the sun and discontinuing the trigger medications. There are dozens of treatments for melasma and none is superior to the other. In fact, some treatments like the laser may worsen the condition.

Patients who seek no treatment and avoid the sun will notice that the rash usually disappears in a few months.

Acne keloidalis nuchae is a disease characterized by persistent folliculitis at the nape of the neck that forms keloid like scars and ultimately cicatricial alopecia. The disorder is most common in young African American males. This activity reviews the evaluation and management of acne keloidalis nuchae and highlights the importance of a collaborative interprofessional team in caring for patients effected by this condition.

Introduction

Acne keloidalis nuchae is a disease characterized by persistent folliculitis at the nape of the neck that forms keloid like scars and ultimately cicatricial alopecia. The disorder is most common in young African American males. The lesion occurs as a result of a folliculitis.

Etiology

The exact etiology of acne keloidalis nuchae is unclear, but it might be triggered by chronic irritation or occlusion of the follicles due to hair cutting practices (e.g., close shaves), trauma, friction (e.g., rubbing from shirt collars or helmets), heat, or humidity as a predisposing or exacerbating factors. Also, It might be triggered by infection (Demodex or bacteria). Other potential contributory factors include autoimmunity, excess androgens or increased sensitivity to androgens, seborrhea, and medications (e.g., cyclosporine).

Epidemiology

Individuals with darkly pigmented skin, especially African Americans, are more prone to developing acne keloidalis nuchae. It has been reported to affect young age group with a male-to-female ratio of approximately 20:1.

Pathophysiology

The repeated friction, trauma, and infection of the skin overlying the nape of the neck leads to acne keloidalis nuchae. Herzberg et al. proposed a series of ultrastructural events that are responsible for the formation of acne keloidalis nuchae:

• Acute perifollicular inflammation followed by a weakening of the follicular wall at the level of the lower infundibulum, the isthmus, or both.
• Formation of acute and chronic granulomatous inflammation by the release of naked hair shaft which acts as a foreign body.
• The fibroblasts will produce new collagen and fibrosis.
• Distortion and occlusion of the follicular lumen by the fibrosis results in retention of the hair shaft in the follicle.

Histopathology

The histopathology of acne keloidalis nuchae depends on the timing of the biopsy. In general, there is an influx of neutrophils and lymphocytes distributed around the isthmus of the hair follicle and naked hair shafts in the dermis may also be visualized. As the condition progresses, one will see the destruction of the sebaceous glands. A chronic granulomatous inflammation reaction is common with evidence of collagen deposition and fibrosis. Sinus tracts may also be apparent when the fluid is discharged to the external skin. Ingrown hairs may be seen around the periphery of the papules.

History and Physical

Usually, physicians can diagnose acne keloidalis nuchae during the clinical presentation. It is easier to diagnose this condition by inspection and palpation, given its appearance and texture. History should also include trauma, hair-cutting routine, infection, and medications.

Acne keloidalis nuchae presents as a firm, dome-shaped, inflammatory papules and pustules over the nape of the neck. Over time, fibrosis ensues with coalescence of firm papules into keloidal scarring plaques. Scarring is typically present in the time patients present for medical evaluation. Scarring is manifested by variable sized keloidal papules, plaques, or nodules at the site of previously involved hair follicles.

Evaluation

The diagnosis of acne keloidalis nuchae is clinical, but laboratory studies are done to look for bacteria. If pathogenic microorganisms are isolated, then the appropriate antibiotics should be started. Rarely, a biopsy may be done to exclude psoriasis, cancer, or acne conglobata.

Treatment / Management

Management of acne keloidalis nuchae consists of measures directed at improving the clinical manifestations and symptoms of the disease.

Overall, the treatment of acne keloidalis nuchae is difficult and unsatisfactory. Over the years, many treatments have been used with varying degrees of success. There is no first-line therapy, and it all depends on the personal preference of the treating physician.

The first part of treatment is to educate the patient on preventing progression of the disease. This means avoiding close shaving and frequent haircuts. Secondly, the individual should be told to avoid shirts with tight collars and restrictive athletic neck gear. Any ornaments like chains worn around the neck should be discontinued.

The treatment should be initiated at the time of diagnosis to avoid cosmetic disfigurement. One may use topical antimicrobial agents such as benzoyl peroxide or chlorhexidine to prevent secondary bacterial infections.

• Mild keratolytic agents can help soften the coarse hairs.
• The patient should be told to avoid the use of all hair product greases that can interfere with hair growth.
• When the disease is in the early papular stage, it may respond to potent topical steroids with or without a retinoid.
• If folliculitis is present, one may need to use minocycline or doxycycline. Moderate dose isotretinoin (20 mg daily) has an anti-inflammatory effect on folliculitis but does not affect indurated lesions.

