An evaluation of operative outcome in patients with funnel chest diagnosed by means of the computed tomogram

Quantification of pectus excavatum: Anatomic indices

Pectus excavatum is the most common chest wall deformity in children. The central portion of the chest is displaced posteriorly relative to the remainder of the anterior chest wall. Quantification of defect severity can be performed with multiple imaging modalities or external thoracic measures, but is most commonly quantified by the Haller Index (HI) or Pectus Correction Index (PCI). These two measures provide a measure of the chest based on cross sectional imaging, most commonly CT scans, allowing for standard comparison and definitions of pectus defects. The purpose of this article is to describe the creation, calculation, and limitations of the methods quantifying pectus defects.

Radiologic factors related to double-bar insertion in minimal invasive repair of pectus excavatum

BACKGROUND

Pectus excavatum is the most common congenital chest wall deformity, with a high incidence in live births. This study aimed to evaluate the measured factors on CT images related to the number of pectus bars for surgical correction.

METHODS

A total of 497 patients who had undergone minimally invasive repair between April 2007 and July 2011 were classified into single-bar (n=358) and double-bar (n=139) insertion groups. We measured eight distinct distances and one angle on CT scans to reflect quantitative assessment. Univariate analysis and multivariate logistic regression analysis were performed to detect statistically significant association between radiologic measurements and the pectus bars required.

RESULTS

After adjusting for age and gender, the transverse distance (T), the transverse distance of the depression area (A), the inclined distance of the depression area (B), the AP distance of the depression area (C), the depression angle (G), and the eccentric distance of deformity (E) were significantly correlated with double-bar insertion. The regression model showed that age (P<0.0001), gender (P<0.0001), depression angle (G) (P<0.0001), direction of the depression (DD) (P<0.0001) and depression depth (D) (P<0.0001) were significantly associated with double-bar insertion.

CONCLUSION

CT scan provides useful factors which can be of assistance in predicting the number of pectus bars for the surgical correction of pectus excavatum.

Variation of the Anthropometric Index for pectus excavatum relative to age, race, and sex

OBJECTIVES

To determine possible variations in the Anthropometric Index for pectus excavatum relative to age, race, and sex in individuals free of thoracic wall deformities.

METHODS

Between 2002 and 2012, 166 individuals with morphologically normal thoracic walls consented to have their chests and the perimeter of the lower third of the thorax measured according to the Anthropometric Index for pectus excavatum. The participant characteristics are presented (114 men and 52 women; 118 Caucasians and 48 people of African descent).

RESULTS

Measurements of the Anthropometric Index for pectus excavatum were statistically significantly different between men and women (11-40 years old); however, no significant difference was found between Caucasians and people of African descent. For men, the index measurements were not significantly different across all of the age groups. For women, the index measurements were significantly lower for individuals aged 3 to 10 years old than for individuals aged 11 to 20 years old and 21 to 40 years old; however, no such difference was observed between women aged 11 to 20 years old and those aged 21 to 40 years old.

CONCLUSION

In the sample, significant differences were observed between women aged 11 to 40 years old and the other age groups; however, there was no difference between Caucasian and people of African descent.

Thoracic deformity and hiatal hernia (intrathoracic stomach) in the elderly

PURPOSE

The incidence of hiatal hernia (HH) increases with age. Vertebral fracture, kyphosis, and pulmonary emphysema are suspected as possible causes. We aimed to analyze the relationship between thoracic deformities and HH in the elderly, using a deformity index.

MATERIALS AND METHODS

The study participants comprised 427 inpatients at a long-term-care hospital for the elderly in Japan. The Haller index (HI) was calculated on the transverse thoracic computerized tomography images according to the following formula: transverse diameter of the thorax/anterior-posterior diameter of the thorax. HH was diagnosed when an intrathoracic stomach was seen on the computed tomography images.

RESULTS

The average HI calculated for all cases and for women--but not for men--decreased with increasing age. HH was diagnosed in 21 patients (4.9%). The incidence of HH in women was higher than in men (male vs. female = 2.0% vs. 7.4%). The mean value of HI in the HH patients (1.651 ± 0.251) was significantly lower than that in non-HH patients (2.345 ± 0.460).

CONCLUSIONS

Enlargement of the anterior-posterior diameter of the thorax occurs in the elderly and is associated with the occurrence of HH.

