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??Fulminant hepatic failure is dangerous and often fatal disorder with high mortality. Pediatric fulminant hepatic failure causeing by different etiology should be ready to do liver transplantation with assessment as soon as possible??if conservative treatment can't stop progress. At present?? the technology of liver transplantation has been developed maturely. Both Living donor liver transplantation and Cadaver liver transplantation can obtain good prognosis. More importantly?? it’s critical to take time to save children’s life.     

Liver transplantation for fulminant hepatic failure in infancy: A single center experience

Abstract:  FHF is characterized by a high percentage of unknown causes leading to acute liver failure and furthermore by an increased morbidity and mortality prior to and post-Ltx. In different transplant centers, the reasons leading to FHF differ significantly as well as outcome. We report our single center experience with 30 pediatric patients receiving a liver transplant for FHF, out of a total of 83 children presenting with FHF. The time to transfer patients to the transplant center after the diagnosis of FHF was long, with a median of 14 days (Ltx group) and 12 days (controls), respectively. In nearly half of the patients (n = 14) in the Ltx group, we were not able to establish an exact diagnosis prior to Ltx: 50% suffered from encephalopathy, and 13 patients were treated in the intensive care unit prior to transplant. Because of the availability of different surgical techniques, all children received a timely transplant [split (n = 18), living donor (n = 9), whole organ (n = 2), and reduced liver (n = 1)]. Patient survival was 93.4%, and graft survival was 83.4% for at least one yr follow-up. Severe complications following Ltx included three cases with aplastic anemia and one child suffering from systemic mitochondrial depletion syndrome. The survival of patients treated medically was 83%. We conclude that a strong focus should be made on early referral to a specialized center and on improvement of diagnostic tools to timely detect the underlying reason for FHF. Results following Ltx for FHF are good.     

Liver transplantation in children with fulminant hepatic failure: The UCL experience

Abstract:  The outcome of pediatric LT for FHF was shown to be poor in our center. To better understand such results, recipient and transplant parameters with a putative impact on post-transplant outcome were analyzed in LT for FHF. Between March 1984 and June 2002, 33 children with FHF received a primary liver allograft. The overall results in this series were studied with respect to pre-operative demographic and metabolic variables, peri-operative events, and outcome. Five-yr patient and graft survivals were 71% and 66%, respectively, with a retransplantation rate at 18%. Incidences of perioperative hemorrhage, of HAT and PVT were 14%, 8%, and 4%, respectively. Five-yr acute rejection-free survival rate was 55%. These data confirm the worse outcome following LT for FHF when compared with LT in elective, non-malignant indications such as BA; results in FHF could not be related to surgical or immunological complications in the post-transplant period and it is hypothesized that the MOF associated with FHF contributes to early post-transplant mortality which would justify special management, including aggressive renal and hepatic support.     

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.     

Lifesaving liver transplantation for multi‐organ failure caused by Bacillus cereus food poisoning

Bacillus cereus is a spore‐forming, gram‐positive bacterium that causes food poisoning presenting with either emesis or diarrhea. Diarrhea is caused by proteinaceous enterotoxin complexes, mainly hemolysin BL, non‐hemolytic enterotoxin (NHE), and cytotoxin K. In contrast, emesis is caused by the ingestion of the depsipeptide toxin cereulide, which is produced in B. cereus contaminated food, particularly in pasta or rice. In general, the illness is mild and self‐limiting. However, due to cereulide intoxication, nine severe cases with rhabdomyolysis and/or liver failure, five of them lethal, are reported in literature. Here we report the first case of life‐threatening liver failure and severe rhabdomyolysis in this context that could not be survived without emergency hepatectomy and consecutive liver transplantation.     

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??The true incidence of fulminant hepatic failure in the pediatric population is unknown?? though fulminant hepatic failure is a rare but devastating syndrome??such as hepatic encephalopathy??DIC??MODS?? that results in the death of most children affected. The mainstay of the treatment is liver transplantation??however?? organ shortage limits its use.The purpose of this review is to introduce the current situation of fulminant liver failure in children??focusing on assessing the application of artificial liver??which is considered to play a pivotal role in the treatment of fulminant liver failure.According to its classification??we mainly discussed the application of non-biological artificial liver?? including its indications??advantages and disadvantages??especially the MARS. At present?? the artificial liver treatment also faces many problems. None of the ELS techniques has yet been evaluated systematically in children??and survival benefits have not yet been demonstrated.     