Once the acute disease is under control, one can use maintenance therapy with a topical steroid, benzyl peroxide washes, and a topical retinoid.

If the papules are hard, intralesional injection of triamcinolone can help reduce the size and also soften the lesion. The injections can be very painful, and pretreatment with topical lidocaine may help. Steroid injections may result in hypopigmentation and skin atrophy. Some dermatologists use cryotherapy with liquid nitrogen to create edema before the injection of steroids.

Cryotherapy has also been used as solo therapy, but it is often not well-tolerated because of pain. The treatment also causes hypopigmentation and often requires months of treatment.

Surgical excision may be performed, but mild recurrences are not rare. Cryosurgery also seems to be effective in acne keloidalis nuchae, while vaporization with the CO2 laser is less effective than surgery.

Various other types of lasers have been used to treat acne keloidalis nuchae with varying success. The most effective lasers are the 1064 nm Nd: YAG laser and 810 nm diode laser. Most patients require several laser sessions in combination with topical steroids or retinoids to improve the cosmesis. Pulsed Dye laser (595 nm) has also been used in acne keloidalis nuchae but is less effective than the other lasers. Phototherapy using targeted ultraviolet B light three times a week for 8 to 10 weeks has also been effective.

Radiation therapy should only be reserved for recalcitrant cases.

Differential Diagnosis

• Acne conglobata
• Acne vulgaris
• Acneiform eruptions
• Folliculitis decalvans
• Hidradenitis suppurativa
• Perifolliculitis capitis abscedens et suffodiens

Enhancing Healthcare Team Outcomes

The management of acne keloidalis is best done with an interprofessional team consisting of clinicians, nurses, and pharmacists. The disorder is not easy to treat and there is no one treatment that is suitable for all individuals. The nurse practitioner and primary care provider must educate the patient on removing the trigger factors.

Patient education is a critical step in improving active inflammation by avoiding potential exacerbating factors. Instruct the patient to avoid picking, rubbing, or scratching the affected area. Also, he needs to discontinue close shaving and trimming. Irritation by high-collared shirts should be avoided.

If acne keloidalis nuchae is diagnosed and treated early, the prognosis is good. However, once scarring has developed, the treatment is difficult, and most patients are left with a major cosmetic problem. The large plaques that occur also create poor body aesthetics and many males become withdrawn, shy, and depressed. Pruritus is common, and the constant scratching may lead to the breakdown of the papules and drainage. Finally, scarring alopecia results.[

Hidradenitis suppurativa (HS) is a chronic skin disease which causes painful, boil-like lumps that form under the skin and often secrete pus and blood. HS occurs most often in areas where skin rubs together, such as the armpits, groin, and under the breasts. Symptoms usually begin after puberty. The first sign may be a single pocket of pus (abscess) or hard lumps associated with hair follicles. The abscesses or lumps often change to painful swollen clusters of skin sores that drain a bloody and often, bad smelling discharge. As the sores heal, they may leave hardened, rope-like scars or form tunnels under the skin (called sinus tracks) that can be disfiguring and make movement difficult. As time goes by, the skin lesions occur more often and get worse over time.

In most cases, the cause of HS is unknown. Genetics, environment, and hormonal factors may play a role. Some cases of HS have been associated with specific genes, including NCSTN, PSEN1, and PSENEN. Diagnosis of HS is made based on the clinical symptoms. Treatment of HS is determined by the severity of the symptoms and can include topical or oral antibiotics, anti-inflammatories, other medications, and surgery. Losing weight and stopping smoking can also improve the symptoms. HS causes chronic pain, significant scarring, and can be socially isolating, but is not life-threatening. People with HS have an increased chance to feel depressed or anxious, which, along with chronic pain, may impact their quality of life.

This type of lupus is a skin disease that can affect people with or without SLE. “Cutaneous” means “skin.” Symptoms may include rashes, hair loss, swelling of the blood vessels, ulcers, and sun sensitivity. To find out if you have cutaneous lupus and what kind it is, your doctor will remove a small piece of the rash or sore and look at it under a microscope.

There are two major kinds of cutaneous lupus:

• Discoid lupus erythematosus (DLE). A discoid rash usually begins as a red raised rash that becomes scaly or changes color to a dark brown. These rashes often appear on the face and scalp, but they may affect other areas. Many people with DLE have scarring. Sometimes DLE causes sores in the mouth or nose. If you have DLE, there is a small chance that you will later get SLE.
• Subacute cutaneous lupus erythematosus causes skin lesions that appear on parts of the body exposed to sun. These lesions do not cause scars.

