Minimally invasive repair of congenital diaphragmatic hernia

Purpose

Operative approach, including minimally invasive surgery (MIS) in the repair of congenital diaphragmatic hernia (CDH), is variable among institutions. The short-term recurrent hernia rate is not well described. We evaluated the in-hospital recurrence rate of MIS repairs of infants with CDH from the Congenital Diaphragmatic Hernia Registry.

Methods

Prospectively collected data from infants with CDH were analyzed from the Congenital Diaphragmatic Hernia Registry from January 1995 to January 2010. Recurrent hernia was defined as reoperations during initial hospitalization. Operative approaches included abdominal, thoracic, laparoscopic, and thoracoscopic techniques.

Results

Five thousand four hundred eighty infants with CDH were identified, of which 4516 (82.4%) were repaired. Operative data were available in 4390 infants. One hundred fifty-one infants (3.4%) underwent MIS repairs with 12 reported recurrences (7.9%) compared with 114 for open techniques (2.7%, P < .05). Minimally invasive surgery demonstrated a significant increased odds for recurrence (odds ratio, 3.59; 95% confidence interval, 1.92-6.71) after adjusting for gestational age, birth weight, patch repair, and extracorporeal membrane oxygenation.

Conclusion

Minimally invasive techniques appear to have a significant higher recurrent hernia rate, with thoracoscopy being the highest. Although adjusted for patch repair, other factors with regard to disease severity may contribute to differences in outcomes among centers. This study is limited to short-term recurrence during initial hospitalization.     

Thoracoscopic patch repair of a right-sided congenital diaphragmatic hernia in a neonate

Purpose  Minimally invasive techniques continue to expand in pediatric surgery; however, there has been some debate over the appropriate operative technique for the management of congenital diaphragmatic hernias in neonates [1–3]. We present a video of a thoracoscopic patch repair of a right-sided Bochdalek congenital diaphragmatic hernia (CDH) in a 3-day-old male. Methods  Our patient was noted to have a right-sided CDH on chest X-ray following respiratory distress at the time of birth. The patient’s remaining neonatal workup also confirmed hypoplastic transverse aortic arch with coarctation, ventricular septal defect (VSD), and patent ductus arteriosus, which were initially diagnosed by prenatal ultrasound. After monitoring the patient for hemodynamic stability and discussion with the family and involved pediatric cardiothoracic surgeons, the decision was made to proceed with a thoracoscopic repair of the CDH. Results  The large right-sided CDH was noted to involve herniated small bowel, colon, and liver. The diaphragmatic defect was successfully repaired thoracoscopically using a 5 × 5 cm polytetrafluoroethylene (PTFE) patch. The patient was extubated on the second postoperative day and ultimately underwent aortic arch augmentation, VSD closure, and patent ductus arteriosus ligation and division at 1 month of age. There has been no evidence of CDH recurrence in follow-up. Conclusions  As demonstrated by our video, large right-sided congenital diaphragmatic hernias requiring patch repair can be successfully repaired thoracoscopically with appropriate surgeon comfort and experience. This minimally invasive approach may also be used in neonates with associated cardiac defects with appropriate cardiothoracic surgical consultation and support. To our knowledge this is the first reported case of a thoracoscopic repair of a Bochdalek (posterolateral) hernia with a prosthetic patch in a neonate with significant congenital cardiac anomalies. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Successful thoracoscopic staged repair of bilateral congenital diaphragmatic hernia

Congenital diaphragmatic hernia (CDH) occurs in 1 of every 2000 to 3000 live births and accounts for 8% of all major congenital anomalies. Bilateral hernias account for no more than 1% of all types of CDH; furthermore, they are usually fatal prenatally. Those that survive are identified through a limited number of case reports. We are presenting an unusual case of bilateral CDH hernia in a neonate that was repaired successfully using a staged thoracoscopic approach. To our knowledge, this represents the first case in the world literature of bilateral CDH that was repaired thoracoscopically. In carefully selected patients, appropriate use of disruptive new technologies such as thoracoscopy can be achieved.     

