Liver transplantation in a child with multifocal hepatocellular carcinoma hepatitis C and management of post‐transplant viral recurrence using boceprevir

HCV infection is the leading cause of liver transplantation in the adult population in the United States. HCV infection occurs in 0.2–0.4% of the pediatric population and progression to HCC is uncommon. Liver transplantation for HCV in children is rare. In this report, we present a case of pediatric patient with HCV and multifocal HCC at the age of 13 who underwent successful liver transplantation. While good graft function was initially observed, at one month after transplant, he experienced significant hepatitis C recurrence. He was treated with low‐accelerating dose regimen antiviral therapy of PEG‐IFN and RBV, followed by addition of a protease inhibitor, boceprevir, which led to viral clearance. To our knowledge, this is the first case report describing the post‐transplant course of a child transplanted for HCV and HCC, and the first pediatric case report on using the triple therapy for management of post‐liver transplant recurrence of HCV. This case report demonstrates the need for increased vigilance of surveillance for HCC during childhood.     

De novo cholangiocarcinoma after liver transplantation in a pediatric patient

Channabasappa N, Johnson‐Welch S, Mittal N. De novo cholangiocarcinoma after liver transplantation in a pediatric patient
Pediatr Transplantation 2010: 14:E110–E114. © 2009 John Wiley & Sons A/S. Abstract: To date, no child has been reported to develop de novo CCA after liver transplantation although patients with transplants have a significantly higher risk of malignancy than the general population. CCA is extremely rare in the pediatric age group, seen mostly in patients with a history of choledochal cysts, Caroli’s disease, or PSC. We report the first case of pediatric de novo CCA in the liver allograft 12 yr after liver transplantation.     

Acquired renal cysts after pediatric liver transplantation: association with cyclosporine and renal dysfunction

Abstract:  ACKD has been observed in children on dialysis and with chronic renal insufficiency. In one report, ACKD was observed in 30% of pediatric liver transplant recipients after 10 yr. We retrospectively reviewed all renal imaging and measurements of GFR of 235 childhood liver transplant recipients with no known risk for renal cyst formation, no evidence of renal cyst(s) at the time of transplantation and renal imaging at least one yr post-transplant. Twenty-six patients (11%) developed one or more cyst(s). Mean GFR was significantly lower in patients with renal cyst(s). Two (1.4%) of the 146 patients treated with tacrolimus and 24 (27%) of the 89 patients treated with CsA acquired renal cyst(s) (p < 0.001). CsA-treated patients had significantly lower GFR. Multivariate analysis identified CsA as the only independent variable associated with ACKD. These results confirm that ACKD can be a late complication of pediatric liver transplantation. Those at most risk are at least 10-yr post-liver transplantation, have been treated with CsA and have impaired renal function. We speculate that ACKD in these patients is the result of calcineurin inhibitor nephrotoxicity. Whether patients with ACKD will be prone to develop solid renal tumors is unknown.     

A case of Epstein–Barr virus–associated pulmonary leiomyosarcoma arising five yr after a pediatric renal transplant

Suzuki K, Urushihara N, Fukumoto K, Watanabe K, Wada N, Takaba E. A case of Epstein–Barr virus–associated pulmonary leiomyosarcoma arising five yr after a pediatric renal transplant. Pediatr Transplantation 2011: 15: E145–E148. © 2010 John Wiley & Sons A/S. Abstract: EBV‐associated SMTs in immuno‐compromised patients have recently been reported. We report on a case of EBV‐associated pulmonary leiomyosarcoma arising five yr after renal transplantation. The patient was an eight‐yr‐old girl, who received a living related kidney transplant from her mother. She had had bilateral giant Wilm’s tumors as an infant and underwent bilateral nephrectomy at one and two yr of age. At the age of seven, she suffered from bronchitis several times, and a year later, two nodules were detected in her left lung by X‐ray and computed tomography. We suspected a recurrence of Wilm’s tumor and performed surgical resection. The pathological finding was SMT with moderate mitosis and no evidence of Wilm’s tumor. The fact that the tumors were positive for EBER suggested an association with the EBV. Six months later, there was a recurrence in her left lung. Surgical resection was performed, and immunosuppressive agents were reduced. Two yr after the second operation, she is well with no recurrence. We report the first case of EBV‐associated pulmonary leiomyosarcoma in a pediatric patient after renal transplantation owing to a malignant tumor.     

