Y.-W. Liu

Living Donor Liver Transplantation for Biliary Atresia: A Single-Center Experience with First 100 Cases

The aim of this study is to present our institutional experience in living donor liver transplantation (LDLT) as a treatment for end‐stage liver disease in children with biliary atresia (BA). A retrospective review of transplant records was performed. One hundred BA patients (52 males and 48 females) underwent LDLT. The mean follow‐up period was 85.5 months. The mean age was 2.4 years. The mean preoperative weight, height, and computed GFR were 12.2 kg, 82.5 cm, and 116.4 ml/min/1.73 m2, respectively. Twenty‐seven patients were below 1 year of age, and 49 patients were below 10 kg at the time of transplantation. Ninety‐six had had previous Kasai operation prior to transplant. The mean recipient operative time was 628 min. The mean recipient intraoperative blood loss was 176 ml. Thirty‐five did not require blood or blood component transfusion. The left lateral segment (64) was the most common type of graft used. There were 27 operative complications which included 3 reoperations for postoperative bleeding, 9 portal vein, 4 hepatic vein, 4 hepatic artery, and 7 biliary complications. There was one in‐hospital mortality and one retransplantation. The overall rejection rate was 20%. The overall mortality rate was 3%. The 6‐month, 1‐year and 5‐year actual recipient survival rates were 99%, 98% and 98%, respectively.

Active immunization to prevent de novo hepatitis B virus infection in pediatric live donor liver recipients.

This study aims to evaluate the efficacy of HBV vaccination as an alternative preventive measure against de novo HBV infection in pediatric living donor liver transplantation (LDLT). Sixty recipients were enrolled in this study. Thirty received grafts from anti‐HBc(+) donors, and another 30 received grafts from anti‐HBc(−) donors. HBV vaccine was given pretransplant to every candidate. Posttransplant, lamivudine was routinely given to recipients receiving anti‐HBc(+) grafts for about 2 years. Forty‐seven (78%) recipients achieved high levels of anti‐HBs titer (>1000 IU/L). Two (3.3%) recipients developed de novo HBV infection where one received an anti‐HBc(−) graft and another received an anti‐HBc(+) graft. Both recipients were in the lower anti‐HBs titer group (<1000 IU/L). The incidence of de novo HBV infection was significantly higher in the lower titer group (15.4% vs. 0%, p = 0.04). The median follow‐up period was 51 months in recipients with anti‐HBc(−) grafts and 57 months in those with anti‐HBc(+) grafts. Active immunization is an effective method to prevent de novo HBV infection. It can result in high levels of anti‐HBs titer (>1000 IU/L) which may prevent de novo HBV infection in pediatric patients with efficient primary vaccination undergoing LDLT.

The renal‐sparing efficacy of basiliximab in adult living donor liver transplantation

The purpose of this study is to find out whether basiliximab administration will improve postoperative renal function by delaying the start of tacrolimus and decreasing of dosage requirement for tacrolimus in adult living donor liver transplantation (LDLT). Forty‐five adult LDLT recipients were enrolled in the study. The induction group (n = 27) was given basiliximab 20 mg on days 0 and 4; tacrolimus administration was delayed until renal function improved. The control group (n = 18) did not receive basiliximab; tacrolimus was given on the first postoperative day. Trough levels of tacrolimus in the induction and control groups were aimed to be maintained at 5 ‐ 10 ng/ml and 10‐15 ng/ml during the first week after transplant, respectively. The median follow‐up was 22 months (range 10‐34 months). The preoperative conditions were poorer in the induction group (Child C, 56% vs. 33%, P = 0.01; UNOS 2a, 15% vs. 0%, P = 0.02). The intraoperative blood loss was also higher in the induction group than in the control group (median 2,180 ml vs. 495 ml, P < 0.01). The median delay in tacrolimus administration in the induction group was 36 hours (range 24‐108 hours). Serum creatinine levels at second and third postoperative months were significantly lower in the induction group. The creatinine clearance rate in the induction group was higher at the third month posttransplant (median 72 vs. 57 ml/minute, P = 0.04). The incidence of renal insufficiency was significantly lower in the induction group at the third month posttransplant (26% vs. 67%, P < 0.01). Blood cholesterol level at the sixth month posttransplant was lower in the induction group (median 152 vs. 196 mg/dl P = 0.03). The incidences of acute cellular rejection, bacteremia, and cytomegalovirus (CMV) infection were similar in both groups. In conclusion, for pretransplant critical patients with more intraoperative blood loss, basiliximab induction could prevent early renal dysfunction by delaying the start of tacrolimus and reducing the dose requirement of tacrolimus without increasing graft rejection and infection. Furthermore, it also improved renal function as well as lowered cholesterol levels within 6 months after transplantation. (Liver Transpl 2005;11:1258–1264.)

