The outcome of newborns with abdominal wall defects according to the method of abdominal closure: the experience of a single center

Recent reports suggest that the technique of abdominal closure in neonates with anterior abdominal wall defects (AWD) correlates with the outcome. The aim of this study is to analyze factors related to mortality and morbidity, according to the technique of abdominal closure of these neonates. Retrospective analysis of charts from 76 consecutive neonates with AWD treated in a single institution. They were divided according to the type of abdominal wall closure: group I: primary closure, group II: silo followed by primary closure and group III: silo followed by polypropylene mesh. Outcome was analyzed separately for neonates with gastroschisis and omphalocele. There were 13 deaths (17.1%). Mortality for neonates with isolated defects was 9.6%. Mortality rate was similar in all groups for either neonates with gastroschisis or omphalocele. Postoperative complications were not significantly different among groups except for a prolonged time of hospitalization in group III. Mortality rate is not correlated with the type of abdominal closure. Neonates with primary closure or with other methods of abdominal wall closure had similar rate of postoperative complications. Neonates with mesh closure of the abdomen have prolonged hospitalization. The use of a polypropylene mesh is a good alternative for neonates whose primary closure or closure after silo placement is not possible.     

Outcome after pediatric liver transplantation for staged abdominal wall closure with use of biological mesh—Study with long‐term follow‐up

Abdominal wall closure after pediatric liver transplantation (pLT) in infants may be hampered by graft‐to‐recipient size discrepancy. Herein, we describe the use of a porcine dermal collagen acellular graft (PDCG) as a biological mesh (BM) for abdominal wall closure in pLT recipients. Patients <2 years of age, who underwent pLT from 2011 to 2014, were analyzed, divided into definite abdominal wall closure with and without implantation of a BM. Primary end‐point was the occurrence of postoperative abdominal wall infection. Secondary end‐points included 1‐ and 5‐year patient and graft survival and the development of abdominal wall hernia. In five out of 21 pLT recipients (23.8%), direct abdominal wall closure was achieved, whereas 16 recipients (76.2%) received a BM. BM removal was necessary in one patient (6.3%) due to abdominal wall infection, whereas no abdominal wall infection occurred in the no‐BM group. No significant differences between the two groups were observed for 1‐ and 5‐year patient and graft survival. Two late abdominal wall hernias were observed in the BM group vs none in the no‐BM group. Definite abdominal wall closure with a BM after pLT is feasible and safe when direct closure cannot be achieved with comparable postoperative patient and graft survival rates.     

Porcine acellular dermal matrix for delayed abdominal wall closure after pediatric liver transplantation

Children are one of the groups with the highest mortality rate on the waiting list for LT. Primary closure of the abdominal wall is often impossible in the pediatric population, due to a size mismatch between a large graft and a small recipient. We present a retrospective cohort study of six pediatric patients, who underwent delayed abdominal wall closure with a biological mesh after LT, and in whom early closure was impossible. A non‐cross‐linked porcine‐derived acellular dermal matrix (Strattice^? Reconstructive Tissue Matrix; LifeCell Corp, Bridgewater, NJ, USA) was used in all of the cases of the series. After a mean follow‐up of 26 months (21–32 months), all patients were asymptomatic, with a functional abdominal wall after physical examination. Non‐cross‐linked porcine‐derived acellular dermal matrix (Strattice^?) is a good alternative for delayed abdominal wall closure after pediatric LT. Randomized controlled trials are necessary to determine the best moment and the best technique for abdominal wall closure.     

Combination of tissue expansion and porcine mesh for secondary abdominal wall closure after pediatric liver transplantation

Lafosse A, de Magnee C, Brunati A, Bayet B, Vanwijck R, Manzanares J, Reding R. Combination of tissue expansion and porcine mesh for secondary abdominal wall closure after pediatric liver transplantation. Abstract: We report the case of a two and a half yr boy hospitalized in our Pediatric Transplantation Unit for portal vein thrombosis following liver transplantation. After performing a meso‐Rex shunt, abdominal wall closure was impossible without compressing the portal flow. A combination of two techniques was used to perform the reconstruction of the muscular fasciae and skin layers. The association of tissue expanders and porcine mesh (Surgisis^®) allowed complete abdominal wall closure with good functional and esthetic results. Use of both techniques is a useful alternative for difficult abdominal closure after liver pediatric transplantation.     

