Biliary complications after pediatric liver transplantation revisited

Background. Biliary complications in pediatric liver transplantation (PLT) are associated with increased morbidity and mortality. Methods. Prospectively, data was collected on 89 consecutive liver transplants performed in 82 children. Eighty-nine consecutive PLTs were tracked for transplant type (partial versus whole), recipient age/weight, duct anastomosis type, surgical technique, and biliary complications. Treatments of biliary complications (surgical versus interventional radiology) were also evaluated. Results. Forty-six children (51.7%) received partial transplants and 43 (48.3%) children received whole organs. The average age for whole liver transplanted children was 8.95 ± 6.62 years and average weight was 36.2 ± 28.7 kg; for those receiving partial livers, 3.19 ± 3.52 years and 14.1 ± 13.0 kg. Duct-to-duct anastomosis was performed for 26 grafts and Roux-en-Y choledochojejunostomy for 63 grafts. Biliary complications occurred in 10 of 89 (11.2%) grafts. Complications included anastomotic strictures in four (40%), bile leak in five (50%), intraparenchymal biloma in one (10%). The complication rate for whole organs was 1/43 (2.3%) and 9/46 (19.6%) for partial organ (P =. 015). No difference in complication rates were seen in type of ductal anastomosis (7.7% vs 12.7%, P = NS). Reoperation for biliary complication was necessary in only 2/10 (20%) of grafts. Conclusion. Technical advances have reduced the incidence of biliary complications in PLT. Partial liver grafts have a statistically higher risk of biliary complication than whole grafts. Most biliary complications can be managed with radiological intervention without surgical exploration. Pediatric biliary complications are not associated with graft loss

Peripheral eosinophilia and eosinophilic gastroenteritis after pediatric liver transplantation

Reports indicate peripheral eosinophilia (PE) and gastrointestinal eosinophilic inflammation can occur after pediatric liver transplantation. The incidence of these conditions, potential risk factors, and the impact of PE and gastrointestinal eosinophilic inflammation on liver transplant outcome were determined in this pediatric liver transplant program. Medical records of liver transplant recipients from 1 to 97 and from 12 to 99 were reviewed. Fifty-seven transplants on 54 patients were performed during the study period. Fifty-three patients were evaluated; all had normal pre-transplantation peripheral eosinophil counts. PE of \u3e 10% developed in 28% of patients. Using this definition, all such identified patients had absolute eosinophil counts of \u3e 350/mm3. History of immediate hypersensitivity did not differ between patients with or without eosinophilia. Gastrointestinal endoscopy and biopsy was performed in 23 patients with gastrointestinal complaints. Of those, six had eosinophilic gastroenteritis and all six had PE. Compared with patients without eosinophilia, those with PE were younger at the time of transplantation (p \u3c 0.05), had more frequent rejection (p \u3c 0.01), were more commonly managed with tacrolimus-based immunosuppression (p \u3c 0.001), and experienced more frequent episodes of detectable EBV viral load (p \u3c 0.04). Patients with eosinophilic gastroenteritis were more frequently retransplanted (p \u3c 0.006). PE associated with symptomatic eosinophilic gastroenteritis is common after pediatric liver transplantation. Age at transplant, frequency of rejection episodes, tacrolimus-based immunosuppression, and EBV viral load may be associated with the development of this condition. There may be higher rates of graft loss in such patients. Whether innate immune responsiveness or an acquired immune dysregulation accounts for these findings merits further evaluation

Pediatric liver transplantation with daclizumab induction therapy

Background. A new class of monoclonal antibodies (non-T-cell depleting) has gained favor for induction therapy after transplantation. This study evaluated the non-T-cell depleting antibody to the CD25 cell, daclizumab, as a single-dose induction agent immediately after pediatric liver transplantation to spare the use of the calcineurin inhibitor, tacrolimus, for 7 days in respect to both efficacy and renal function. Methods. From January 1998 to November 2001, 81 pediatric orthotopic liver transplant recipients receiving 89 liver grafts were evaluated. The treatment arm (n=61) received daclizumab 1 mg/kg immediately after liver transplantation along with mycophenolate, steroids, and, on postoperative day 7, tacrolimus. The control group did not receive induction therapy, whereas tacrolimus, mycophenolate, and steroids were started immediately after surgery. Results. The induction group had fewer patients with rejection within the first 30 days after liver transplantation (9 [14.8%] vs. 10 [50%]; P=0.003). The mean time to first rejection was similar between groups (12.1 [±7.8] days vs. 18.5 [±8.1] days; P=not significant). There was a 3.39 increase in relative risk to develop rejection within the first 30 days after orthotopic liver transplantation if the patient did not receive induction therapy (relative risk=3.39; 95% confidence interval [1.61, 7.14]). Two-year actuarial survival for the induction group was 93.2% compared with 85% in the control; graft survival was also similar between groups (87.8% vs. 72.7%) at 2 years. Conclusion. Daclizumab 1 mg/kg given immediately after pediatric liver transplantation and withholding tacrolimus, is safe, efficacious, and reduces rejections within the first 30 days after surgery