Portal vein reconstruction using vein grafts in pediatric living donor liver transplantation: Current status

PV reconstruction is an important aspect of LDLT, with post‐transplant outcomes depending on PV reconstruction methods. However, it is unclear whether the preferential selection of these techniques is dependent on preoperative recipient characteristics. This retrospective study assessed whether preoperative recipient factors differed in pediatric patients who did and did not receive VGs for PV reconstruction. Of 113 pediatric patients who underwent LDLT from January 2010 to July 2015, 31 (27%) underwent PV reconstruction with VGs and the other 82 (73%) without VGs. The presence of collateral vessels (P<.0001) and ascites (P=.02); PV size (P<.001), thrombosis (P=.01) and the direction of flow (P=.01), Child‐Pugh class A vs B/C liver function (P=.01), Alb concentration (P=.02), primary diagnosis: BA vs non‐BA (P=.03), and previous abdominal surgery (P<.005) differed significantly in patients who did and did not receive VGs for PV reconstruction. PV complications, patient survival, and graft survival did not differ significantly in patients with and without VGs at 1‐year follow‐up. VGs should be harvested for recipients with pretransplant hypoplastic PV, intense collaterals, hepatofugal flow, poor liver status, or previous abdominal surgery.     

Anesthetic issues in pediatric liver transplantation

Pediatric liver transplantations are becoming increasingly more common. Recent advances in the surgical and anesthetic management of these cases have greatly improved the survival rate. In order to successfully manage the anesthesia in these patients, one needs to have a thorough understanding of the pathophysiology of end-stage liver disease and the subsequent anesthetic implications. It is also necessary to appreciate the stages of the surgical procedure, as each stage presents different dilemmas to the anesthesiologist. This article will review the pathophysiology of liver failure in pediatric patients and outline the particular issues related to each stage of liver transplantation, allowing for the anticipation and management of the derangements that occur during surgery.     

A new surgical technique for hepatic vein reconstruction in pediatric live donor liver transplantation

Abstract:  The hepatic venous reconstruction is one of the corner stones of pediatric LDLT. However, problems associated with hepatic venous outflow still remain to be an issue. In this study, we aimed at comparing two methods used in hepatic venous reconstruction. Between November 1999 and December 2006, 61 consecutive left lateral segment pediatric LDLT were performed at Ege University Organ Transplant Center, and two methods were used for hepatic venous reconstruction. In the former group (group 1: 32 patients) continuous anastomosis was performed between the donor LHV and common orifice of the recipient HV. In the later group (group 2: 29 patients), the posterior wall of the anastomosis was sutured continuously while the anterior wall was sutured with interrupted sutures. HV thrombosis was detected in one patient and stenosis was detected in four patients in group 1. No hepatic venous outflow obstruction was detected in group 2 (p < 0.05). In both groups, mortality was not associated with hepatic venous outflow obstruction. As our results indicate, the novel technique used in this study is a simple and safe anastomosis procedure that has contributed into overcoming hepatic venous outflow problems in pediatric LDLT.     

Management of late‐onset portal vein complications in pediatric living‐donor liver transplantation

The purpose of this study was to evaluate retrospectively the results of PTA for late‐onset PV complications after pediatric LDLT and to assess whether a meso‐Rex shunt is a viable option for treating restenosis of the PV after PTA in selected cases. Seventy‐five children who underwent adult‐to‐child LDLT were included in this study, and there were six late‐onset PV complications (8.0%). The initial therapeutic approach was PTA, with or without stent: PTA with balloon dilation for three children, PTA with stent placement for one child, and failure to cannulate the occluded PV for two children. A meso‐Rex shunt was performed in the two children after failed PTA: One suffered complete obstruction of the main PV, and the other, restenosis with total thrombosis after PTA with stent. The PTA was a technical and clinical success in four with PV stenosis of the six patients (66.7%), and successful application of a meso‐Rex shunt in the other two children resulted in restoration of PV flow. In conclusion, PTA is a safe and effective procedure for treating late‐onset PV stenosis after pediatric LDLT. However, in growing pediatric recipients with restenosis of the PV after PTA or chronic PV thrombosis, a meso‐Rex shunt may be a better choice for late‐onset PV complications.     