Risk factors for recurrence after thoracoscopic repair of congenital diaphragmatic hernia (CDH)

Purpose

To identify technical modifications concerning factors that may lower the risk of recurrence following thoracoscopic repair of congenital diaphragmatic hernia (CDH).

Beyond feasibility: a comparison of newborns undergoing thoracoscopic and open repair of congenital diaphragmatic hernias

Background

Although both laparoscopic and thoracoscopic repair of congenital diaphragmatic hernia (CDH) have been described in the literature, neither appropriate selection criteria nor improved outcomes for minimally invasive repair over open repair have been clearly delineated.

Methods

We reviewed our experience with neonatal CDH repair between 2004 and 2007 to determine clinical parameters that are associated with successful thoracoscopic CDH repair. We compared these patients to a similarly matched cohort of patients who had undergone an open neonatal CDH repair between 1999 and 2003.

Results

From 2004 to 2007, 20 (61%) of 33 patients underwent successful neonatal thoracoscopic CDH repair. Characteristics common to all patients who underwent successful thoracoscopic repair included absence of congenital heart defects, no need for extracorporeal membrane oxygenation, ventilatory peak inspiratory pressure of less than 26 cmH₂O, and oxygenation index less than 5 on the day of planned surgery. From 1999 to 2003, 40 patients underwent an open neonatal CDH repair, of which 18 (45%) patients would have matched our selection criteria for thoracoscopic repair. These 2 cohorts were similar in age, estimated gestational age, weight, APGAR scores, and oxygenation index at the time of surgery. The thoracoscopic cohort had statistically and clinically significant quicker return to full enteral feeds, had shorter duration on the ventilator postoperatively, and required less narcotic/sedation postoperatively. Less severe complications occurred in the thoracoscopic cohort. Adjusted total hospital charges were less for the thoracoscopic repair.

Conclusions

Successful thoracoscopic CDH repair can be expected in newborns, which has limited respiratory compromise. Thoracoscopic CDH repair is associated with lower morbidity and quicker recovery than traditional open repair and without increased risk of recurrence or complications.     

Minimally invasive versus open repair of Bochdalek hernia: a meta-analysis

Background

Diaphragmatic hernia can be repaired by open or minimally invasive surgery (MIS), although it is unclear which technique has better outcomes. Our objective was to compare the outcomes of these procedures in a systematic review and meta-analysis.

Methods

We sought all publications describing both techniques through MEDLINE, Embase, and CENTRAL. Our primary outcome of interest was recurrence. We conducted statistical analyses using Review Manager 5.2.

Results

We did not identify any randomized controlled trials. Our pooled estimate of results from 10 studies showed that total recurrence was higher after MIS (OR: 2.81 [1.73, 4.56], p < 0.001). Subgroup analyses indicated higher recurrence after MIS for patch repairs (OR: 4.29 [2.13, 8.67], p < 0.001), but not for primary repairs. Operative time was longer for MIS (MD: 55.25 [40.21, 70.28], p < 0.001), while postoperative ventilator time and postoperative mortality were higher after open surgery (MD: 1.33 [0.05, 2.62], p = 0.04; OR: 7.54 [3.36, 16.90], p < 0.001, respectively).

Conclusions

Recurrence rate is higher after MIS than open repair when a patch is used. Operative time is also longer with MIS. Poorer outcomes after open surgery may be a result of selection bias rather than surgical technique. Surgeons should carefully consider the potential morbidity associated with MIS when deciding on a repair method.     

Outcomes after muscle flap vs prosthetic patch repair for large congenital diaphragmatic hernias

Background

Repair of large congenital diaphragmatic hernia (CDH) defects still pose a significant challenge, as the defects cannot be repaired primarily. Two techniques have been widely used: autologous anterior abdominal wall muscle flap and prosthetic patch. The latter has been used more often. Our goal was to compare the short-term and long-term outcomes of these 2 approaches.