Introduction

Lupus erythematosus is a multisystem disorder that predominantly affects the skin. There are several types of cutaneous lupus. The most common types are acute cutaneous lupus (ACLE), subacute cutaneous lupus (SCLE), and discoid lupus (DLE). Dr. James Gilliam described the most commonly used classification of cutaneous lesions in lupus erythematosus. Gilliam segregated skin lesions into those that are specific and those that are not specifically based upon whether an interface dermatitis was seen on histopathologic examination. Within the category of specific cutaneous lesions, he subdivided these into acute cutaneous lupus erythematosus, subacute cutaneous lupus erythematosus, and chronic cutaneous erythematosus.

The most common subset of chronic cutaneous lupus erythematosus is DLE. These patients may or may not report photosensitivity, but lesions are frequently photo distributed and tend to have secondary atrophy or scarring. Most patients with DLE do not have significant systemic disease. DLE can also occur as a manifestation of SLE in approximately 20% of patients. Other less common forms of chronic cutaneous lupus erythematosus include hypertrophic lupus erythematosus, tumid lupus erythematosus, lupus erythematosus panniculitis (LEP or lupus profundus), chilblain LE, oral DLE, as well as DLE lesions on the palms and/or soles.

Etiology

Lupus erythematosus is an inflammatory, connective-tissue disease of generalized autoimmunity characterized by pathogenic autoantibodies and immune complexes, attributed to a loss of immune tolerance. For discoid lupus erythematosus without associated SLE (CDLE), the evidence does not show whether circulating inflammatory cells and autoantibodies are involved in the pathogenesis, but it is evident that the cutaneous inflammatory infiltrates are dominated by Th1, but not Th17, cells in contrast to systemic lupus erythematosus.

Epidemiology

Lupus can occur in all age groups, but DLE occurs more frequently in women in their fourth and fifth decades of life. Twenty-five percent of patients with SLE may develop typical discoid lesions at some point during their illness, and 1% to 5% of patients with discoid lupus may develop SLE.

Ethnicity is also a major risk factor for developing LE, and its effect in some populations is almost as strong as that of gender. SLE prevalence is four-fold higher in African-American women than White-race American women (4 in 1000 versus 1 in 1000). In addition, African-Americans tend to develop the disease at an earlier age and have a higher mortality rate.

Pathophysiology

The pathogenesis of cutaneous lupus erythematosus is multifactorial, with an interplay between genetic and environmental factors. Some contributing environmental factors include ultraviolet radiation (UVR), medications, cigarette smoking, and possibly, viruses. The interaction between these multiple factors triggers an inflammatory cascade of cytokine, chemokine, and inflammatory cell responses. Genes previously associated with SLE are TYK2, IRF5, and CTLA4 and confer an increased risk of developing DLE.

An analysis of 405 patients by Bockle et al. found that smoking is highly associated with discoid lupus erythematosus. Bockle et al. hypothesized that smoking might play a pathogenic role in cutaneous lupus erythematosus variants (DLE, tumid lupus) by inducing apoptosis, stimulating T-cell proliferation, and increasing photosensitivity. Another explanation might be that smoking provokes DNA damage, resulting in the formation of DNA adducts and the production of ds-DNA antibodies. Keratinocytes may also participate in lupus skin damage by increasing the apoptotic rate and the production of proinflammatory cytokines such as IFN-alpha and IL-6 for SLE and IFN-lambda for DLE.

Histopathology

The findings of histopathologic examination in cutaneous lupus vary based on the subtype. Overlap can be seen in the histologic findings among the various clinical phenotypes, particularly ACLE, SCLE, and discoid lesions. In cutaneous LE, basal cell damage (also referred to as vacuolar degeneration, hydropic change, or interface dermatitis) and lymphohistiocytic inflammatory infiltrates are commonly seen. In discoid lupus lesions, periadnexal inflammation, follicular plugging, and hyperkeratosis are primarily seen in addition to the interface dermatitis.Dermal mucinosis along with thickened basement membrane is usually noted.

Examination of the skin for deposits of immunoreactants is called direct immunofluorescence (DIF). DIF of lesional skin can be useful in establishing a diagnosis of cutaneous LE in cases where routine histopathology is equivocal. DIF does not replace routine histologic staining as the method of choice for establishing a diagnosis. In active lesions of DLE, DIF of lesional skin is positive in the majority of cases. The most characteristic DIF finding in cutaneous LE is antibody deposition at the dermal-epidermal junction and around hair follicles. These deposits are typically granular, and they are composed primarily of IgG and/or IgM.