Hepatitis C in children: a quaternary referral center perspective

INTRODUCTION: Chronic hepatitis C virus (HCV) infection affects 0.3% of children in the United States, and the general impression is that it has a benign course in childhood. We analyzed a pediatric population with chronic HCV in a quaternary referral center. MATERIAL AND METHODS: This is a retrospective clinical review comprising all patients with chronic HCV referred to the Pediatric Liver/Liver Transplant Program between January 1999 and December 2004. RESULTS: Ninety-one patients (52% female; mean age, 9 years) were assessed. Eight-three percent of the patients were genotype 1. Twenty-one patients received/are receiving interferon and ribavirin for chronic HCV (treatment indications--advanced disease, 9; clinical trial, 6; genotype 2, 2; social, 2; prerenal transplant, 1). Eight (53%) of 15 patients, who have completed therapy and follow-up, achieved sustained viral response. Seven of 91 patients had cirrhosis at presentation (mean age, 11.7 years). Four underwent liver transplantation, all experienced HCV recurrence, 2 died, 1 was retransplanted, and 1 has compensated cirrhosis. CONCLUSION: Although, in general, HCV in children has a slow progression, there are cases with an accelerated course and early development of cirrhosis requiring liver transplant. Hepatitis C virus recurs universally after transplant, and its prognosis is usually poor; therefore, the most promising long-term approach is to clear this infection before transplantation.     

Clinical features and mutational survey of NPHS2 (podocin) in Japanese children with focal segmental glomerulosclerosis who underwent renal transplantation

Abstract:  Recurrent FSGS is a major challenge in the field of nephrology. To clarify the role of NPHS2 defects in the pathogenesis of FSGS recurrence, we sequenced all eight exons of NPHS2 in 11 Japanese pediatric FSGS patients with or without post-transplant recurrence. All patients had biopsy-proven primary FSGS, had no family history of renal diseases or consanguinity, were steroid-resistant, and received living-related renal transplantation. The mean age at onset was 5.0 ± 3.1 yr and mean age at renal transplantation was 10.4 ± 4.1 yr. Mutational analysis of NPHS2 was performed using polymerase chain reaction and direct sequencing. We found a synonymous T/C polymorphism at alanine 318 (GC C to GC T ) in seven of 11 patients but no other causative NPHS2 mutations. FSGS recurred immediately after transplant in seven patients, while the remaining four patients had no recurrence for 3.2–5.8 yr. There were no differences between recurrent and non-recurrent patients in the onset age and the interval from onset to ESRD. In conclusion, we detected no causative NPHS2 mutations in Japanese pediatric FSGS patients with or without post-transplant recurrence. Further studies on the involvement of other genes are required to better understand recurrent FSGS.     

Kidney and liver transplantation in children with fibrocystic liver–kidney disease: Data from the US Scientific Registry of Transplant Recipients: 1990–2010

The natural history and survival of children with fibrocystic liver–kidney disease undergoing solid organ transplantation have infrequently been described. We report outcomes in a cohort of US children with fibrocystic liver–kidney disease receiving solid organ transplants over 20 yr. Retrospective cohort study of pediatric transplant recipients with diagnoses of fibrocystic liver–kidney disease from 1/1990 to 3/2010, using data from the SRTR. Subjects were categorized by the first transplanted organ: LT, KT, or SLK. Primary outcomes were death, re‐transplant, transplant of the alternate organ, or initiation of dialysis. Seven hundred and sixteen subjects were transplanted in this period. Median age at first transplant was 9.7 yr. Of the LT, 14 (19%) required a second liver transplant at median of 0.2 yr, and five (7%) required kidney transplant or dialysis at a median of 9.0 yr. Of the KT, 188 (31%) required a second kidney transplant or dialysis at a median of 5.9 yr. Twenty‐nine (5%) subsequently received liver transplant at a median of 6.0 yr. Among patients in this registry, far more children underwent kidney than liver transplants. The risk of subsequently needing transplantation of an alternate organ was low.     