Methods

This is a retrospective review of all neonates undergoing CDH repair at our institution from 1969 to 2006.

Results

Of 188 children undergoing surgery for CDH, primary repair could not be accomplished in 51 infants (27%). Nineteen had muscle flap repair, and 32 had prosthetic patch repair (Gore-Tex [W.L. Gore and Associates, Flagstaff, AZ], n = 15; Marlex [Bard Inc, Cranston, NJ], n = 9; Surgisis [Cook, Bloomington, IN], n = 5; SILASTIC [Dow Corning, Midland, MI], n = 3). There was no significant difference in gestational age or birth weight between groups. Three patients developed an abdominal wall defect at the muscle flap donor site, but none required surgical intervention. Chest wall deformities were found in 9 patients, 3 after a muscle flap and 6 after a prosthetic patch (P = .7). Postoperative bowel obstruction occurred in 3 muscle flap patients and 1 patch patient (P = .2). There were 10 recurrences among survivors: 2 after a muscle flap and 8 after a prosthetic patch (P = .3) There were 2 deaths among the muscle flap patients (10%), and 3 deaths among the prosthetic patch repair patients (9%) (P = .1). Results were confirmed after controlling for age and comorbidities between both groups in a multivariate logistic regression.

Conclusion

These results suggest that autologous anterior abdominal wall muscle flap and prosthetic patch repairs provide similar short-term and long-term outcomes.     

Analysis of 29 consecutive thoracoscopic repairs of congenital diaphragmatic hernia in neonates compared to historical controls

Purpose

The applicability of minimally invasive surgical techniques to pediatric surgical diseases continues to grow. Surgeons have hesitated to apply these methods to congenital diaphragmatic hernia (CDH) of Bochdalek because of the disease-associated pulmonary hypertension and patient fragility. We began performing thoracoscopic repair (CDH-T) in 2004 and have since completed 29 sequential repairs. To evaluate feasibility and outcomes, we compared this experience to a historical control group who underwent open repair (CDH-O) at the same institution by the same surgeons from 2001 to 2004.

Methods

From January 2001 through November 2007, 72 neonates were evaluated jointly by the Neonatology and Pediatric Surgical services for CDH. Fifteen infants died before any corrective operation and were excluded from analysis. Demographics including gestational age, birth weight, Apgar scores, percent outborn, usage of extracorporeal life support, and associated anomalies were recorded. End points were complications, additional operative procedures, initial patch closure, recurrence, length of stay in non-extracorporeal membrane oxygenation patients, and postoperative mortality.

Results

Demographic characteristics were similar between the 2 groups. There were no statistically significant differences in complications (71.5% vs 55%, P = .28), additional related operative procedures (42.9% vs 34.5%, P = .59), use of prosthetic patch (42.8% vs 51.7%, P = .60), recurrence (6.9% vs 20.7%, P = .25), length of stay (24 vs 34 days, P = .11), or postoperative mortality (21.4% vs 6.9%, P = .14) between the CDH-O and CDH-T groups, respectively. There was one conversion in the CDH-T group (3.4%).

Conclusions

To our knowledge, this is the largest reported series of CDH-T of neonatal CDH of Bochdalek. We have demonstrated the feasibility of performing this procedure thoracoscopically in an unselected population including children who have undergone prior extracorporeal life support. These results compare favorably with CDH-O, although further follow-up is required to determine the durability of the approach.     

Thoracolaparoscopic repair of diaphragmatic hernias

Complex long-standing diaphragmatic hernia presenting in adults is often managed through an open approach. Minimal invasive approach by either laparoscopy or thoracoscopy is limited by its ability to tackle these complex hernias with large defects and thoraco-mediastinal adhesions. Thus, standard laparoscopic or thoracoscopic approach is associated with high conversion to open approach. We herein describe a novel combined thoraco-laparoscopic approach to repair complex diaphragmatic hernias in a series of three adults.     