The lupus band test (LBT) is a diagnostic procedure used to detect deposits of immunoglobulins and complement components along the dermo-epidermal junction in patients with lupus erythematosus (LE). LBT can help distinguish systemic lupus erythematosus from chronic lupus erythematosus because, in SLE patients, the LBT is frequently positive in both uninvolved and involved skin, whereas in CLE patients, only the involved skin is positive. The LBT is positive on the lesional skin in 75% of patients. Ideal lesions for LBT for DLE are on the head and neck that have been present for at least a few months.

History and Physical

DLE is the most common form of chronic cutaneous erythematosus and can occur as localized form (80%) with lesions on the face, ears, and scalp or as disseminated DLE (20%) with lesions above and below the neck. The disseminated form of DLE, especially when involving the trunk, is associated with an increased risk of progression to SLE up to 28%.

It is unusual for discoid lesions to present below the neck without lesions also being present above the neck. Occasionally, discoid lesions develop on mucosal surfaces, including the lips, nasal mucosa, conjunctivae, and genital mucosa. Some patients with discoid lesions exhibit a photodistribution. Sun exposure seems to play a role in the development of lesions. However, patients can have discoid lesions on the sun-protected skin, and there is no clear association between sun exposure and their development.

The first morphological sign of DLE is a well-defined, annular erythematous patch or plaque of varying size followed by follicular hyperkeratosis, which is adherent to the skin. By removing the adherent scale, follicle-sized keratotic spikes similar to carpet tacks can be seen (“carpet tack sign”). The lesions slowly expand with active inflammation and hyperpigmentation at the periphery, leaving depressed central atrophy, scarring, telangiectasia, and hypopigmentation. DLE can progress to irreversible scarring alopecia on the scalp. Although uncommon, a squamous cell carcinoma can develop in a longstanding discoid lesion at 2 to 3 percent and is often associated with a poor prognosis.

Patients who present with discoid lesions may have associated arthralgias, but, over time, only approximately 10% to 20% of these patients eventually meet the classification criteria for SLE. Hyperkeratotic plaques that are verrucous are noted in hypertrophic DLE, a rare entity of DLE.

Evaluation

In the evaluation of DLE, the dermatologist should take a directed history, perform a cutaneous examination looking for signs of possible systemic disease. The diagnosis of DLE is made based on clinical features, but histology may be required to confirm the diagnosis.

Autoantibodies to SSA/Ro, SSB/La, U1RNP, histones, and ssDNA, are common in patients with SLE, but they are not disease-specific. There are no other specific autoantibodies to differentiate the subtypes of CLE that are routinely used in practice. One further possible target of auto-antibodies is annexin 1, which has been suggested to play an important role in preventing autoimmune diseases. A recent study found a significantly higher level of anti-annexin 1 antibodies in DLE patients, suggesting that anti-annexin 1 antibodies might be a new diagnostic marker for DLE. Anti-annexin 1 antibodies level in the serum did not correlate with DLE activity.

Treatment / Management

Early treatment of discoid lupus lesions may lead to the total clearing of skin lesions, but treatment failure results in permanent scarring. Hair loss, depressed scars, and pigmentary changes are often disfiguring, particularly in darker-skinned people. Some general measures, such as sun avoidance, avoidance of photosensitizing medications, and liberal application of sunscreen are encouraged because cutaneous lesions are known to be exacerbated by sunlight. Smoking cessation is encouraged, as smoking can increase DLE disease activity. Studies demonstrate a statistically significant decrease in the efficacy of antimalarial medication in individuals who have currently or ever smoked.

Current first-line treatment for DLE consists of photoprotection in conjunction with topical or intralesional corticosteroids and topical calcineurin inhibitors. Chronic DLE lesions that are not responsive to topical therapy or have a widespread disease involvement are candidates for systemic therapy. When DLE is refractory to these measures, other agents with varying degrees of proven efficacy are used. Currently, no medications have been approved specifically, and many of the drugs described in the literature were developed for use in other autoimmune disorders.

Acute exacerbations of DLE are treated with the application of a super high or high potency topical corticosteroid. Clinical improvement is usually observed within 2 weeks of therapy. Treatment can be stopped when lesions are erythema or scale-free (signs of disease inactivity). Cutaneous atrophy is the major adverse effect with chronic use of topical corticosteroids. If the DLE lesion is refractory to high potency topical corticosteroid use for 2 to 4 weeks, alternative therapy with intralesional corticosteroid or topical calcineurin inhibitor should be initiated. Topical calcineurin inhibitors such as tacrolimus 0.1% or 0.03% ointment, pimecrolimus 1% cream are mostly utilized for facial lesions, as they do not cause atrophy. They are more expensive and have a slow onset of action. Clinical improvement is typically noted within 4 weeks of therapy. Low potency topical corticosteroids or topical calcineurin inhibitors are typically used to maintain the DLE lesions in remission once the acute flare resolves. Burning sensation after application that resolves within 1 to 2 weeks is the most common adverse effect of topical calcineurin inhibitors. Topical lesions that do not respond to the above therapy are treated with intralesional triamcinolone acetonide of 0.1 ml (3 to 5 mg/ml strength). Multiple injections into the lesion 1 cm apart should be given. Injections can be repeated every 3 to 4 weeks. If there is no clinical improvement after 2 to 3 injections, alternative treatment should be initiated. Dyspigmentation and atrophy of the skin are the common side effects of intralesional corticosteroids.