Thirty years' experience of open-repair surgery for pectus excavatum: development of a metal-free procedure

OBJECTIVE

Throughout the history of surgery for pectus excavatum (PE), the Nuss procedure and open repair have been performed with many modifications, with most of these procedures using a metal bar. However, the use of a metal bar has several drawbacks. Thus, we aimed to develop a procedure that did not require a metal bar.

METHODS

Through our experience of 426 pediatric cases that underwent various procedures for open repair of PE at Nagoya City University, we arrived at the current procedure that we describe herein. We have evaluated this procedure by review of clinical results and deformity indices (Haller's, steepness, excavation volume, and asymmetry index).

RESULTS

The latest and current procedure that supports the sternum with a bridge constructed by the 4th or 5th costal cartilages is associated with fewer complications, a lower re-operation rate, and striking improvement in the indices examined.

CONCLUSIONS

Our current open-repair procedure that does not require a metal bar is recommended for correction of deformities of PE in children.

Cardiovascular magnetic resonance in patients with pectus excavatum compared with normal controls

PURPOSE

To assess cardiothoracic structure and function in patients with pectus excavatum compared with control subjects using cardiovascular magnetic resonance imaging (CMR).

METHOD

Thirty patients with pectus excavatum deformity (23 men, 7 women, age range: 14-67 years) underwent CMR using 1.5-Tesla scanner (Siemens) and were compared to 25 healthy controls (18 men, 7 women, age range 18-50 years). The CMR protocol included cardiac cine images, pulmonary artery flow quantification, time resolved 3D contrast enhanced MR angiography (CEMRA) and high spatial resolution CEMRA. Chest wall indices including maximum transverse diameter, pectus index (PI), and chest-flatness were measured in all subjects. Left and right ventricular ejection fractions (LVEF, RVEF), ventricular long and short dimensions (LD, SD), mid-ventricle myocardial shortening, pulmonary-systemic circulation time, and pulmonary artery flow were quantified.

RESULTS

In patients with pectus excavatum, the pectus index was 9.3 ± 5.0 versus 2.8 ± 0.4 in controls (P < 0.001). No significant differences between pectus excavatum patients and controls were found in LV ejection fraction, LV myocardial shortening, pulmonary-systemic circulation time or pulmonary flow indices. In pectus excavatum, resting RV ejection fraction was reduced (53.9 ± 9.6 versus 60.5 ± 9.5; P = 0.013), RVSD was reduced (P < 0.05) both at end diastole and systole, RVLD was increased at end diastole (P < 0.05) reflecting geometric distortion of the RV due to sternal compression.

CONCLUSION

Depression of the sternum in pectus excavatum patients distorts RV geometry. Resting RVEF was reduced by 6% of the control value, suggesting that these geometrical changes may influence myocardial performance. Resting LV function, pulmonary circulation times and pulmonary vascular anatomy and perfusion indices were no different to controls.

Evaluation of the Nuss procedure using pre- and postoperative computed tomographic index

BACKGROUND

Objective assessment of the chest in patients with pectus excavatum after the Nuss procedure has not been published. This study evaluated the results of the Nuss procedure using computed tomographic (CT) index (CTi).

METHODS

We have performed the Nuss procedure in 382 patients since 1998, and 150 patients who underwent bar removal were included in this study. Computed tomographic scans were obtained before the Nuss procedure and after bar removal, and then preoperative CTi (pre-CTi) and postoperative CTi (post-CTi) were calculated. Computed tomographic scans of 62 age-matched patients without chest deformity were collected as controls. Patients were divided at 10 years of age into the younger and older groups, and groups with mild and severe deformity were defined using a pre-CTi value of 5 as border. These CT indices were compared and statistically analyzed.

RESULTS

Mean pre-CTi in all cases was 5.97 +/- 3.31 and improved to 3.08 +/- 0.64. Postoperative CTi was not significantly different from that of the control (2.47 +/- 0.32, P = .17). In the group with mild depression, pre-CTi was 4.15 +/- 0.62, and post-CTi was 2.88 +/- 0.50. Preoperative CTi in the group with severe deformity (7.44 +/- 3.82) improved to 3.25 +/- 0.69. Postoperative CTi values between the severe and mild groups were not significantly different (P = .75). Computed tomographic index of the young group improved from 6.20 +/- 3.58 to 2.93 +/- 0.49 and in older group from 5.50 +/- 2.64 to 3.40 +/- 0.79. These 2 post-CTi values were not significantly different (P = .73).