Vascular Stents in the Management of Portal Venous Complications in Living Donor Liver Transplantation

To evaluate the efficacy of stent placement in the treatment of portal vein (PV) stenosis or occlusion in living donor liver transplant (LDLT) recipients, 468 LDLT records were reviewed. Sixteen (10 PV occlusions and 6 stenoses) recipients (age range, 8 months–59 years) were referred for possible interventional angioplasty (dilatation and/or stent) procedures. Stent placement was attempted in all. The approaches used were percutaneous transhepatic (n = 10), percutaneous transsplenic (n = 4), and intraoperative (n = 2). Technical success was achieved in 11 of 16 patients (68.8%). The sizes of the stents used varied from 7 mm to 10 mm in diameter. In the five unsuccessful patients, long‐term complete occlusion of the PV with cavernous transformation precluded catherterization. The mean follow‐up was 12 months (range, 3–24). The PV stent patency rate was 90.9% (10/11). Rethrombosis and occlusion of the stent and PV occurred in a single recipient who had a cryoperserved vascular graft to reconstruct the PV during the LDLT operation. PV occlusion of >1 year with cavernous transformation seemed to be a factor causing technical failure. In conclusion, early treatment of PV stenosis and occlusion by stenting is an effective treatment in LDLT. Percutaneous transhepatic and transsplenic, and intraoperative techniques are effective approaches depending on the situation.

Liver graft-to-recipient spleen size ratio as a novel predictor of portal hyperperfusion syndrome in living donor liver transplantation.

Portal hyperperfusion in a small‐size liver graft is one cause of posttransplant graft dysfunction. We retrospectively analyzed the potential risk factors predicting the development of portal hyperperfusion in 43 adult living donor liver transplantation recipients. The following were evaluated: age, body weight, native liver disease, spleen size, graft size, graft‐to‐recipient weight ratio (GRWR), total portal flow, recipient portal venous flow per 100 g graft weight (RPVF), graft‐to‐recipient spleen size ratio (GRSSR) and portosystemic shunting. Spleen size was directly proportional to the total portal flow (p = 0.001) and RPVF (p = 0.014). Graft hyperperfusion (RPVF flow >250 mL/min/100 g graft) was seen in eight recipients. If the GRSSR was <0.6, 5 of 11 cases were found to have graft hyperperfusion (p = 0.017). The presence of portosystemic shunting was significant in decreasing excessive RPVF (p = 0.059). A decrease in portal flow in the hyperperfused grafts was achieved by intraoperative splenic artery ligation or splenectomy. Spleen size is a major factor contributing to portal flow after transplant. The GRSSR is associated with posttransplant graft hyperperfusion at a ratio of <0.6.