The difficult abdominal closure after paediatric intestinal transplantation: Use of abdominal rectus muscle fascia and literature review

Primary abdominal wall closure after intestinal and multivisceral transplantation may not be possible because of loss of abdominal domain and/or graft size/abdominal cavity mismatch. Traditional closure techniques for the open abdomen may not be valid in these circumstances because of severe scarring of the abdominal wall from multiple previous surgeries in this particular group of patients. We present our initial experience with the use of non‐vascularized abdominal rectus muscle fascia in two patients who underwent deceased donation and living‐related combined liver and small bowel transplantation, respectively, and who could not be closed primarily. The donor fascia was attached to the recipient fascia in both patients. In either case, there was not enough skin cover for closure, the wound was left open, and a negative pressure dressing was applied. In both cases, over a period of 6 months after placement of the non‐vascularized abdominal rectus muscle fascia, the wound contracted, granulation tissue gradually covered the wound, and healing occurred, giving an intact abdominal wall. The abdominal rectus muscle fascia from a deceased donor can be used in a definite procedure for closure of the abdominal wall either at the time of transplant or later when a suitable rectus muscle fascia graft becomes available.     

Use of composite mesh in gastroschisis: A unique approach

Gastroschisis is a congenital defect of the abdominal wall involving evisceration of abdominal contents. Initial surgical treatment of this condition depends on the size of the defect, size of the abdominal cavity and amount of bowel exposed. Various techniques described are primary closure, use of the skin flap and silo bag application, followed by fascial closure. Here we present a case wherein even after 7 days of silo bag application, fascial closure was not possible, and a composite mesh was used to cover the bowel until further repair could be attempted.Key words: Composite mesh repair, delayed closure, gastroschisis     

Esophageal hiatal hernia after omphalocele repair

Esophageal hiatal hernias (EHH) are probably caused by congenital, traumatic, or iatrogenic factors, although the etiology remains unknown. EHHs may develop after abdominal wall closure for omphalocele or gastroschisis due to the increased intra-abdominal pressure, however, there have been few reports in the literature. We present a case of EHH developing after abdominal wall closure. Accepted: 5 March 1997     

Prenatal Closure of Abdominal Defect in Gastroschisis: Case Report and Review of the Literature

With the routine use of fetal imaging studies during prenatal care, increased numbers of unusual intrauterine events are now detected. Prenatal closure of the abdominal defect in gastroschisis is an example. We report a 34 5/7–week stillborn who had prenatal closure of a ventral abdominal wall defect, which had been seen earlier on fetal ultrasound examination. Two ultrasound examinations performed at 15 1/7 weeks and 19 1/7 weeks showed a mass of exteriorized bowel that herniated through the abdominal defect, just to the right of the umbilical cord. At 30 1/7 weeks, no exteriorized bowel was seen, but thickened and dilated intraabdominal bowel was identified. No abdominal defect or exteriorized bowel was found at autopsy. There was a severely dilated proximal jejunum with the absence of the rest of the small intestine and the right side of the colon. The remaining left side of the colon was small and blind proximally. Six similar isolated examples have been reported since 1991. Prenatal closure of an abdominal defect was associated with long-segment atresia of the midintestine in each case. We believe that the spontaneous closure of this abdominal defect was associated with atresia and resorption of exteriorized bowel. It is likely some of the cases of long-segment atresia may in fact be associated with closed gastroschisis. Received December 18, 2000; accepted April 25, 2001.     