CONCLUSION

Postoperative CT scan could provide objective evaluation of sternal elevation. Mean CTi after the Nuss procedure was statically equivalent to that of the control cohort. Good sternal elevation can be achieved with the Nuss procedure regardless of the severity of chest depression or age.

Aesthetic treatment of pectus excavatum: a new endoscopic technique using a porous polyethylene implant

BACKGROUND

Pectus excavatum is the most frequent malformation of the rib cage. Functional aspects associated with this malformation often are absent even in adults not involved in competitive sports activities. Overall, these patients often live with extreme psychological discomfort when the malformations are minor. Traditionally, the correction of these malformations has been geared toward interventions that modify the architecture of the rib cage. However, all these interventions, even the most recent, involve considerably invasive major surgery. In fact, optimal results are not always achieved with corrective surgery using the insertion of silicone prosthesis, and patients often experience complications.

METHODS

To correct intermediate and modest pectus excavatum in a stable manner and with the least amount of invasiveness, the authors developed a camouflage technique that uses porous prostheses made from high-density linear polyethylene. This material is generally used for reconstruction of the brain case. Between February 2001 and March 2006, in the I Unit of Plastic Surgery of the authors' Institute, 11 adult pectus excavatum patients with no previous cardiorespiratory symptoms underwent the authors' surgical technique. The average patient age was 29 years.

RESULTS

Surgical repair was successful in all cases, and the average hospital stay was short. There were no complications during the follow-up period. The described approach repairs nonfunctional pectus excavatum in the adult with satisfying aesthetic and stable results, short hospital stay, and high patient popularity ratings.

CONCLUSIONS

The best therapeutic option for pectus excavatum, especially with intermediate or moderate severity, is still controversial: thoracic surgery or camouflage surgery with implant? Trying to address those issues we propose a new technique by a multidisciplinary, not aggressive approach using a high density linear polyethylene implant and Omentus flap and the early analysis of our data.

Anthropometric index for Pectus excavatum

BACKGROUND

Pectus excavatum (PEX) is a depression of the sternum in relation to the costal cartilages. Clinical and objective measures for classifying the defect are rare and difficult to apply. The present study aimed to create an anthropometric index (AI) for PEX as a method for diagnosis and for preoperative and postoperative assessment by comparing it to the Haller index (HI) and to the lower vertebral index (LVI).

METHODS

From December 2001 to February 2004, 2 groups of patients were studied at our institution: a) 30 patients with normal configuration of the thoracic cage, upon physical examination; b) 20 patients with PEX. The latter underwent surgery according to the Ravitch technique modified by Robicsek, and they were evaluated in the postoperative period. All patients were assessed by means of the AI (clinical), HI (tomographic), and LVI (radiographic) measures at the level of deepest deformity in the case of the PEX patients, and in the distal third of the sternum in the normal patients. The patients who had undergone surgery were once again measured between the 60th and the 80th postoperative days.

RESULTS

There was a high correlation between the AI and the HI (80% P < .001) and between the AI and the LVI (79% P < .001). The accuracy of the 3 indices was similar, in that the following cut points were established: AI = 0.12, HI = 3.10, and LVI = 0.25. Upon analyzing the preoperative results, we verified that for the 3 indices, over 75% of the patients with pectus excavatum were above the cut points and were confirmed as having the defect. In the postoperative results, the value of the indices found below the cut point was considered within the normal standard, and this occurred in 100% for the AI, in over 50% for the HI, and in 50% for the LVI.

CONCLUSIONS

The AI allowed adequate measurement of the defect, maintaining a) a high correlation with the HI and the LVI and a high accuracy, similar to the already acknowledged and published indices and b) an efficient comparison between the preoperative measurement and the postoperative results.

Radiological assessment of children with pectus excavatum

OBJECTIVE

To assess what degree of chest wall deformation changes statistically reliably after surgery, using pre- and postoperative radiological examination data.

METHODS

Radiological chest examinations were performed for 88 children before and after remedial operations. Pre- and postoperative chest radiograph and CT were performed to measure transversal chest width; sagittal left chest side depth, sagittal right chest side depth, sternovertebral distance and vertebral body length. Derivative indices were also estimated: Vertebral index (VI), Frontosagittal index (FI), Haller index (HI) and asymmetry index. Computerized assessment of data was used. For statistical analysis, the software "Statistica 6.0" was used.

RESULTS

Postoperatively VI increased approximately by 2.37+/-2.72, FI decreased by 4.60+/-4.34 and HI value increased approximately up by 0.45+/-0.49. Statistically significant deformation index difference before and after surgery was not detected when VI was below 26.2 (p=0.08), FI was above 32.9 (p=0.079) and HI was less than 3.12 (p=0.098).