Antimalarials are immunotherapeutic and are considered first-line systemic therapy for CLE. Hydroxychloroquine (HCQ) and chloroquine with or without quinacrine are currently utilized in the treatment of DLE. HCQ is preferred over chloroquine due to the lower risk of side effects, specifically retinal toxicity. Quinacrine is known to cause hematological abnormalities. Hydroxychloroquine is usually started at 200 mg/day and increased to 200 mg two times a day in 1 to 2 weeks if there are no side effects. The maximum dose of hydroxychloroquine should not exceed 5 mg/kg of real body weight per day, given its association with retinal toxicity. 6 to 8 weeks of therapy is required to assess the effectiveness. Quinacrine at a dose of 100 mg/day is added to hydroxychloroquine if no clinical improvement is noted with hydroxychloroquine alone. Chloroquine dose should not exceed 2.3 mg/kg of real body weight per day due to the risk of retinopathy. Hydroxychloroquine and Chloroquine should not be utilized together, given the cumulative retinal toxicity. Patients should receive baseline and periodic eye exams while on therapy. Blue-gray discoloration of face, shins, palate, and bleaching of light-colored hair may occur. Quinacrine use may lead to generalized yellow pigmentation of the skin, secretions, and sclera.

Other treatment modalities, such as retinoids, vitamin A analogs with anti-keratinizing and anti-inflammatory effects, are sometimes used in CLE, but documentation in the literature is limited. Topical retinoids such as tretinoin 0.05% cream or tazarotene 0.05% gel are utilized to treat hypertrophic DLE. Topical retinoids are pregnancy category X drugs, and cutaneous irritation is a commonly observed adverse effect. Immunomodulators and Immunosuppressive agents such as methotrexate, systemic retinoids, dapsone, mycophenolate mofetil, azathioprine, intravenous immune globulin (IVIG), cyclophosphamide, and cyclosporine, have all been trialed in the treatment of DLE but thought to be second-line when refractory to other treatments.

Methotrexate at a dose range of 10 to 25 mg/week is utilized for DLE lesions. Clinical improvement is noted within 2 to 4 weeks of use, with the resolution of the lesions in about 6 to 8 weeks. A dose of 5 to 10 mg of methotrexate is given as a test dose to assess if the patient can tolerate the drug. Liver function tests and complete blood count are followed 5 to 6 days after the drug administration to ensure no untoward side effects or intolerance to the medication. The most common side effects are gastrointestinal upset, hepatotoxicity, nephrotoxicity, teratogenicity, pulmonary fibrosis, bone marrow suppression, and oral ulcers. Folic acid supplements daily may minimize gastrointestinal side effects. Mycophenolate mofetil is administered in doses of 1 to 3 gm/day. Gastrointestinal upset, cytopenias, and teratogenicity are some of the side effects of mycophenolate mofetil.

Thalidomide, a potent teratogen, has been used in the treatment of DLE. An early report of its use in treating DLE of 60 individuals treated with 50 to 100 mg per day found complete or marked regression in 54 individuals (90%) with disease relapse in 71% of individuals with medication discontinuation.] Side effects apart from teratogenicity include drowsiness, constipation, rash, edema, xeroderma, peripheral neuropathy, and thromboembolism. Lenalidomide is a thalidomide analog that may also prove useful in the treatment of DLE. Evidence suggests lenalidomide effectively treats DLE and has a less severe side effect profile than thalidomide but may be similarly limited by a tendency to relapse once discontinued. IVIG is given at a 2 g/kg dose and repeated every 4 to 8 weeks. IVIG is expensive, and CLE lesions tend to recur with its use. Headache, renal failure, hypersensitivity reactions, thrombosis, vasculitis, and aseptic meningitis are some of the adverse effects of IVIG therapy.

Differential Diagnosis

Differential diagnoses of DLE include granuloma faciale, tinea faciei, cutaneous tuberculosis, cutaneous leishmaniasis, lymphoproliferative disorders, and sarcoidosis. DLE-induced scarring alopecia can be confused with lichen planopilaris, tinea capitis, and central centrifugal cicatricial alopecia. Hypertrophic DLE may be confused with keratoacanthoma, squamous cell cancer, hypertrophic lichen planus, and prurigo nodularis.