Long-term results of living donor liver transplantation for glycogen storage disorders in children†

Liver transplantation (LT) may be indicated in glycogen storage disorders (GSD) when medical treatment fails to control the metabolic problems or when hepatic adenomas develop. We present our institutional experience with living donor LT (LDLT) for children with GSD. A total of 244 patients underwent primary LDLT at our institution from June 1994 to December 2005. A total of 12 (5%) children (8 female and 4 male) were afflicted with GSD and were not responsive to medical treatment. Nine patients had GSD type I and 3 had GSD type III. The median age at the time of transplantation was 7.27 yr (range, 2.4‐15.7). All patients presented with metabolic abnormalities, including hypoglycemia, and lactic acidosis. In addition, 4 patients presented with growth retardation. A total of 11 patients received left lobe grafts and 1 received a right lobe graft. The mean graft‐to‐recipient weight ratio was 1.25 (range, 0.89‐1.61). Two patients had hepatic vein stenoses that were treated by balloon dilatation; 1 patient had bile leak, which settled spontaneously. The overall surgical morbidity rate was 25%. Three patients had hepatic adenomas in the explanted liver. There was a single mortality at 2 months posttransplantation due to acute pancreatitis and sepsis. The mean follow up was 47.45 months. The metabolic abnormalities were corrected and renal function remained normal. In patients with growth retardation, catch‐up growth was achieved posttransplantation. In conclusion, LDLT is a viable option to restore normal metabolic balance in patients with GSD when medical treatment fails. Long‐term follow‐up after LT for GSD shows excellent graft and patient survival. Liver Transpl 13:848–852, 2007.

Liver graft regeneration in right lobe adult living donor liver transplantation.

Optimal portal flow is one of the essentials in adequate liver function, graft regeneration and outcome of the graft after right lobe adult living donor liver transplantation (ALDLT). The relations among factors that cause sufficient liver graft regeneration are still unclear. The aim of this study is to evaluate the potential predisposing factors that encourage liver graft regeneration after ALDLT. The study population consisted of right lobe ALDLT recipients from Chang Gung Memorial Hospital‐Kaohsiung Medical Center, Taiwan. The records, preoperative images, postoperative Doppler ultrasound evaluation and computed tomography studies performed 6 months after transplant were reviewed. The volume of the graft 6 months after transplant divided by the standard liver volume was calculated as the regeneration ratio. The predisposing risk factors were compiled from statistical analyses and included age, recipient body weight, native liver disease, spleen size before transplant, patency of the hepatic venous graft, graft weight‐to‐recipient weight ratio (GRWR), posttransplant portal flow, vascular and biliary complications and rejection. One hundred forty‐five recipients were enrolled in this study. The liver graft regeneration ratio was 91.2 ± 12.6% (range, 58–151). The size of the spleen (p = 0.00015), total portal flow and GRWR (p = 0.005) were linearly correlated with the regeneration rate. Patency of the hepatic venous tributary reconstructed was positively correlated to graft regeneration and was statistically significant (p = 0.017). Splenic artery ligation was advantageous to promote liver regeneration in specific cases but splenectomy did not show any positive advantage. Spleen size is a major factor contributing to portal flow and may directly trigger regeneration after transplant. Control of sufficient portal flow and adequate hepatic outflow are important factors in graft regeneration.

Needle Tract Implantation of Hepatocellular Carcinoma After Fine Needle Biopsy

The reported incidence of needle tract implantation of hepatocellular carcinoma after fine needle biopsy ranges from 1 to 5%. We collected five cases of hepatocellular carcinoma with needle tract implantation after percutaneous biopsy and tried to determine how this complication affects the clinical outcome. From September 1997 to May 2002, five patients with needle tract implantation of hepatocellular carcinoma were managed in our institution. For treatment of the primary hepatocellular carcinoma, three patients underwent hepatectomy, one had transarterial chemoembolization, and in one patient peritoneal seeding in the needle tract precluded curative resection. All three hepatectomy patients were detected to have tumor implants in the needle tract at an interval of 39 to 58 months after biopsy. These implants were managed with wide surgical excision. Local control was achieved in two patients after repeat resection, whereas the third developed pulmonary metastasis. Thus, in two of five patients, tract implantation after fine needle biopsy changed a potentially curative disease into an untreatable situation. Because of the risk of tumor implantation in the needle tract, we support a policy of selective use of fine needle biopsy for the definitive diagnosis of liver lesions. The patients who do need a biopsy should be carefully followed up for early detection of implanted tumor and its recurrence after resection.