CONCLUSION

Preoperative CT and X-ray assessment of chest wall deformation degree is important for pediatric patients. The following deformation indices are indications for surgical treatment: VI>26, FSI< 33 and HI>3.1.

Long-term changes in bone and cartilage after Ravitch's thoracoplasty: findings from multislice computed tomography with 3-dimensional reconstruction

BACKGROUND/PURPOSE

The aim of the study was to evaluate the long-term changes in the bones, cartilage, and chest wall contour after a Ravitch's thoracoplasty (RTP) using multislice computed tomography with 3-dimensional reconstruction (3D-MSCT).

METHODS

Between 1985 and 2000, 114 patients with pectus excavatum (PE) underwent RTP in our hospital; 3D-MSCT was performed in 36 patients 4 to 18 years after the initial operation. Twenty-four patients with PE with no surgical intervention were enrolled as a control group.

RESULTS

Partial or complete calcification of the regenerated cartilage was found in 23 (64%) of the patients. Threadlike regenerated cartilage or the complete absence of some segment was seen in 14 cases (39%). Clubbing of the bony end was found in 23 cases (64%). Shortening of the gap between the rib end and the sternum (n = 17, 47%) and "constrict-in" of the ribs (n = 13, 36%) were common after RTP. In the control group, no significant bone or cartilage change occurred compared to the RTP group.

CONCLUSIONS

Modern 3D-MSCT technology can clearly depict the cartilage and bone in patients with PE. More than 60% of the patients with PE showed significant long-term changes in the bone and cartilage after RTP. Further studies are warranted to evaluate the impact of these abnormal findings.

Classification of the dysmorphology of pectus excavatum

BACKGROUND/PURPOSE

To describe the dysmorphology of pectus excavatum, the most common congenital chest wall anomaly.

METHODS

A stratified sample of 64 patients, representative of a patient population with pectus excavatum of the Children's Hospital of King's Daughters in Norfolk, VA, was described and classified. The sample was stratified by sex to represent a 4:1 male-to-female ratio. The sample was further stratified to represent categories of age (3-10, 11-16, and 17 years and older). Preoperative photos and baseline chest computed tomography scans were examined and categorized according to the chief criteria, including asymmetry/symmetry of the depression, localized vs diffuse morphology, sternal torsion, cause of asymmetric appearance, and the length of the depression.

RESULTS

Useful morphologic distinctions in pectus excavatum are localized depressions vs diffuse depressions, short and long length, symmetry, sternal torsion, slope/position of absolute depth, and unique patterns such as the horns of steer depression.

CONCLUSIONS

These classifications simplify the diagnosis of pectus excavatum, aid in corrective surgery, and should improve correlation of phenotype and genotype in future genetic analysis.

CINE-MRT des Thorax bei Patienten mit Pectus excavatum

BACKGROUND

Morphologic and dynamic assessment of respiratory chest kinetics was performed in patients with pectus excavatum deformity (PE) using dynamic MRI: cine MRI.

MATERIAL AND METHODS

Seven consecutive patients with PE (aged 20.3 years+/-4.0) and ten healthy volunteers of comparable age underwent real-time cine MRI of the chest during breathing on a 1.5 T MR scanner (Magnetom Sonata, Siemens Medical Systems, Erlangen, Germany) using a standard phased array body coil and a half-Fourier single-shot turbo spin echo sequence (HASTE) for dynamic imaging. During deep inspiration and expiration, single-shot sequences were performed in one slice level over 20 s at a frequency of 1 image/s covering the entire thoracic cage in three orientations. Morphology and chest kinetics in patients with PE were analyzed and compared with normal values, and typical patterns of chest kinetics were noted.

RESULTS

Three different types of chest morphology in PE were identified: (1) the generally flattened thoracic cage, (2) the "tilted" sternum, and (3) the focally deepened sternum. Three patterns of motion correspond to these morphological types: (1) elevation of the sternum and the anterior thoracic wall, (2) angulated elevation of the parasternal rib cage with persistent deepening of the sternum resembling a "wing beat" movement, and (3) increased diaphragmatic movements with limited chest wall dynamics.

CONCLUSIONS

Cine MRI is an adequate radiation-free diagnostic modality for the dynamic imaging of both chest morphology and chest wall kinetics in patients with PE. The pectus severity index can easily be determined and three typical movement patterns of chest wall kinetics identified.