Prognosis

DLE lesions heal with scarring, atrophy, and dyspigmentation, causing more morbidity than mortality. Psychological functioning is affected by DLE lesions. Exacerbations are associated with sun exposure and often occur in spring and summer. Localized DLE involving the scalp may lead to cicatricial alopecia. Generalized DLE is associated with the risk of progression to SLE in about 28 percent. Chronic DLE lesions in about 2 to 3 percent can progress to squamous cell carcinoma, which is usually associated with a poor prognosis. Early detection and treatment of DLE lesions can minimize the associated morbidity.

Complications

DLE and progression to SLE are associated with complications like

• Cicatricial alopecia
• Pancytopenia
• Thromboembolism
• Arthritis
• Myositis
• Hypertension
• Renal failure
• Neuropsychiatric manifestations like seizures, depression
• Pleuropericarditis
• Pancreatitis, mesenteric vasculitis
• Optic neuritis
• Therapy-related adverse effects
• Vitamin D deficiency

Periodic surveillance of DLE lesions and therapy-related side effects is crucial to avoid complications and promote clinical resolution.

Deterrence and Patient Education

Patients should be educated about photoprotection and the possibility of developing skin lesions up to 3 weeks after sun exposure. Using protective clothing and wide-brimmed hats, avoiding sun exposure in peak hours of 10:00 AM to 2:00 PM, generous application of sunscreen with at least sun protection factor of 30 against both UVA and UVB solar light, avoidance of photosensitizing medications, and avoiding outdoor occupations are highly recommended. Cessation of smoking and avoidance of alcohol is encouraged. Educating patients that nicotine interferes with antimalarial therapy uptake and hastens their metabolism helps them understand the rationale behind tobacco cessation. Smoking cessation without nicotine replacement therapy is ideal. Patients are prone to vitamin D deficiency by minimizing sun exposure and sunscreen application; hence, it is recommended to counsel them on annual screening for vitamin D deficiency.

Enhancing Healthcare Team Outcomes

Lupus is best managed by an interprofessional team of healthcare workers because the disorder can affect almost every organ in the body. Besides physicians, the role of the nurse, pharmacist, therapist, social worker, and mental health counselor is vital. The key is to stress the importance of medication compliance. Patients should be educated about the importance of seeking help early when symptoms arise. At the first sign of renal dysfunction, medical help should be sought. Once renal failure is established, the only treatment is transplantation or dialysis. Patients should be told to avoid sunlight, stop smoking, eat healthily and remain active. Women of childbearing age should consult with an obstetrician before getting pregnant. Finally, joining a support group and/or following up with a mental health counselor is highly recommended.

Outcomes

Discoid lupus is an unpredictable and highly variable disorder. While the condition is benign, it can cause devastating complications, often leading to high morbidity and a poor quality of life. The disorder frequently waxes and wanes. The outcome is much improved for patients with only skin and musculoskeletal involvement. The outcomes are worst for patients with CNS and renal involvement. Today, with treatment, there is an 80% survival at ten years, but failure to comply with treatment can lead to early death. At some point in time, the majority of lupus patients will develop hypertension, lipid disorders, diabetes, infections, osteoporosis, and malignancies like lymphomas and liver cancer.

Rosacea is a long-lasting (chronic) skin disease that affects the face, primarily the forehead, nose, cheeks, and chin. The signs and symptoms of rosacea vary, and they may come and go or change over time.

There are three main types of rosacea, categorized by their primary signs and symptoms. Erythematotelangiectatic rosacea causes skin redness and warmth (flushing) and visible clusters of blood vessels (telangiectasia). Papulopustular rosacea causes skin redness, swelling, and pus-filled bumps called pustules. Phymatous rosacea is characterized by thickened skin on the face and an enlarged, bulbous nose (rhinophyma). People with rosacea may feel itching, stinging, or burning sensations in affected areas. Often, the disorder affects the eyes, causing abnormal inflammation of the eyelids and eyes (ocular rosacea). This inflammation can cause dryness, redness, and irritation of the eyes and may affect vision.

Sarcoidosis is a disease that leads to inflammation, usually in your lungs, skin, or lymph nodes. It starts as tiny, grain-like lumps, called granulomas. Sarcoidosis can affect any organ in your body.

No one is sure what causes sarcoidosis. It affects men and women of all ages and races. It occurs mostly in people ages 20 to 50, African Americans, especially women, and people of Northern European origin.