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.     

Liver transplantation in a child with liver failure due to chronic graft-versus-host disease after allogeneic hematopoietic stem cell transplantation from the same unrelated living donor

Englert C, Ganschow R. Liver transplantation in a child with liver failure due to chronic graft‐versus‐host disease after allogeneic hematopoietic stem cell transplantation from the same unrelated living donor. Abstract: We report a case of a six‐yr‐old boy who developed chronic GVHD of the liver, intestines, and skin following allogeneic hematopoietic SCT. The boy received an allogeneic hematopoietic stem cell transplant at the age of two yr because of early recurrence of ALL. Chimerism analysis showed complete chimerism. In the following year, he developed GVHD despite adequate immunosuppressive therapy. Liver biopsy showed liver GVHD resulting in liver cirrhosis by the age of five yr. LTx was performed with a left liver lobe from the unrelated donor from whom the stem cells had been taken. Immunosuppressive therapy consisted of low‐dose steroids and low‐dose cyclosporine. The postoperative course was uneventful. Graft function was excellent, and we performed protocol biopsies at seven days and three wk as well as three, six, and nine months after transplantation; none of these showed any signs of rejection or GVHD. Immunosuppressive therapy was discontinued nine months after LTx. Three yr after transplantation, the boy is in good condition with normal graft function. To our knowledge, this is the first report on LTx following allogeneic hematopoietic SCT from the same unrelated living donor.     

Incidence,impact, and treatment of portal and hepatic venous complications following pediatric liver transplantation: A single‐center 12 year experience

Heffron TG, Pillen T, Smallwood G, Henry S, Sekar S, Casper K, Solis D, Tang W, Fasola C, Romero R. Incidence, impact, and treatment of portal and hepatic venous complications following pediatric liver transplantation: A single‐center 12 year experience.
Pediatr Transplantation 2010: 14:722–729. © 2010 John Wiley & Sons A/S. Abstract: PVT or PVS and HVOO are known causes of graft and patient loss after pediatric liver transplantation. Increased incidences of these complications have been reported in partial livers including DDSLT or LDLT. From 1997 to 2008, 241 consecutive pediatric patients received 271 hepatic grafts at a single center. Median follow‐up is 1856 days. Surgical technique, demographics, lab values, and radiologic imaging procedures were obtained utilizing OTTR^® to evaluate the relationship of portal and hepatic complications with risk factors, patient and graft survival. Grafts were composed of 115/271 (42.4%) partial livers of which 90 (33.2%) were DDSLT and 25 (9.2%) LDLT. Of 271 patients, 156 (57.6%) received whole‐sized grafts. There were six PVC in five patients with one patient requiring retransplantation (0.34%) and no patient deaths. Utilizing all three hepatic vein orifices on the recipient hepatic vena cava and the donor hepatic vein cut short enables a wide hepatic outflow tract unlikely to twist. None of the 241 patients developed early or late complications of the hepatic vein. None of the last 128 consecutive patients who received 144 grafts over seven and a half yr have developed either early or late complications of the hepatic or portal vein. Partial‐graft actuarial survival was similar to whole‐graft survival (87.2% vs. 85.3% at one yr; 76.6% vs. 80.2 at three yr; p = 0.488). Likewise, patient survival was similar between partial grafts and whole grafts (93.8% vs. 93.1% at one yr; 89.8% vs. 87.2% at three yr; p = 0.688) with median follow‐up of 1822 (±1334) days. Patients receiving partial livers were significantly younger and smaller than patients receiving whole livers (p < 0.001). Portal and hepatic venous complications may have negative effects on patient or graft survival after pediatric liver transplantation. In our series, there was one graft and no patient loss related to portal or hepatic venous complications after pediatric liver transplantation over 12 yr.     