Perioperative anticoagulation practices for pediatric liver transplantation

Despite continued advancements in perioperative care for pediatric liver transplant (LT), graft‐threatening vascular occlusion events including hepatic artery thrombosis (HAT) and portal vein thrombosis (PVT) remain a source of significant morbidity and mortality. Perioperative anticoagulation is commonly used for the prevention of HAT and PVT, but evidence‐based guidelines are lacking. The goals of this survey were to determine the frequency of use of an anticoagulation protocol and to describe variation in anticoagulation practices among pediatric LT centers. The study consisted of an online survey distributed to members of SPLIT. The survey focused on institutional anticoagulation practices employed to reduce the incidence of graft and life‐threatening vascular occlusion events. Responses were received from 31 of 39 SPLIT centers. All respondents report using anticoagulation after pediatric LT, and approximately 90% have institutional anticoagulation protocols. Subgroup analysis of high volume pediatric LT centers revealed similar variability in anticoagulation patterns. All participating SPLIT centers reported the use of post‐transplant anticoagulation and nearly all use a protocol. However, there is marked variability in the type and dose of anticoagulation as well as the timing of initiation and duration of therapy across centers.     

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.     

Unusual shunt for symptomatic portal vein thrombosis after liver transplantation - Clatworthy revisited

PV thrombosis is not an uncommon occurrence following pediatric LT. Symptomatic PHT following PV thrombosis is treated medically, surgical portosystemic shunting (mesorex, splenorenal, and mesocaval) being reserved for refractory cases. A 10-yr-old boy suffered recurrent malena and hemorrhagic shock because of chronic PV thrombosis following LT nine yr ago (1999). Extensive work-up failed to localize the bleeding source. The liver function remained normal. Initial attempts at surgical shunts failed owing to thrombosis (mesocaval 2001, splenorenal, inferior mesenteric-left renal vein, splenic-left external iliac vein 2008). In this situation, we performed a Clatworthy shunt by anastomosing the divided lower end of the LCIV to the side of SMV. There was a single, large caliber anastomosis. Post-operatively, the malena stopped completely, and clinically, there was no lower limb edema or encephalopathy. Doppler USG revealed persistence of hepatopetal flow within the portal collaterals. Follow-up at two yr reveals stable hepatic function with a patent shunt. To the best of our knowledge, we are not aware of a Clatworthy shunt being performed in a transplant setting. We reviewed the literature pertaining to this shunt in non-transplant patients with PHT.     

Improved outcomes in pediatric liver transplantation for acute liver failure

Miloh T, Kerkar N, Parkar S, Emre S, Annunziato R, Mendez C, Arnon R, Suchy F, Rodriguez‐Laiz G, Del Rio Martin J, Sturdevant M, Iyer K. Improved outcomes in pediatric liver transplantation for acute liver failure.
Pediatr Transplantation 2010: 14:863–869. © 2010 John Wiley & Sons A/S. Abstract: OLT is a life‐saving option for ALF. Aim: To evaluate our outcomes in pediatric OLT for ALF. Methods: Retrospective review of our data between 1992 and 2007. Results: Of 142 children with ALF, 126 were listed, of which 40 spontaneously improved, nine died, and 77 underwent OLT (median waiting time four days). Fifty‐three children received deceased donor grafts (34 whole and 19 split grafts), and there were 24 living donor grafts. The one‐ and five‐yr patient survival was 87% and 80%, and graft survival 83% and 79%, respectively. Thirteen patients died after OLT, and there were nine retransplants in seven patients. Patient weight, length of stay, creatinine, and infection were significantly associated with death; increased weight and black ethnicity were associated with graft loss on univariate analysis, but not on multivariate analysis. There were no significant differences in patient survival (one and five yr), graft loss, or other complications between the groups. Conclusion: We report the largest single‐center study of OLT in pediatric ALF, demonstrating no difference in outcomes between different graft types. Our liberal use of segmental grafts may allow earlier OLT in this high‐risk cohort and contribute to our excellent outcomes.     

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.     

Modified triangular hepatic vein reconstruction for preventing hepatic venous outflow obstruction in pediatric living donor liver transplantation using left lateral segment grafts

HVOO can be a critical complication in pediatric LDLT. The aim of this study was to evaluate a modified triangular technique of hepatic vein reconstruction for preventing HVOO in pediatric LDLT. A total of 298 pediatric LDLTs were performed using a left lateral segment graft by 2 methods for reconstruction of the hepatic vein. In 177 recipients, slit‐shaped anastomosis was indicated with partial clamp of the IVC. A total of 121 recipients subjected to the modified triangular anastomosis with total clamp of the IVC. We compared the incidence of hepatic vein anastomotic complications between these 2 methods. Nine of the 177 cases (5.3%) treated with the conventional technique were diagnosed with outflow obstruction. All 9 cases underwent hepatic vein reconstruction with the slit‐shaped hepatic vein anastomosis. In contrast, there were no cases of outflow obstruction in the 121 cases treated with the modified triangular anastomosis. The modified triangular technique of hepatic vein reconstruction with total clamping of the IVC was useful for preventing HVOO in pediatric LDLT.