Hepatic artery thrombosis in pediatric liver transplantation

Purpose. Children have been reported to be at greater risk for hepatic artery thrombosis when compared to adults due to small arterial size, nonuse of intraoperative microscope, and postoperative hypercoagulable state. Methods. We evaluated arterial anastomosis type, intraoperative field magnification, and hepatic artery complications and how they were managed. All patients underwent ultrasound, anticoagulation consisted of 41 mg aspirin once a day, and 35 patients received alprostadil (PGE) for the first 7 days after transplantation. No patients were administered intravenous heparin following liver transplantation. Results. Of the 74 livers transplanted, 36 grafts (48.6%) were whole organ transplants and 38 grafts (51.4%) were partial livers. We observed HAT in 1 of 74 (1.35%) transplants in our pediatric liver transplant population. The only patient with HAT was a young girl with a history of biliary atresia. The occurrence of a hepatic artery thrombosis on day 7 was caused by the migration of an intimal plaque dissection within the artery graft. She was emergently taken back into the operating room for graft revision. This individual currently has a survival time of 426 days following her last transplant. Conclusion. Hepatic artery thrombosis may be minimized in pediatric liver transplantation without the use of microsurgery. Anticoagulation utilizing ASA and alprostadil is sufficient to avoid HAT. Accurate use of ultrasound is crucial to avoid this complication. Graft and patient salvage is possible with expedient surgical treatment; microsurgery, anticoagulant therapy, site of arterial inflow, and recipient size and weight

Single-dose induction with daclizumab immediately after liver transplantation in pediatric patients

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Medical and surgical treatment of neonatal hemochromatosis: Single center experience

NH is a rare disorder of iron storage in newborns resulting in rapid liver failure. Outcomes are dismal with 20-30% survival. We report our experience in eight children with NH. Assessment of liver f0nction included admission PT and serum levels of FV and FVII. Medical treatment (antioxidant cocktail) was started in all patients, with chelation therapy in six. Of these six, three survived with medical treatment alone. The other three underwent liver transplant. One died 158 days after transplant to sepsis: two are well more than five yr after transplant. The two neonates who did not receive chelation therapy, died to multi-organ failure and sepsis. In summary, five children (62.5%) survived long-term. In the three transplanted, one- and five-yr-survival was 66%. Older children with compromised synthetic liver function (FVII levels ≤ 15%) required liver replacement for survival. Early referral to a tertiary care center is essential to increase survival of these children with a rare and otherwise fatal disease. Single center experience of children with NH is here presented. Potentials for survival improvement with of medical and surgical treatment are examined. © 2007 Blackwell Munksgaard

Successful ABO-incompatible pediatric liver transplantation utilizing standard immunosuppression with selective postoperative plasmapheresis

Transplanting blood group A, B, or O (ABO)-incompatible (ABO-I) liver grafts has resulted in lower patient and graft survival with an increased incidence of vascular and biliary complications and rejection. We report that, without modification of our standard immunosuppression protocol, crossing blood groups is an acceptable option for children requiring liver transplantation. In our study, ABO-I liver grafts - regardless of recipient age - have comparable long-term survival (mean follow-up of 3.25 yr) with ABO-compatible grafts without any difference in rejection, vascular or biliary complications. From January 1, 1999 to October 1, 2005, we studied 138 liver transplants in 121 children: 16 (13.2%) received an ABO incompatible liver allograft. One-year actuarial patient survival for ABO-matched grafts vs. ABO-I grafts was 93.0% and 100%, respectively, whereas graft survival was 83.4% and 92.3%. Additionally, 6 of 16 (37.5%) ABO-I transplanted children had 8 rejection episodes, whereas 47 patients (44.8%) had 121 rejection episodes in the ABO-compatible group. There were no vascular complications and 2 biliary strictures in the ABO-I group. Plasmapheresis was not used for pretransplantation desensitization and was only required in 1 posttransplantation recipient. No child was splenectomized. Six of the 16 children were older than 13 yr of age, suggesting the possibility of successfully expanding this technique to an older population. In conclusion, our outcomes may support the concept of using ABO-I grafts in a more elective setting associated with split and living donor liver transplants. © 2006 AASLD