Extrahepatic portal vein aneurysm after liver transplantation in a child: Case report

Molinares B, Álvarez S, García V, Sepúlveda ME, Yepes NL, Peláez S. Extrahepatic portal vein aneurysm after liver transplantation in a child: Case report. Abstract: Portal vein aneurysms are very rare and represent <3% of all venous aneurysms. They can be congenital or acquired. Most patients do not have liver disease at diagnosis. Although uncommon, portal vein aneurysm has been described after liver transplant. We report the case of a six‐yr‐old girl who presented with an aneurysm of the extrahepatic portal vein after segmental liver transplantation. Because the patient was asymptomatic and owing to its extrahepatic location, this aneurysm has been successfully followed by clinical exam and imaging for four yr.     

Liver transplantation in an adolescent with acute liver failure from acute lymphoblastic leukemia

The most common identifiable causes of acute liver failure in pediatric patients are infection, drug toxicity, metabolic disease, and autoimmune processes. In many cases, the etiology of acute liver failure cannot be determined. Acute leukemia is an extremely rare cause of acute liver failure, and liver transplantation has traditionally been contraindicated in this setting. We report a case of acute liver failure in a previously healthy 15‐yr‐old male from pre‐B‐cell acute lymphoblastic leukemia. He underwent liver transplantation before the diagnosis was established, and has subsequently received chemotherapy for pre‐B‐cell acute lymphoblastic leukemia. He is currently alive 31 months post‐transplantation. The published literature describing acute lymphoblastic leukemia as a cause of acute liver failure is reviewed.     

Pediatric liver transplantation for primary malignant liver tumors with a focus on hepatic epithelioid hemangioendothelioma: The UNOS experience

Guiteau JJ, Cotton RT, Karpen SJ, O’Mahony CA, Goss JA. Pediatric liver transplantation for primary malignant liver tumors with a focus on hepatic epithelioid hemangioendothelioma: The UNOS experience.
Pediatr Transplantation 2010: 14: 326–331. © 2009 John Wiley & Sons A/S. Abstract: Treatment for HEH does not follow a standardized algorithm. From clinical experience, it is assumed that pediatric patients with HEH will fare as well as other common pediatric liver tumors post‐OLT. The UNOS dataset was examined for patients with pediatric OLT between 1987 and 2007. Patients were grouped into non‐tumors, HB, HCC, HEH, and rare liver tumors. COD analysis was calculated using Fisher’s exact test. Patient, allograft, and recurrence‐free survival were compared using Kaplan–Meier curves and log‐rank tests. A total of 366 patients with pediatric OLT were identified with primary liver tumors (HB – 237, HCC – 58, HEH – 35, other – 36). HEH patient survival (five yr: 60.6%) was poorer than non‐tumor OLTpatient survival (five yr: 84.4%). Survival was worse when compared to HB (five yr: 72%) and rare liver tumors (five yr: 78.9%), but better than HCC (five yr: 53.5%). Allograft survival in HEH (five yr: 50.1%) lies between HB (five yr: 63.6%) and HCC (five yr: 42.8%). COD analysis demonstrates recurrence as a major cause in HB and HCC, but not for HEH or other liver tumors. The data suggest that patient survival may not be as high as previously believed and further investigation is warranted.     

Reversal of tacrolimus-related hypertrophic obstructive cardiomyopathy 5 years after kidney transplant in a 6-year-old recipient

Hypertrophic obstructive cardiomyopathy (HOCM) is an unusual but serious side-effect of tacrolimus (TAC) based immunosuppression primarily affecting pediatric patients after solid organ transplant. TAC-induced HOCM has already been described in patients after liver, bowel and heart transplant shortly after the procedure. Herein, we present the first case report of TAC-induced HOCM in a young renal transplant recipient 5 yr after renal transplant. The condition was diagnosed by ECHO and EKG and successfully treated by discontinuation of TAC followed by conversion to cyclosporine (CsA).     