Impacts of Pretransplant Infections on Clinical Outcomes of Patients with Acute-On-Chronic Liver Failure Who Received Living-Donor Liver Transplantation

Background Liver transplantation is the only therapeutic modality for patients with acute-on chronic liver failure (ACLF). These patients are at high risk for bacterial infections while awaiting transplantation. The aim of this study was to elucidate whether an adequately treated bacterial infection influences the outcomes after transplantation in this patient population. Methodology/Principal Findings 54 recipients (median age, 49.5 years [range, 22–60]) of adult-to-adult living donor liver transplant (LDLT) for ACLF were categorized as those with pretransplant infection (Group 1, n = 34) or without pretransplant infection (Group 2, n = 20) for retrospective analyses. With the exception of a higher male-female ratio (P = 0.046) and longer length of pretransplant hospital stay (P = 0.026) in Group 1, similar demographic, laboratory and clinical features were found in both groups. Patients in Group 1 (totally 42 pretransplant infection episodes) were adequately treated with effective antibiotic(s) before receiving LDLT. All included patients were followed up until one year after transplantation or death. Sixty-one posttransplant infection episodes were found in an overall of 44 ACLF patients (27 in Group 1 vs. 15 in Group 2; P = 0.352). Frequently encountered posttransplant infections were intraabdominal infection, pneumonia, bloodstream infection and urinary tract infection. Two patients died in each group (P = 0.622). No significant difference was found in the length of posttransplant ICU stay, and in one-year survival, graft rejection, and posttransplant infection rate between both groups. The longer overall hospital stay (mean day, 89.0 vs. 65.5, P = 0.024) found in Group 1 resulted from a longer pretransplant hospital stay receiving treatment for pretransplant infection(s) and/or awaiting transplantation. Conclusions These data suggested that an adequately treated pretransplant infection do not pose a significant risk for clinical outcomes including posttransplant fatality in recipients in adult-to-adult LDLT for ACLF.

Solitary pulmonary nodule in the liver transplant candidate: Importance of diagnosis and treatment

Our objectives were to define the incidence and etiology of solitary pulmonary nodules (SPNs) in patients undergoing living donor liver transplantation (LDLT), describe a diagnostic approach to the management of SPNs in LDLT, and define the impact of SPNs on the overall survival of adult LDLT recipients. Nine patients (9/152, 5.9%) were diagnosed with an SPN on the basis of chest radiography findings during the pretransplant survey. All were male. The mean age was 52 years. All the patients had hepatitis B virus–related cirrhosis with hepatocellular carcinoma. All were asymptomatic for the lung lesion. All underwent contrast‐enhanced chest computed tomography (CT) to verify the presence and possible etiology of the SPNs. In 3 cases, CT was used to definitely determine that there was no pulmonary nodule; in 2, CT led to a definite diagnosis of pulmonary tuberculosis. In 4, CT led to a definite identification of an SPN but not to an etiological diagnosis. Two patients underwent outright thoracoscopy and biopsy of their SPNs. Biopsy showed cryptococcosis in both patients. One received a therapeutic trial of an antituberculosis treatment, and repeat CT after 1 month showed a regression in the size of the SPN. A diagnosis of tuberculosis was made. One patient had an inconclusive whole body positron emission tomography scan and subsequently underwent thoracoscopy where biopsy showed tuberculosis. A concomitant malignancy, either primary lung cancer or metastasis from the liver tumor, was not identified. All patients were surviving with their original grafts and were lung infection–free. The overall mean posttransplant follow‐up was 54 months (range = 33‐96 months). Liver Transpl 16:760‐766, 2010.