Many people have no symptoms. If you have symptoms, they may include

• Cough
• Shortness of breath
• Weight loss
• Night sweats
• Fatigue

Tests to diagnose sarcoidosis include chest x-rays, lung function tests, and a biopsy. Not everyone who has the disease needs treatment. If you do, prednisone, a type of steroid, is the main treatment.

What causes sarcoidosis?

Your immune system creates inflammation to help defend you against germs and sickness. But in sarcoidosis, inflammation goes off track. It causes the cells in your immune system to form granulomas. Studies suggest that this inflammation might be triggered by infections and certain substances in the environment such as insecticides and mold. And your genes may affect how your immune system reacts to a trigger.

Who is more likely to develop sarcoidosis?

Anyone can develop sarcoidosis, but you are more likely to have it if you:

• Are older, especially if you are over age 55
• Live or work near insecticides, mold, or other substances that may cause inflammation
• Have a close relative who has sarcoidosis
• Take certain medicines, such as some types of HIV medicines and monoclonal antibodies
• Are of African or Scandinavian descent
• Are female

What are the symptoms of sarcoidosis?

Many people who have sarcoidosis have no symptoms, or they may feel unwell but without any obvious symptoms. If you have symptoms, you may have some general symptoms. And you may have other symptoms, which will depend upon which part of the body is affected.

The general symptoms can include:

• Fatigue
• Weight loss
• Swollen lymph nodes
• Depression
• Fever
• Night sweats (heavy sweating during sleep)

The symptoms of sarcoidosis in the lungs can include:

• Wheezing
• Cough
• Shortness of breath
• Chest pain

The symptoms of sarcoidosis in other parts of the body can include:

• Larger than normal liver or spleen
• Jaundice, which can make your eyes or skin yellow
• Nervous system problems, such as:
  • Headache
  • Dizziness
  • Vision problems
  • Seizures
  • Numbness or tingling
• Heart palpitations or an irregular heartbeat (arrhythmia)
• Pain and swelling in the joints
• Skin problems such as rashes and growths under the skin

There is also a set of symptoms that are called Lofgren's syndrome. Some people have Lofgren's syndrome when they first develop sarcoidosis. It usually goes away completely within 2 years. The symptoms of Lofgren's syndrome may include:

• Swollen lymph nodes in your chest, neck, chin, armpits, or groin.
• A rash of small, itchy, or painful bumps called erythema nodosum. The rash is most often on your head, neck, or legs.
• Blurred vision, eye pain or redness, light sensitivity, or watery eyes.
• Joint pain, stiffness, or swelling.
• Fever.

What other problems can sarcoidosis cause?

If untreated, or if the treatment does not work, sarcoidosis can cause serious health problems called complications. Possible complications include:

• Lung problems
• Heart problems
• Hormone problems
• Brain, nerve, or muscle problems
• Kidney problems
• Severe organ damage

How is sarcoidosis diagnosed?

There is no single test that can diagnose sarcoidosis, and its symptoms can be similar to the symptoms of many other conditions. That makes it hard to diagnose. To find out if you have sarcoidosis, your health care provider:

• Will ask about your medical history, including your symptoms, lifestyle, and any other health conditions you may have.
• Will do a physical exam, which may include:
  • Checking your temperature
  • Checking to see if your lymph nodes, spleen, or liver are swollen
  • Listening to your chest with a stethoscope as you breathe in and out
  • Looking for rashes or sores on your body, such as scalp and lower legs
• Will likely order various tests, such as:
  • Chest x-rays
  • A biopsy of the skin, lymph nodes, lungs, or other affected organs
  • Blood tests to check your blood counts, hormone levels, and how well your kidneys are working
  • Other imaging tests

If you are diagnosed with sarcoidosis, your provider may order other tests to look at how sarcoidosis is affecting the body.

What are the treatments for sarcoidosis?

There is no cure for sarcoidosis. The goal of treatment for sarcoidosis is remission, which means you still have the condition, but it does not cause you problems.

You may not need treatment, and sometimes the condition goes away on its own. If you do need treatment, which treatment(s) you get will depend on your symptoms, which organs are affected, and whether those organs are working well. You may be given medicines to:

• Lower inflammation
• Treat an overactive immune response
• Treat joint pain
• Treat skin problems

If you have complications from sarcoidosis, you may need other treatments, such as other medicines, surgery, oxygen therapy, pulmonary rehabilitation, or an implanted cardiac pacemaker or defibrillator.

Whether or not you have symptoms from sarcoidosis, it's important to get regular follow-up care from your provider, make healthy lifestyle changes, and contact your provider if you have any new symptoms.

Sarcoidosis is a condition that develops when groups of cells in your immune system form red and swollen (inflamed) lumps, called granulomas, in various organs in the body. The inflammation that leads to these granulomas can be caused either by infections or by certain things you come into contact with in your environment.