Reversal of tacrolimus-related hypertrophic cardiomyopathy after conversion to rapamycin in a pediatric liver transplant recipient

Tacrolimus (Tac)-related hypertrophic cardiomyopathy (HCM) has been reported to be an unusual but serious complication affecting pediatric patients after solid organ transplantation. Herein, we present a case of young liver transplant recipient with Tac-induced HCM, treated by discontinuation of Tac followed by conversion to rapamycin (Rap). Our case report points out the potential but rather low risk of HCM during Tac immunosuppression in pediatric liver transplants and demonstrates that replacement of calcineurin inhibitors with mammalian target of Rap (mTOR) inhibitors may be an efficacious therapeutic tool to effect regression of established cardiac hypertrophy.     

Impact of liver transplantation on HRQOL in children less than 5 years old

Our primary goal was to assess health related quality of life (HRQOL) at transplantation and 1 yr after transplantation in pediatric liver transplant patients aged less than 5 years. We conducted a prospective longitudinal study of HRQOL in pediatric liver transplant recipients, aged less than 5 years to define the impact of liver transplantation on HRQOL and identify factors that predict HRQOL after transplantation. The infant toddler health status questionnaire (ITHQ) was completed at the time of listing for liver transplantation and at 6 and 12 months after liver transplantation. The primary outcome measures were the subscale scores that comprise ITHQ. The mean age (+/-s.e.m.) of the enrolled patients (n = 45) at transplantation was 1.4 (+/-1.2) yr. Thirty-eight (84%) of the enrolled patients completed the study. The highest mean baseline scores of 78.6 (+/-3.3) were for global mental health (GlobalMH). ITHQ subscale scores increased steadily after transplantation. The greatest increase was in the first 6 months after transplant. At 1 yr after transplantation, there were significant increases in all of the ITHQ subscale scores except for GlobalMH. ITHQ subscales were similar for patients who received LDLT compared with those who received cadaver donor liver transplantation (CDLT) at baseline and a year after transplant. Time elapsed as transplantation was a significant predictor of functional health in all of the models generated. Scores for general health (GH), global health (GGH), parental time-impact (PT) and parental time-emotion (PE) were higher for male children. Family cohesion (FC) improved with time elapsed since transplant and increased number of inpatient days. HRQOL improves after transplantation in all of our patients irrespective of the donor type. Functional health scores were higher in patients with normal serum bilirubin at 1 yr post-transplant. Assessment of HRQOL should be an integral part of care for liver transplant patients and their caregivers.     

Survival among children with portal vein thrombosis and end-stage liver disease

Al-Holou S, Mathur AK, Ranney D, Kubus J, Englesbe MJ. Survival among children with portal vein thrombosis and end-stage liver disease.
Pediatr Transplantation 2010: 14: 132–137. © 2009 John Wiley & Sons A/S.
Abstract:  Occlusive PVT concurrent with chronic liver disease is a common clinical entity among pediatric patients referred for transplantation. The natural history of PVT is unknown. Our aim was to determine, using a retrospective cohort design, if children under 13 yr with chronic liver disease and concomitant PVT have an increased mortality risk prior to and after transplantation. A total of 203 patients were included in the study. Nearly 10% of the population had PVT (n = 19); 63.2% of PVT patients (5.9% of total cohort) underwent liver transplantation (n = 12). PVT patients tended to be younger than non-PVT patients at evaluation (1.94 ± 3.51 vs. 3.79 ± 4.11, p = 0.059). Clinical and demographic factors were similar between the two groups. Regarding survival, four PVT patients died, of which two had undergone transplantation. Kaplan–Meier analyses indicated that PVT and non-PVT patients had similar survival from the time of evaluation, on the waiting list, and after transplant. Although limited by sample size, our study suggests that a diagnosis of PVT does not increase the mortality risk for children waiting for a liver transplant. Further study is needed to discern variations in mortality risk that may occur in the pediatric chronic liver disease population with PVT.     