Neonatal minimally invasive surgery for congenital diaphragmatic hernias: a multicenter study using thoracoscopy or laparoscopy

Background  Minimally invasive surgery (MIS) for late-presenting congenital diaphragmatic hernia (CDH) has been described previously, but few neonatal cases of CDH have been reported. This study aimed to report the multicenter experience of these rare cases and to compare the laparoscopic and thoracoscopic approaches. Methods  Using MIS procedures, 30 patients (16 boys and 14 girls) from nine centers underwent surgery for CDH within the first month of life, 26 before day 5. Only one patient had associated malformations. There were 10 preterm patients (32–36 weeks of gestational age). Their weight at birth ranged from 1,800 to 3,800 g, with three patients weighing less than 2,600 g. Of the 30 patients, 18 were intubated at birth. Results  The MIS procedures were performed in 18 cases by a thoracoscopic approach and in 12 cases by a laparoscopic approach. No severe complication was observed. For 20 patients, reduction of the intrathoracic contents was achieved easily with 15 thoracoscopies and 5 laparoscopies. In six cases, the reduction was difficult, proving to be impossible for the four remaining patients: one treated with thoracoscopy and three with laparoscopy. The reasons for the inability to reduce the thoracic contents were difficulty of liver mobilization (1 left CDH and 2 right CDH) and the presence of a dilated stomach in the thorax. Reductions were easier for cases of wide diaphragmatic defects using thoracoscopy. There were 10 conversions (5 laparoscopies and 5 thoracoscopies). The reported reasons for conversion were inability to reduce (n = 4), need for a patch (n = 5), lack of adequate vision (n = 4), narrow working space (n = 1), associated bowel malrotation (n = 1), and an anesthetic problem (n = 1). Five defects were too large for direct closure and had to be closed with a patch. Four required conversion, with one performed through video-assisted thoracic surgery. The recurrences were detected after two primer thoracoscopic closures, one of which was managed by successful reoperation using thoracoscopy. Conclusions  In the neonatal period, CDH can be safely closed using MIS procedures. The overall success rate in this study was 67%. The indication for MIS is not related to weeks of gestational age, to weight at birth (if >2,600 g), or to the extent of the immediate neonatal care. Patients with no associated anomaly who are hemodynamically stabilized can benefit from MIS procedures. Reduction of the herniated organs is easier using thoracoscopy. Right CDH, liver lobe herniation, and the need for a patch closure are the most frequent reasons for conversion.     

Long-term functional impact of congenital diaphragmatic hernia repair on children

Background/Purpose

Congenital diaphragmatic hernia (CDH) is a malformation requiring neonatal surgical repair with in-hospital survival rates above 90%. We examined the long-term functional impact of CDH repair on a cross-sectional cohort of survivors.

Methods

A cohort of 53 CDH families participated in this study. Functional impact was evaluated with parent report of the Functional Status IIR and the Child Health Ratings Inventories General Health Module. Parents also provided a clinical severity score, the child's medical history, and family demographic information. The primary outcome was the effect of medical morbidity on the Functional Status IIR total score.

Results

Congenital diaphragmatic hernia survivors had a median age of 8 years; 50% were in third grade or above. Sixty-six percent had major medical issues at hospital discharge, whereas 48% had current clinical problems. Functional Status IIR total score was strongly correlated with child's clinical severity (r = −0.65; P < .0001) and was lower among children with ongoing medical morbidity, denoting worse functioning (P = .01). Child Health Ratings Inventories General Health Module scores followed a similar pattern.

Conclusions

A subset of long-term CDH survivors continues to have ongoing clinical problems a median of 8 years after surgery, translating to lower functional status. Affected children and their families may benefit from prospective identification and ongoing interventions.     