Analysis of the Nuss Procedure for Pectus Excavatum in Different Age Groups

BACKGROUND

The Nuss procedure is a newly developed operative method for minimally invasive repair of pectus excavatum in pediatric patients. However, the surgical indication for this procedure has been extended into adult patients. The aim of this study was to assess the surgical outcome of the Nuss procedure in different age groups and to analyze its feasibility in the adult population.

METHODS

From December 1999 to March 2003, 51 patients (40 males and 11 females) with pectus excavatum underwent the Nuss procedure. We classified patients into three groups based on age (pediatric, adolescent, and adult), retrospectively analyzed demographic, intraoperative and postoperative data, and compared outcomes among each group.

RESULTS

Mean operation time was 52.0 +/- 22.9 minutes, 80.4 +/- 27.4 minutes, and 127.3 +/- 44.9 minutes in the pediatric, adolescent, and adult groups, respectively (p < 0.001). Postoperative complications occurred in 3 of 27 patients (11.1%) in the pediatric group and in 7 of 12 patients (58.3%) in both the adolescent and adult groups (p = 0.002). Reoperations were performed due to complications in 1 of 27 patients (3.7%) in the pediatric group, 2 of 12 patients (16.6%) in the adolescent group, and 5 of 12 patients (41.7%) in the adult group (p = 0.001).

CONCLUSIONS

The Nuss procedure is highly recommended in pediatric patients with pectus excavatum. However, in adults it is necessary to select patients carefully because of the longer operation time and higher incidence of complications associated with the procedure in this population.

Índice antropométrico para classificação quantitativa do pectus excavatum

INTRODUÇÃO: O pectus excavatum caracteriza-se por uma depressão do esterno e das cartilagens para-esternais inferiores. Medidas clínicas para classificar essas depressões são poucas e de difícil aplicação. OBJETIVO: Criar medidas clínicas para quantificar a deformidade e poder comparar os resultados entre os períodos pré e pós-operatório. MÉTODO: Dez pacientes portadores de pectus excavatum, foram operados utilizando-se a técnica de Robicsek modificada pelo grupo de Cirurgia Torácica do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo, sendo também medidos clínica e radiologicamente nos periodos pré e pós operatõrio. Dez pacientes controles que não apresentavam anormalidades torácicas clínicas e ou radiológicas foram medidos da mesma forma. O defeito foi avaliado no nível do manúbrio e da maior deformidade através do índice antropométrico e do índice de Haller. RESULTADOS: A análise multivariada para as médias do índice antropométrico mostrou diferenças significativas entre o pré operatório e o grupo controle e entre as médias do pré e do pós operatório, e diferença não significativa entre o pós operatório e o grupo controle. A mesma análise, aplicada às médias do índice de Haller, demonstrou os mesmos resultados. O estudo pareado entre as médias do pré e do pós operatório mostrou tratarem-se de grupos diferentes. A correlação canônica evidenciou que o índice antropométrico e o índice de Haller têm correlação de 86%. CONCLUSÃO: Pacientes portadores de pectus excavatum podem ter a deformidade quantificada através de medidas do índice antropométrico no pré e no pós operatório, as quais permitem uma avaliação objetiva e comparativa dos resultados, e são de fácil realização.

Breath-hold MRI in evaluating patients with pectus excavatum

Pectus excavatum (PE) is a congenital condition in which the sternum is displaced posteriorly with associated changes in the adjacent costal cartilages. The aetiology of PE is uncertain although various underlying abnormalities of the diaphragm have been implicated. There is sparse information regarding the use of fast MRI in evaluating the deformity. Our aims were to use fast MRI to evaluate static and respiratory-related dynamic chest wall characteristics, the extent of cardiac displacement and diaphragmatic excursion in patients. FLASH and TurboFLASH MR sequences in axial and coronal planes were performed on the thoraces of six young patients with PE and six individually matched healthy controls during full inspiratory and full expiratory breath-holds. The Pectus Index was derived from chest wall measurements using axial images. The distances of the left and right cardiac borders from the midline were measured using axial images, and excursion of the dome of each hemidiaphragm was measured using coronal images. The degree of sternal depression worsened substantially in expiration. Anterior chest wall movement was similar in the two groups. Patients had significantly flatter chests than the controls. There was a trend towards leftward cardiac displacement in the patients (maximum distance between left heart border and midline during full expiration 99.5 mm in patients and 91.8 mm in controls). The right diaphragmatic dome excursion was greater than the left in the controls (53.6 mm and 47.4 mm, respectively), but this was not seen in the patients (50.2 mm and 50.4 mm, respectively). It is concluded that fast MRI is very informative in evaluating skeletal abnormalities, chest wall motion, and cardiac and diaphragmatic changes seen in PE.