Living donor liver transplantation using a graft from a donor with Dubin–Johnson syndrome

Liu C, Niu D‐M, Hsia C‐Y, Loong C‐C, Lin N‐C, Tsai H‐L, Tsou M‐Y, Chin T. Living donor liver transplantation using a graft from a donor with Dubin–Johnson syndrome.
Pediatr Transplantation 2012: 16: E25–E29. © 2010 John Wiley & Sons A/S. Abstract: DJS is an autosomal recessive disorder that causes an increase in conjugated bilirubin without elevation of liver enzymes. Most patients are asymptomatic and have normal life spans, but to the best of our knowledge, their livers have never been reported to be grafts in liver transplantation. Herein, we report an infant patient with MMA that received a partial liver graft from his mother, who had DJS. A biliary anastomosis stricture was noted five months after transplantation and was successfully treated with radiological interventions. Otherwise, the patient’s liver functions were normal, and a liver biopsy showed a pathognomonic picture of DJS nine months after the transplantation. The patient was followed for one yr, and the results were satisfactory for an increase in oral intake and protein uptake, no recurrence of metabolic stroke and there was a gradual catch‐up with regard to physical development despite having a persistently abnormal profile of amino acid analysis. From the experience of our case, we suggest that a liver from a donor with DJS can be used as a graft for liver transplantation, although long‐term follow‐up is mandatory to examine the grafted liver under the use of immunosuppressive medications.     

BK virus nephropathy in a pediatric heart transplant recipient with post‐transplant lymphoproliferative disorder: A case report and review of literature

BKV is known to cause allograft failure in kidney transplant recipients. It has been recently recognized to cause native kidney nephropathy in non‐kidney transplant recipients. This is a case report BKVN in a 15‐yr‐old HTx recipient who had PTLD and a review of pediatric cases in the literature. The patient was diagnosed with BKVN +189 months after transplantation and died thirty days after diagnosis of BKVN. We identified five other cases of BKVN in pediatric non‐kidney solid organ transplantation, of which all were HTx recipients. Overall, outcome was poor and BKV clearance was not achieved with reduction of immunosuppression and with current therapies. We strongly recommend that pediatric HTx recipients be tested for BKV infection if there is evidence of kidney dysfunction. We also recommend that they have an annual screening for BKV viruria and viremia with the assessment of kidney function.     

Successful renal transplantation following prior bone marrow transplantation in pediatric patients

Improving survival rates following pediatric bone marrow transplantation (BMT) will likely result in greater numbers of children progressing to end-stage renal disease (ESRD) because of prior chemotherapy, irradiation, sepsis, and exposure to nephrotoxic agents. Renal transplantation remains the treatment of choice for ESRD; however, the safety of renal transplantation in this unique population is not well established. We report our experience with living related renal transplantation in three pediatric patients with ESRD following prior BMT. Two patients with neuroblastoma and ESRD because of BMT nephropathy, and one patient with Schimke immuno-osseous dysplasia and ESRD because of immune complex mediated glomerulonephritis and nephrotic syndrome. Age at time of BMT ranged from 2 to 7 yr. All patients had stable bone marrow function prior to renal transplantation. Age at renal transplant ranged from 8 to 14 yr. All three patients have been managed with conventional immunosuppression, as no patient received a kidney and BMT from the same donor source. These patients are currently 7 months to 6 yr status post-living related transplant. All have functioning bone marrow and kidney transplants, with serum creatinine levels ranging 0.6-1.2 mg/dL. There have been no episodes of rejection. One patient with a history of grade III skin and grade IV gastrointestinal-graft-vs.-host disease (GI-GVHD) prior to transplantation, had a mild flare of GI-GVHD (grade I) post-renal transplant and is currently asymptomatic. The incidence of opportunistic infection has been comparable with our pediatric renal transplant population without prior BMT. One patient was treated for basal cell carcinoma via wide local excision. Renal transplantation is an excellent option for the treatment of pediatric patients with ESRD following BMT. Short-term results in this small population show promising patient and graft survival, however long-term follow-up is needed. Pre-existing immune system impairment and bone marrow function should be taken into consideration when weighing different immunosuppressive agents for renal transplantation. Patients who have undergone renal transplantation following BMT are at high risk for opportunistic infections and malignancy, and need life-long medical surveillance.