Decreased cerebral oxygen saturation during thoracoscopic repair of congenital diaphragmatic hernia and esophageal atresia in infants

Background/Purpose

Congenital diaphragmatic hernia (CDH) and esophageal atresia with tracheoesophageal fistula (EA/TOF) can be repaired thoracoscopically, but this may cause hypercapnia, acidosis, and reduced cerebral oxygenation. We evaluated the effect of thoracoscopy in infants on cerebral oxygen saturation (cSO₂), arterial blood gases, and carbon dioxide (CO₂) absorption.

Methods

Eight infants underwent thoracoscopy (6 CDH and 2 EA/TOF). Serial arterial blood gases were taken. Regional cSO₂ was measured using near-infrared spectroscopy. Absorption of insufflated CO₂ was calculated from exhaled ¹³CO₂/¹²CO₂ ratio measured by mass spectrometry.

Results

CO₂ absorption increased during thoracoscopy with a maximum 29% ± 6% of exhaled CO₂ originating from the pneumothorax. Paco₂ increased from 9.4 ± 1.3 kPa at the start to 12.4 ± 1.0 intraoperatively and then decreased to 7.6 ± 1.2 kPa at end of operation. Arterial pH decreased from 7.19 ± 0.04 at the start to 7.05 ± 0.04 intraoperatively and then recovered to 7.28 ± 0.06 at end of operation. Cerebral hemoglobin oxygen saturation decreased from 87% ± 4% at the start to 75% ± 5% at end of operation. This had not recovered by 12 (74% ± 4%) or 24 hours (73% ± 3%) postoperatively.

Conclusions

This preliminary study suggests that thoracoscopic repair of CDH and EA/TOF may be associated with acidosis and decreased cSO₂. The effects of these phenomena on future brain development are unknown.     

Early experience with minimally invasive repair of congenital diaphragmatic hernias: results and lessons learned

Background:

Minimally invasive surgery (MIS) for the repair of congenital diaphragmatic hernias (CDH) had been described. This report reviews the authors’ experience with MIS repairs of CDH and discusses the technical development of this approach.

Methods:

From 1999 until now, the authors collected data on children who underwent an MIS approach for CDH repair.

Results:

Seventeen children (11 Morgagni and 7 Bochdalek) had undergone an attempt at MIS repair. All Morgagni defects were treated successfully using laparoscopy (mean age, 28 ± 31 months). Mean follow-up was 22 ± 9 months. There was 1 recurrence. Four children with Bochdalek CDH were treated as newborns (range, 3 to 21 days), and 3 had operations later (4, 11, and 32 months). The first repair was attempted initially transabdominally and was converted to a thoracoscopic approach. The rest of the Bochdalek repairs were performed thoracoscopically. Bochdalek repairs via MIS were successful in 3 children (2 older children and 1 neonate). No child had pulmonary hypertension. Two of the 3 Bochdalek patients did well postoperatively (follow-up, 18 +/− 7 months); the last patient experienced recurrence 11 months after repair.

Conclusions:

MIS for CDH is ideal for Morgagni defects. It should be considered for nonnewborns with a Bochdalek CDH. The MIS approach for a newborn with a CDH cannot be recommended because of the high failure rate and frequent rise in Pco₂ levels.     

Early recurrence of congenital diaphragmatic hernia is higher after thoracoscopic than open repair: a single institutional study

Introduction

Experience in thoracoscopic congenital diaphragmatic hernia (CDH) repair has expanded, yet efficacy equal to that of open repair has not been demonstrated. In spite of reports suggesting higher recurrent hernia rates after thoracoscopic repair, this approach has widely been adopted into practice. We report a large, single institutional experience with thoracoscopic CDH repair with special attention to recurrent hernia rates.

Methods

We reviewed the records of neonates with unilateral CDH repaired between January 2006 and February 2010 at Morgan Stanley Children's Hospital. Completely thoracoscopic repairs were compared to open repairs of the same period. In addition, successful thoracoscopic repairs were compared with thoracoscopic repairs that developed recurrence. Data were analyzed by Mann-Whitney U and Fisher exact tests.

