Treatment / Management
Early surgical correction of pectus excavatum was based on the aggressive resection and chest wall reconstruction performed for asphyxiating thoracic dystrophy (Jeune's syndrome). The current trend is to delay the repair until pubertal growth, and the technique is modified to perform limited cartilage resection. Impaired cardiopulmonary function, not cosmesis, is the most common indication for surgical correction. It is pertinent that surgical repair occur after the child's pubertal growth spurt.
The first documented surgical repair of pectus excavatum was performed by Ravitch in 1949. Based on the aggressive chest wall resection used to manage asphyxiating thoracic dystrophy (Jeune's syndrome), Ravitch performed a subperichondrial resection of all deformed costal cartilages and the xiphoid process, along with a transverse sternotomy. Rehbein and Wernicke modified the procedure six years later, implanting a variety of metallic bars longitudinally and/or transversely to stabilize the sternum. This repair can be approached via a median longitudinal incision long the sternum or a submammary skin incision, which is preferable in female patients. Patients return one year later for removal of the implanted bars. Modernization of the Ravitch procedure utilizes orthopedic metal plates and screws. These devices can be modelled specifically to the patient's defect, and don't require a second operative procedure for hardware removal.
The minimally invasive technique described by Nuss and Kelly involves inserting a metal bar under the sternum at the most depressed zone and most everted costal line on both sides of the chest. The retrosternal bar in placed thoracoscopically, via approximately 3cm incisions along the mid-axillary lines. Skin flaps are raised and tennelled up to the previously identified most-everted intercostal spaces. A metal introducer is guided under thoracoscopic guidance to dissect a retrosternal plane between the anterior pericardium and the posterior sternal table. The guide is exteriorized through the left sided incision, in order to be tied to titanium rod and subsequently withdrawn. The retrosternal curve var is rotated such that the concave side is directed backwards, thus pushing the sternum ventrally. Metallic stabilizers and/or subperiostal cable wires are used to prevent migration of the bar. The initial stabilization period was 2 years; however, it is now more common to leave the bar in situ for 3 years.
Additional modifications to both the Ravitch and Nuss procedures have been described. The Leonard modification to Ravitch's procedure entails excision of the lower costal cartilage, leaving the perichondirum in place, after mobilization of the pectoralis muscles. Robicsek describes posterior stabilization of the sternum after the transverse osteotomy with fixation of a piece of Marlex mesh to the remnants of costal cartilage. Minimal cartilage resection defines Erlangen's adaptation of the Nuss procedure, with transternal implantation of an elastic metal bar through stitch incisions. Intraoperative tensiometry is utilized to minimize the cartilage excision. The magnetic mini-procedure employs magnetic forces between a sternal magnet and another on a prescribed brace worn by the patient to pull the sternum anteriorly. This modification described by Lacquet is the only technique that avoids the use of prosthetic material, correcting the defect with a sternochondroplasty. This procedure appears to offer results superior to the Nuss procedure for asymmetric defects.
The application of negative pressure to the thorax offers a non-surgical alternative to pectus excavatum. A vacuum bell is applied to the chest wall defect and negative pressure applied by the patient via a handpump. While long term results are lacking, this may be a viable option for the management of less severe defects in the future. Additionally, this therapy would be applicable in younger symptomatic patients, in which prepubertal surgical correction is not desired.
Complications
Minor pectus excavatum defects are usually asymptomatic, thus without complications. More severe defects can, however, negatively impact cardiopulmonary function, presenting with variety of symptoms:
Complications are more commonly appreciated in patients who undergo surgical correction of the defect:
Overall morbidity and length of stay are comparable for Ravitch and Nuss procedures, according to a recent meta-analysis. However, the incidence of postoperative hemothorax, pneumothorax, and return to OR rates are higher with the Nuss procedure. The comparison done by Antonoff et al included the Ravitch, Nuss, and Leonard procedures. The analysis clearly demontrated increased LOS, costs, narcotic use, and complications with the Nuss cohort. Subjectively, the Nuss and Ravitch procedures appear to be comparable, based on similar health-related quality-of-life (HRQL) outcomes.
Enhancing Healthcare Team Outcomes
Overall, congential chest wall defects are rare. As the most common defect, pectus excavatum can be appreciated on physical examination by health care providers at every level. Pediatricians are well equipped to follow these patients, and determine the need for comprehensive cardiopulmonary assessment. There is a misconception that pectus chest wall deformities are merely cosmetic defects, even in the absence of abnormal pulmonary function and cardiac testing. Asymptomatic patients or those with minor defects may not need any treatment, be offered physical therapy consultation, or can be considered for negative pressure therapy. Surgical (pediatric or cardiothoracic) consultation should be sought for all patients with a Haller Index of 2.5 or greater, as well as for patients with concomitant cardiac defects that need surgical repair or decreased pulmonary reserve. Regardless of the Haller index measure, impaired cardiopulmonary function is an indication for surgical correction. Surgical correction of the funnel chest attributed to a pectus excavatum defect significant improves pulmonary function at rest and VO2 max in cases in which the Hallex index measures greater than 3.2. Subjective improvements tracked my quality measurements have also been attributed to operative correction. (Level I, II, IV, V)