Definitive abdominal wall closure using a porcine intestinal submucosa biodegradable membrane in pediatric transplantation

Abstract: Abdominal closure in children less than 10 kg following liver or kidney transplantation can be challenging. Excessive pressure attained from a tight closure can result in abdominal compartment syndrome, graft compromise and loss. Concerns over using prosthetic patches are that of infection and dehiscence. We report a series of definitive abdominal wall closure using a biodegradable membrane from porcine intestinal submucosa (Surgisis^®; Cook Biotech Incorporated, West Lafayette, IN, USA). A prospective collection and follow up of liver and kidney transplant patients weighing less than 10 kg who required abdominal wall augmentation with Surgisis^® in order to achieve satisfactory closure. There were 10 liver and two renal transplant patients. The average weight of the liver transplant patients was 6.6 kg (5.4–8.5 kg) and the renal 9.8 kg. The average area of Surgisis^® used was 71.2 cm² (25–160 cm²) and length of follow up was 15.3 months (1–27 months). Concomitant measures to aid abdominal closure included bilateral recipient nephrectomy for the renal patients and reduction by 33% of the lateral segmental grafts in two liver transplant patients. Delayed closure occurred in all patients except one and the average days to closure from the first surgery was 3.75 days (0–6 days). Following liver transplantation one patient died from multiple organ failure at one month secondary to hemophagocytosis from underlying combined immune deficiency syndrome and one patient with hepatic artery thrombosis was salvaged at re‐exploration. There were two wound complications, one patient developed two small sinuses and some skin dehiscence which healed over four months and the second developed a skin sinus following trans‐patch liver biopsy which healed in three wk. Both had positive microbial cultures but neither necessitated removal of the graft. There were no incisional hernias. Surgisis^® is a safe method for facilitating abdominal closure in pediatric transplant patients. It appears to have long‐term durability with no incisional hernias on short‐ and medium‐term follow up, and is fairly resistant to infection.     

Staged approach for abdominal wound closure following combined liver and intestinal transplantation from living donors in pediatric patients

Abstract:  Primary closure of the abdominal wall after combined liver and intestine transplantation from a living donor into a pediatric patient is usually not possible, because of the size of the donor organ, graft edema, and preexisting scars or stomas of the abdominal wall. Closure under tension may lead to abdominal compartment syndrome with vascular compromise and necrosis of the transplanted organ. We describe our experience of abdominal wound closure after liver and intestinal transplant in the pediatric patient using a staged approach. From February 2003 to June 2006, we managed five pediatric liver and intestinal living donor transplant recipients. Because of the large post-transplantation abdominal wall defect, a staged technique of abdominal wound closure was utilized. Initially, an absorbable Polygalactin mesh was sutured around the layer of the defect. As soon as adequate granulation tissue was formed over the mesh a STSG was applied. From the wound stand point all five patients were managed successfully with staged wound closure after transplantation. Granulation tissue filled and covered the mesh within 7.6 wk. A STSG was then used to cover the defect. All infants recovered well and none had a significant wound complication in the immediate post-operative period following STSG. At a mean follow-up of 24 months only one patient developed an entero-cutaneous fistula five months post-transplant. Staged abdominal wall coverage with the use of Polygalactin mesh followed by STSG is a simple and effective technique. A closed wound is achieved in a timely fashion with protection of the viscera. Residual ventral hernia will need to be managed in the future with one of several reconstructive techniques.     

Anterior abdominal wall closure in bladder exstrophy

Anterior abdominal wall closure without pelvic osteotomy for bladder exstrophy can be very diffecult and more often than not calls for various reconstructive measures. A technique is described that involves bilateral detachment of the rectus abdominis from the pubic ramus, midline vertical closure, and refixation to the pubic rami after medial and caudal advancement. A relaxing fascial incision may be required. This technique has been used in 15 patients and has obviated the need for pelvic osteotomy, thereby decreasing the postoperative morbidity. It has resulted in good cosmetic repair in all patients in addition to the ease of abdominal wall closure. The healing has been remarkably good. This technique is particularly useful in children coming for primary surgery after the neonatal period. Correspondence to: V. Bhatnagar     