Sarcoidosis can affect any organ. Most often it affects the lungs and lymph nodes in the chest. You may feel extremely tired or have a fever. You may also have other symptoms depending on what organ is affected. Your doctor will diagnose sarcoidosis in part by ruling out other diseases that have similar symptoms.

Not everyone needs treatment. Treatment will depend on your symptoms and which organs are affected. Medicines can help treat the inflammation or lower your body’s immune response. Many people recover with few or no long-term problems. Sometimes the disease causes permanent scarring (fibrosis) in the lungs or other organs and can lead to life-threatening heart or lung problems.

Neurosarcoidosis is the occurrence of sarcoidosis in the nervous system. Sarcoidosis is a chronic inflammatory disorder that primarily affects the lungs, but can also impact almost every other organ and system in the body. It typically occurs in adults between 20 and 40 years of age.

Neurosarcoidosis is characterized by inflammation and abnormal cell deposits in any part of the nervous system—the brain, spinal cord, or peripheral nerves. It most commonly occurs in the cranial and facial nerves, the hypothalamus (a specific area of the brain), and the pituitary gland. It is estimated to develop in five to 15 percent of those individuals who have sarcoidosis.

Weakness of the facial muscles on one side of the face (Bell's palsy) is a common symptom of neurosarcoidosis. The optic and auditory nerves can also become involved, causing vision and hearing impairments. Neurosarcoidosis can cause:

• Headache
• Seizures
• Memory loss
• Hallucinations
• Irritability
• Agitation
• Changes in mood and behavior

Neurosarcoidosis can appear in an acute, explosive fashion or start as a slow, chronic illness. Because neurosarcoidosis manifests in many different ways, a diagnosis may be difficult and delayed.

There is no standard of treatment for neurosarcoidosis. Doctors generally recommend corticosteroid therapy as first-line therapy for individuals with the condition.  Additional treatment with immunomodulatory drugs has benefited some individuals. While the use of corticosteroids and immunosuppressive drugs is effective, these medications also have undesirable side effects.

The prognosis for people with neurosarcoidosis varies. Many with the condition will recover completely; others will have a chronically progressing or on-and-off course of illness.

Your scalp is the skin on the top of your head. Unless you have hair loss, hair grows on your scalp. Different skin problems can affect your scalp.

Dandruff is a flaking of the skin. The flakes are yellow or white. Dandruff may make your scalp feel itchy. It usually starts after puberty, and is more common in men. Dandruff is usually a symptom of seborrheic dermatitis, or seborrhea. It is a skin condition that can also cause redness and irritation of the skin.

Most of the time, using a dandruff shampoo can help control your dandruff. If that does not work, contact your health care provider.

There is a type of seborrheic dermatitis that babies can get. It is called cradle cap. It usually lasts a few months, and then goes away on its own. Besides the scalp, it can sometimes affect other parts of the body, such as the eyelids, armpits, groin, and ears. Normally, washing your baby's hair every day with a mild shampoo and gently rubbing their scalp with your fingers or a soft brush can help. For severe cases, your health care provider may give you a prescription shampoo or cream to use.

Other problems that can affect the scalp include

• Scalp ringworm, a fungal infection that causes itchy, red patches on your head. It can also leave bald spots. It usually affects children.
• Scalp psoriasis, which causes itchy or sore patches of thick, red skin with silvery scales. About half of the people with psoriasis have it on their scalp.

A chronic inflammatory disease of the skin with unknown etiology. It is characterized by moderate ERYTHEMA, dry, moist, or greasy (SEBACEOUS GLAND) scaling and yellow crusted patches on various areas, especially the scalp, that exfoliate as dandruff. Seborrheic dermatitis is common in children and adolescents with HIV INFECTIONS.

The outer covering of the calvaria. It is composed of several layers: SKIN; subcutaneous connective tissue; the occipitofrontal muscle which includes the tendinous galea aponeurotica; loose connective tissue; and the pericranium (the PERIOSTEUM of the SKULL).

Vitiligo causes white patches on your skin. It can also affect your eyes, mouth, and nose. It occurs when the cells that give your skin its color are destroyed. No one knows what destroys them. It is more common in people with autoimmune diseases, and it might run in families. It usually starts before age 40.

The white patches are more common where your skin is exposed to the sun. In some cases, the patches spread. Vitiligo can cause your hair to gray early. If you have dark skin, you may lose color inside your mouth.

Using sunscreen will help protect your skin, and cosmetics can cover up the patches. Treatments for vitiligo include medicines, light therapy, and surgery. Not every treatment is right for everyone. Many have side effects. Some take a long time. Some do not always work.