BACKGROUND/PURPOSE: Since the introduction of the closed technique for repair of pectus excavatum, increasing numbers of patients are presenting for surgery. However, controversy exists regarding the effects of repair on long-term cardiopulmonary outcome. This report details the effects over time of closed repair of pectus excavatum on pulmonary function, cardiac function, exercise tolerance, and the patient's perception of appearance and subjective ability to exercise. METHODS: All patients undergoing closed repair of pectus excavatum were evaluated prospectively. Preoperative computed tomography scan, static pulmonary function studies, exercise tolerance, and echocardiographic evaluation of cardiac function were done. Studies were repeated at 3 and 21 months post-bar placement, and then 3 months after bar removal. RESULTS: Pre- and postoperative data were available for an initial 48 patients, with 11 patients completing the full evaluation after bar removal. All measures of pulmonary function including forced expiratory volume in 1 second and forced vital capacity were reduced at 3 months postoperation, with a gradual increase during follow-up; however, pulmonary function remained below normative values for patients without pectus excavatum of similar age. Cardiac function as measured by cardiac output and index was increased at 3 months postoperation and maintained thereafter. Exercise tolerance declined initially and then increased by the 21-month evaluation point and after bar removal. Patients reported a subjective improvement in the ability to exercise immediately after bar insertion. CONCLUSIONS: These results corroborate previous studies which suggested that after closed repair of pectus excavatum there is an immediate subjective improvement in the ability to exercise which is paralleled by an improvement in cardiac output. However, there is an early postoperative decline in pulmonary function which does improve over time; however, this does not reach normal values for similar weight. Further studies are needed to determine whether these results are maintained, or whether after bar removal there is a further improvement in pulmonary status. These results do support the use of the closed repair of pectus excavatum for maintaining and possibly improving cardiopulmonary function in this patient population.

Glucagon-like peptide-2 (GLP-2) is an enteroendocrine hormone which is uniquely trophic for the intestine; a physiological role in regulating nutrient absorptive capacity is becoming apparent. GLP-2, independent of enteral feeding, stimulates a classical pattern of intestinal adaptation in terminal ileum following resection. Herein we investigate the effects of GLP-2 on the jejunal remant using a rat model of short bowel syndrome (SBS). Juvenile 250- to 275-g SD rats underwent 80% distal small bowel resection, leaving 20 cm of proximal jejunum and venous catheterization. Animals were maintained with total parenteral nutrition (TPN) or TPN+10 microg/kg/hr GLP-2 (n=8 per group). After 7 days, intestinal permeability was assessed by urinary recovery of gavaged carbohydrate probes. Animals were euthanized, and the intestines taken for analysis of morphology, crypt cell proliferation, apoptosis, and expression of SGLT-1 and GLUT-5 transport proteins. GLP-2 treatment reduced intestinal permeability and increased in vivo glucose absorption, small intestinal weight, surface area, villus height, crypt depth, and microvillus height. Intestinal mucosal DNA and protein content per unit length of the small bowel were increased (P < 0.05 for all comparisons). However, in contrast to previous studies examining GLP-2's effects on remnant ileum, the jejunal crypt apoptotic index was increased in GLP-2-treated animals, with no increase in SGLT-1 or GLUT 5 expression. These results show that exogenous GLP-2 treatment of animals with jejunal remnant reduces intestinal permeability, increases glucose absorption, and stimulates morphological features of intestinal adaptation including increased micovillus height and surface area. However, the pattern of changes seen is different from that in remnant ileum. This suggests that GLP-2's effects are specific to different regions of the bowel. Nonetheless, remnant jejunum is responsive to GLP-2 in the absence of enteral nutrition. Further studies are warranted to establish the mechanisms of action and therapeutic potential of GLP-2 in modulating nutrient absorptive capacity.

PURPOSE: The authors report the use of absorbable mesh closure with subsequent skin graft or skin flap coverage for giant ruptured omphalocele. METHODS: Retrospective review of a single surgeon's experience was conducted from 1996 through 2001. RESULTS: Four infants were identified presenting an average of 4 weeks prematurely. All patients had an initial attempt at silo reduction but had either infection or respiratory compromise. The silo was removed, and the defect was covered with polyglycan mesh followed by subsequent skin coverage. In 2 patients, final coverage was obtained using skin flaps, whereas in 2 patients, split-thickness skin grafts were required. All patients were noted to have a distinct narrow chest contour with evidence of pulmonary hypoplasia. Three patients had respiratory failure requiring tracheostomy and prolonged ventilation. Two children were decannulated after one and 2 years, respectively; the third child is booked for decannulation at age 12 months. Although these children have required multiple reoperations, they are all presently doing well with an average of 4 years of follow-up. CONCLUSIONS: Patients with giant omphalocele have associated pulmonary hypoplasia, which limits the ability to reduce the abdominal contents. Absorbable mesh coverage followed by split-thickness skin graft or skin flap coverage provides a viable biological coverage and minimizes ongoing pulmonary morbidity. The authors recommend a minimally aggressive attempt at sac reduction in the initial treatment of giant omphalocele and, if necessary, the use of absorbable mesh as a staged coverage with subsequent split-thickness skin grafting to minimize the pulmonary effects of the abdominal operation. Copyright 2003 Elsevier Inc. All rights reserved.