Treatment of congenital abdominal wall defects —a 25-year review of 132 patients

The outcome data of 132 patients treated at the Department of Pediatric Surgery in Mainz during the last 25 years were reviewed. Prenatal diagnosis of abdominal wall defects (AWDs) and associated malformations led to increasing selection of the patient population. The aim of primary closure of the abdominal wall can be achieved more frequently in gastroschisis (GS) than omphalocele (OC), while the postoperative course is more complicated and of longer duration in GS. Delayed or secondary closure extended the hospitalization period but had no negative effects on the outcome. Reoperations or planned secondary operations were performed in 23 patients with GS and 14 with OC. Early mortality was 15/55 for OC and 21/77 for GS over the period of 25 years. In recent years, a drastic reduction in mortality has occurred, and mortality is now mainly due to additional malformations. Further development and quality of life are not significantly reduced after survival of an isolated AWD. Malpositioning of parenchymatous organs after closure of AWDs has to be considered during pregnancy and abdominal operations.     

Porcine dermal collagen graft in pediatric renal transplantation

Successful closure of the anterior abdominal wall in infants following renal transplantation of adult organs may present a challenging dilemma to the transplant surgeon. Restricted volume of the recipient abdominal cavity and size discrepancy of donor adult kidney may lead to graft compromise. Pressure on the graft may be exacerbated further in the postoperative period by oedema that may lead to abdominal compartment syndrome. Donor/recipient size disparity remains the major obstacle in infant renal transplantation. We describe the use of a porcine collagen graft to facilitate closure of the abdominal wall following intra-peritoneal transplantation of an adult cadaveric kidney.     

The primary management of testicular maldescent in gastroschisis

Gastroschisis (GS) is the commonest abdominal-wall defect in the Western world. The conventional practice has been reduction of the viscera and closure of the abdominal wall as an emergency procedure. The testis is often a part of the prolapsed viscera along with the bowel loops, stomach, fallopian tube, etc. The primary management of prolapsed (PT) (3) and intra-abdominal (5) testes (IAT) in this condition was studied in 16 consecutive male babies with GS, each was managed by simple reposition of the testes and closure of the abdominal wall. The babies were followed up for spontaneous descent of the testes. At 18-month follow-up, all five IAT had descended into the scrotum spontaneously and were palpably normal. Of the three extra-abdominal PT, two had descended into the scrotum and were normal in size and on palpation. One was palpable in the superficial inguinal pouch. Simple reposition of the testes into the abdomen and closure of the abdominal defect is the correct approach for primary management of PT or IAT in a newborn with GS. Accepted: 6 September 2000     

Neonatal abdominal wall defects

Gastroschisis and omphalocele are the two most common congenital abdominal wall defects. Both are frequently detected prenatally due to routine maternal serum screening and fetal ultrasound. Prenatal diagnosis may influence timing, mode and location of delivery. Prognosis for gastroschisis is primarily determined by the degree of bowel injury, whereas prognosis for omphalocele is related to the number and severity of associated anomalies. The surgical management of both conditions consists of closure of the abdominal wall defect, while minimizing the risk of injury to the abdominal viscera either through direct trauma or due to increased intra-abdominal pressure. Options include primary closure or a variety of staged approaches. Long-term outcome is favorable in most cases; however, significant associated anomalies (in the case of omphalocele) or intestinal dysfunction (in the case of gastroschisis) may result in morbidity and mortality.     

The use of porcine dermal collagen implants in assisting abdominal wall closure of pediatric renal transplant recipients with donor size discrepancy

Children may have kidneys transplanted from donors larger than themselves. Abdominal wall closure may be difficult, with risks of abdominal compartment syndrome and graft compromise. Meshes used to facilitate closure may cause dense intra-abdominal adhesions, making further surgery or peritoneal dialysis difficult. We present five cases in which abdominal wall closure was facilitated by porcine dermal collagen implant. Five children (2-15 yr) received transplanted kidneys from adult donors of significantly greater weight. In four recipients, the kidney was transplanted onto the aorta and vena cava intra-abdominally using a midline incision. In the fifth, the kidney was anastomosed onto the iliac vessels. The skin overlying the implant was closed normally. Maximum follow-up was three yr. In all cases, primary closure was achieved. One child received a second intra-abdominal transplant as an emergency, which later failed. The other kidneys are functioning well. One recipient developed a small incisional hernia three yr post-transplant. Another developed a skin dehiscence over the implant 23 days post-operatively. The implant was removed and skin closed. The other two recipients recovered well. Porcine dermal collagen implant is a helpful adjunct to abdominal wall closure following organ transplantation in children with donor size discrepancy.     