Results

Thirty-five neonates underwent attempted thoracoscopic repair, with 26 completed. Concurrently, 19 initially open CDH repairs were performed. Preoperatively, patients in the open repair group required more ventilatory support than the thoracoscopic group. Recurrence was higher after thoracoscopic repair (23% vs 0%; P = .032). In comparing successful thoracoscopic repairs to those with recurrence, none of the factors analyzed were predictive of recurrence.

Conclusions

Early recurrence of hernia is higher in thoracoscopic CDH repairs than in open repairs. Technical factors and a steep learning curve for thoracoscopy may account for the higher recurrence rates, but not patient severity of illness. In an already-tenuous patient population, performing the repair thoracoscopically with a higher risk of recurrence may not be advantageous.     

Laparoscopic patch repair of diaphragmatic hernias with Surgisis

Background

Laparoscopic repair of congenital diaphragmatic hernias has been sparsely reported. Moreover, each report has primarily been a single operative case. In most of the reports, prosthetic mesh has not been used, and when used, it has been nonabsorbable in nature. Most of these case reports have documented only a few months of clinical follow-up.

Methods

After institutional review board approval (No. 01-12-115X), the clinical course and outcome of 3 patients undergoing laparoscopic repair of foramen of Morgagni and Bochdalek hernias using 4-ply Surgisis soft tissue graft (Cook Inc, Bloomington, Ind) were reviewed to determine if this approach is appropriate.

Results

In 2001, 2 patients, ages 9 months and 14 years, underwent laparoscopic foramen of Morgagni repair and one 5-day-old underwent laparoscopic foramen of Bochdalek repair using Surgisis soft tissue graft as a patch to close the diaphragmatic defects because there was too much tension with primary repair. In each case, the prosthesis was secured to the rim of the defect using interrupted silk sutures tied intracorporally. The mean operative time for repair of the Morgagni defects was 230 minutes with a postoperative discharge of 1 and 2 days. For the foramen of Bochdalek repair, the operative time was 204 minutes, and the patient was discharged at 3 weeks. No complications have occurred during or after any of the procedures, but the oldest patient underwent diagnostic laparoscopy 3 months postoperatively for a radiographic finding of suspected recurrence. At laparoscopy, the patch was intact, and no diaphragmatic hernia was noted.

Conclusions

Laparoscopic repair of congenital diaphragmatic defects using prosthetic material is possible although the operative time required is around 3.5 hours. Because of the brief postoperative course, the laparoscopic approach appears justified in the nonneonatal patients. Whether this approach is appropriate for repair of neonatal Bochdalek hernias remains unclear.     

Robotic repair of a Bochdalek congenital diaphragmatic hernia in a small neonate: robotic advantages and limitations

Minimally invasive repair for a Bochdalek congenital diaphragmatic hernia has been performed over the last few years with mixed results. Although the anomaly has been approached from both the abdomen and the chest, the defect can be difficult to close as the posterolateral region may be difficult to reach with precise suturing using standard rigid laparoscopic instruments. The articulating instruments of robotic surgery offer a substantial improvement in degrees of freedom and may help over come these obstacles. However, other limitations including instrument length in relation to patient size need to be accounted for when planning a robotic procedure in small children. We present a robotic repair of a foramen of Bochdalek congenital diaphragmatic in a 2.2 kg neonate using and abdominal approach with the Da Vinci Surgical Robot (Intuitive Surgical, Sunnyvale, CA).     

Minimally invasive congenital diaphragmatic hernia repair: a 7-year review of one institution’s experience