Severe pectus excavatum associated with cor pulmonale and chronic respiratory acidosis in a young woman

Pectus excavatum has never been reported to cause hypercapnic respiratory failure. In this report, we describe the first such case in a young woman with severe pectus excavatum who presented with chronic respiratory acidosis, pulmonary hypertension, and chronic cor pulmonale. An extensive diagnostic workup failed to uncover any other cause of respiratory acidosis, which led us to conclude that the severe chest wall deformity and the resulting severe restrictive defect were responsible for the development of chronic respiratory acidosis and cor pulmonale.

Imaging of chest wall disorders

Pathologic processes that may involve the chest wall include congenital and developmental anomalies, inflammatory and infectious diseases, and soft-tissue and bone tumors. Many of these processes have characteristic radiologic appearances that allow definitive diagnosis. Sternal deformities can be visualized at radiography and their severity quantified with computed tomography (CT). In cervical rib, CT with multiplanar reconstruction may demonstrate relevant anatomic detail and the relationship between bone deformity and arterial compression. In Poland syndrome, radiography reveals an area of hyperlucency on the affected side, whereas CT demonstrates the absence of the greater pectoral muscle and clearly depicts associated musculoskeletal anomalies. Tuberculosis typically manifests at radiography and CT as osseous and cartilaginous destruction and soft-tissue masses with calcification and rim enhancement. Aspergillosis involving the chest wall manifests as pulmonary consolidations and permeative osteolytic changes of the rib and spine at CT and as an area of increased signal intensity at T2-weighted magnetic resonance (MR) imaging. Neurogenic tumors and hemangiomas also typically have high signal intensity at T2-weighted MR imaging. Apparent mass extension or unequivocal bone destruction seen at CT or MR imaging may indicate chest wall involvement by lymphoma. Radiologically, soft-tissue sarcomas typically appear as areas of soft-tissue density or attenuation, often associated with necrotic areas of low density or attenuation. At radiography, plasmacytoma typically manifests as well-defined, "punched-out" lytic lesions with associated extrapleural soft-tissue masses. Chondrosarcoma frequently appears as a large, lobulated excrescent mass arising from a rib with scattered flocculent calcifications characteristic of its cartilaginous mix. Familiarity with these radiologic features facilitates accurate diagnosis and optimal patient treatment.

Spiral CT with 3D reconstruction in children requiring reoperation for failure of chest wall growth after pectus excavatum surgery. Preliminary observations

Pectus excavatum is the most common congenital chest wall deformity. Extensive corrective surgery prior to age 3 may disturb chest wall growth and result in a constricted thorax. We describe our surgical and radiologic experience with eight such cases, paying particular attention to the role of spiral computed tomography (CT) with 3D reconstruction in patient management. Spiral CT was performed on children who had developed restrictive chest walls following pectus excavatum surgery. These children then underwent a unique operation to elevate the sternum and attempt to correct their restrictive chest wall defects. In several cases, postoperative spiral CT was performed. Spiral CT with 3D reconstruction defined the orientation of the ribs and costal cartilages and their relationship to the sternum, allowing exact preoperative measurement of the bony rib cage and guiding individualized operative correction. Computed thoracic volumes in select cases correlated well with subjective patient reports of increased exercise capacity. Repair of pectus excavatum defects prior to age 3 may result in constrictive thoracic abnormalities. Surgical correction can increase thoracic volume and improve prospects for normal thoracic function. Three-dimensional reconstruction of spiral CT data is useful in both preoperative and postoperative evaluation.

Reconstruction of congenital chest-wall deformities

Pectus deformities and Poland's syndrome are two relatively common congenital deformities of the chest wall that are amenable to reconstruction. The extent of the structural deformity in pectus deformity and the degree of associated cardiopulmonary dysfunction are critical variables in preoperative assessment. The operative approaches range from more extensive sternal eversion to the more popular subperichondrial cartilage resection with or without internal fixation. In Poland's syndrome, the options for reconstruction include anterior transfer of the ipsilateral latissimus dorsi muscle through a transaxillary tunnel and attachment to the clavicle and sternum. Submuscular insertion of a mammary prosthesis can be added in the female patient.