Staged reduction of gastroschisis: a simple method

 Staged reduction of abdominal contents using a silastic sheet has become standard management in gastroschisis where primary closure is not possible. With the introduction of a pre-made Silastic silo coupled to a spring-loaded ring (Ben Tec, Sacramento, CA), the procedure can be done at the bedside. We present a simple technique utilizing a disposable umbilical-cord clamp that makes reduction a fast, one-physician procedure and present a preoperative step that facilitates tension-free closure of the abdominal fascia. Accepted: 19 November 1999     

The use of Surgisis<Superscript><Emphasis Type="Bold">®</Emphasis></Superscript> for abdominal wall reconstruction in the separation of omphalopagus conjoined twins

Abdominal wall reconstruction in omphalopagus twins poses a difficult reconstructive challenge, as separation often results in a large abdominal wall defect. A number of options are available for closure, including tissue flaps, expanders and patches made of foreign material. Surgisis is a new biodegradable small intestine scaffolding substrate that permits tissue in-growth and results in a permanent durable scar. We describe its use in abdominal wall reconstruction after separation of a set of conjoined twins. A set of omphalopagus conjoined twins shared liver and abdominal wall. After separation at 6 months of age, Twin A's abdomen could be closed primarily, but Twin B could not. A 4-ply Surgisis mesh was used in the upper abdominal closure, and a skin flap was created, to completely cover the patch. Both twins survived the operation. A small portion of the skin flap over the Surgisis broke down, healing by secondary intention. In follow up of over 18 months post procedure, there have been no wound infections and the abdominal wall is intact with no evidence of a hernia. Surgisis can be successfully used for the reconstruction of complex abdominal wall defects in the pediatric patient, including reconstruction after separation of conjoined twins.     

Review of the evidence on the closure of abdominal wall defects

Infants with congenital abdominal wall defects pose an interesting and challenging management issue for surgeons. We attempt to review the literature to define the current treatment modalities and their application in practice. In gastroschisis, the overall strategies for repair include immediate closure or delayed operative repair. The best level of data for gastroschisis is grade C and appears to support that there is no major difference in survival between immediate closure or delayed repair. In patients with omphalocele, the management techniques are more varied consisting of immediate closure, staged closure or delayed closure after epithelialization. The literature is less clear on when to use one technique over the other, consisting of mostly grade D and E data. In patients with omphalocele, a registry to collect information on patients with larger defects may help determine which of the management strategies is optimal.     

Use of tissue expansion to facilitate liver and small bowel transplant in young children with contracted abdominal cavities

Liver and small bowel transplant is an established treatment for infants with IFALD. Despite organ reduction techniques, mortality on the waiting list remains high due to shortage of size‐matched pediatric donors. Small abdominal cavity volume due to previous intestinal resection poses a significant challenge to achieve abdominal closure post‐transplant. Seven children underwent tissue expansion of abdominal skin prior to multiorgan transplant. In total, 17 tissue expanders were placed subcutaneously in seven children. All seven subjects underwent re‐exploration to deal with complications: hematoma, extrusion, infection, or port related. Three expanders had to be removed. Four children went on to have successful combined liver and small bowel transplant. Two children died on the waiting list of causes not related to the expander and one child died from sepsis attributed to an infected expander. Tissue expansion can generate skin to facilitate closure of abdomen post‐transplant, thus allowing infants with small abdominal volumes to be considered for transplant surgery. Tissue expansion in children with end‐stage liver disease and portal hypertension is associated with a very high complication rate and needs to be closely monitored during the expansion process.