Background  Minimally invasive surgery (MIS) has been described for the repair of congenital diaphragmatic hernias (CDH) in neonates, infants, and children. This report evaluates patient selection, operative technique, and clinical outcomes for MIS repair of CDHs from a single center’s experience. Methods  All cases of CDH at a tertiary care pediatric hospital with an initial attempt at MIS repair from January 2001 to December 2007 were reviewed. Results  A total of 22 children underwent an initial attempt at MIS repair of their CDH (5 Morgagni and 17 Bochdalek hernias). The children ranged in age from 1 day to 6 years (mean, 13.9 ± 23 months) and weighed 2.2 to 21 kg (mean, 7.4 ± 5.50 kg) at the time of the operation. All five Morgagni hernias were managed successfully with laparoscopic primary repair. Six of the Bochdalek hernias were found in infants and children (age range, 6–71 months). All these were managed successfully with primary repair by an MIS approach (2 by laparoscopy and 4 by thoracoscopy). The remaining 11 Bochdalek hernias were found in neonates (age range, 1 day to 8 weeks). Four of the Bochdalek hernias were right-sided. Nine of the Bochdalek hernias in neonates were repaired thoracoscopically. One neonate required conversion to laparotomy, and another underwent conversion to thoracotomy. Four of the neonates with Bochdalek hernias required a prosthetic patch. Two of the neonates also had significant associated congenital cardiac defects. Overall, there were two recurrences involving one 3-day-old who underwent a primary thoracoscopic repair and another 3-day-old who underwent a thoracoscopic patch repair. The follow-up period ranged from 5 months to 5 years. Conclusions  Morgagni hernias can be managed successfully by laparoscopy, whereas thoracoscopy is preferred for neonatal Bochdalek hernias. Either approach can be successful for infants and children with Bochdalek hernias. Additionally, patients with congenital cardiac defects and those requiring prosthetic patches can undergo a MIS CDH repair with a successful outcome.     

Thoracoscopic repair of congenital diaphragmatic hernia: intraoperative ventilation and recurrence

Introduction

Thoracoscopic repair of congenital diaphragmatic hernia (CDH) has been described, but its efficacy and safety have not been validated. The aim was to compare our experience of thoracoscopy with laparotomy repair.

Methods

After ethics approval, we reviewed the notes of neonates with CDH operated in our institution between 2003 and 2008. Two historical groups were compared: infants who underwent laparotomy (2003-2008) or thoracoscopy (2007-2008). Data were compared by t test or Mann-Whitney tests.

Results

Thirty-five children had open repair of CDH, and 13 had thoracoscopic repair. Groups were homogeneous for age and weight. Five (38%) neonates who had thoracoscopy were converted to open for surgical difficulties (n = 4) and O₂ desaturation (n = 1). Patch repair was used in 12 (34%) open and 6 (46%) thoracoscopic repairs. End-tidal CO₂ was significantly elevated during thoracoscopy, but this was not reflected in arterial CO₂ or pH. There were 3 (8%) recurrences after open repair and 2 (25%) after thoracoscopy (P = .19).

Conclusion

Thoracoscopic repair of CDH is feasible. Arterial blood gases should be closely monitored. Despite higher EtCO₂, conversion to open was mainly because of difficult repair. A randomized trial is necessary to assess the effect of thoracoscopy on ventilation and recurrences.     

Right submammary minithoractomy for repair of congenital heart defects

Objective: The initial experience with the right submammary minithoracotomy incision for correction of intracardiac congenital defects is reported. Methods: Between March 1997 and March 1999, 100 children underwent repair of congenital heart disease through this approach. Their mean age and weight were 4.6 years and 20 kg, respectively. Diagnosis included: atrial septal defect (78), ventricular septal defect (7), tetralogy of Fallot (6), partial atrioventricular canal (5), double-chambered right ventricle (3) and single ventricle with dextrocardia (1). The standard technique entailed a 5 to 6 cm right submammary incision, entering the chest through the third or fourth intercostal space (depending on the body weight), direct aortic and bicaval cannulation and aortic cross-clamping with cardioplegic protection. Results: There were no hospital deaths. Postoperative morbidity included bleeding in two cases, recurrent atrial septal defect in one, spleen injury in one. The average hospital stay was 3.5 days. All patient are currently free of symptoms and medications. Conclusions: (1) This approach for repair of selected congenital cardiac malformations is technically feasible, safe and effective; (2) younger age is a facilitating factor; (3) hospital stays are effectively reduced.