Lymphocytotoxic crossmatch in pediatric living donor liver transplantation

Abstract:  To investigate the relationship between the pretransplant LCT results and the outcome after pediatric LDLT in a single center. The clinical data of 76 children undergoing 79 LDLTs including three retransplantations from May 2001 to January 2006 were retrospectively analyzed. All of the children had end-stage liver disease, and their median age was 1.4 yr (range, six months to 16.5 yr). Immunosuppressive therapy consisted of cyclosporine- or FK-based regimens with steroids. The children were classified into two groups (positive or negative) according to the pretransplant LCT results. The incidences of post-transplant surgical complications and of rejection episodes were compared. The relationship between the pretransplant LCT results and patient and graft survival rates was also analyzed. Seventy-nine pretransplant crossmatch tests were done; 13 (16.5%) were positive, and 66 (83.5%) were negative. No significant difference was found in the pretransplant clinical factors between two crossmatch groups. There was no significant difference between the groups in the incidence of vascular and biliary tract complications, in the rate of early or steroid-resistant cellular rejections, or in one- and three-yr patient (91.7%, 91.7%, respectively, in the positive group, 93.5%, 93.5%, respectively, in the negative group, p = 0.80) and graft (92.3%, 92.3%, respectively, in the positive group, 88.8%, 86.4%, respectively, in the negative group, p = 0.63) survival. The present study demonstrates that there is no reason to do pretransplant LCT to select the living donor for pediatric LDLT.     

Duct-to-duct biliary reconstruction in pediatric living donor liver transplantation

The results of duct-to-duct biliary reconstruction in six pediatric patients who received a living donor liver transplant aged from 2 months to 11 yr old are reported. The graft was either entire or a part of the left lateral segments. The orifice of the bile duct of the graft was anastomosed to the recipients' hepatic duct in an end-to-end fashion by interrupted suture using 6-0 absorbable material. A transanastomotic external stent tube (4 Fr) was passed through the stump of the recipients' cystic duct. Mean time for reconstruction was 24 min. All the recipients survived the operation and reinitiated oral intake on postoperative day 3. There were no early biliary complications. One 5-yr-old boy suffered from an anastomotic stenosis 9 months after transplantation. He underwent re-anastomosis by Roux-en Y (R-Y) procedure and recovered uneventfully. Duct-to-duct anastomosis in pediatric living donor liver transplantation has benefits while the complication rate is comparable to R-Y reconstruction.     

A central approach to splenorenal shunt in pediatric living donor liver transplantation

The management of LSRS is a crucial problem to ensure a sufficient PV flow during pediatric LT. Although several techniques have been indicated to solve this problem, a more appropriate approach to LSRS is still needed in pediatric LT. We herein present a modified surgical approach to the ligation of LSRS via the left side of the IVC for a nine‐month‐old boy with severe portal hypertension and a history of Kasai portoenterostomy. LSRS was identified and exposed through the left side of the IVC and the dorsal surface of the pancreas from the superior side of the body of the pancreas. The post‐operative course was uneventful with an excellent PV flow. The central approach for the ligation of LSRS is worth considering as an alternative procedure for a patient with collateral vessels and a history of multiple laparotomies.     

Early graft failure due to a veno-occlusive disease after a pediatric living donor liver transplantation

A 10-month-old boy with biliary atresia after Kasai procedure underwent a living donor liver transplantation (LDLT). Five days after the LDLT, high fever and increased ascites followed by poor bile drainage was accompanied by elevation of serum liver enzymes. Liver biopsy showed occlusion of the central veins by fibro-edematous endothelium and submassive necrosis of the parenchyma. Veno-occlusive disease (VOD) was suspected, and re-LDLT was urgently performed because of deterioration of hepatic failure. There are few cases of VOD after liver transplantation and this is the first one in an infant after LDLT.     

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.     

Central pontine myelinolysis following pediatric living donor liver transplantation: A case report and review of literature

CPM is one of the most serious neurological complications that can occur after OLT and is characterized by symmetrical demyelinization in the basis pontis. The etiology of CPM remains unclear, although the rapid correction of the serum sodium and CNI concentrations may be associated with the development of CPM. With recent advances in MRI technology, early diagnosis of CPM has become possible. Here, we present the case of a five‐yr‐old female who developed CNI‐associated CPM after undergoing LDLT. A decreased level of consciousness and dysphasia was noted one wk after LDLT, and MRI revealed findings compatible with a diagnosis of CPM. The patient fully recovered from the neurological deficits related to CPM following the switch from the CNI to sirolimus. We propose MRI to be promptly considered for patients with abnormal neurological findings, together with the substitution of CNI with an mTOR inhibitor as a management regimen for CNI‐related CPM.     

Successful pediatric living donor liver transplantation from carrier to carrier of hereditary butyrylcholinesterase variant

Hypocholinesterasemia is often observed clinically, especially in various liver diseases. Not well known, however, is the fact that some patients have a hereditary BChE variant. Little has been reported on liver transplants associated with this hereditary BChE variant. Furthermore, no cases have been reported of a LDLT involving hereditary BChE variant that had been diagnosed preoperatively. A 23-month-old girl who had had a failed Kasai operation for biliary atresia underwent a liver transplant using as a graft her father's lateral segment. Preoperatively, she had been diagnosed with hypocholinesterasemia. As the donor, her father had undergone a preoperative examination, during which he was found to also have hypocholinesterasemia. DNA sequencing revealed that both had the hereditary BChE variant. The unique mutation caused a frame-shift mutation. Variant K was also detected. The patient was discharged 143 days after the operation and has had no problems with immunosuppression since. In conclusion, we report that the hereditary BChE variant is not a contraindication for either transplantation or living liver donation.     

Diaphragmatic hernia in infants following living donor liver transplantation: report of three cases and a review of the literature

DH is a rare complication following LT. This report presents three cases of right-sided DH after LT using a left-sided graft. All of the patients were younger than one yr of age, and they were critically ill owing to their original disease, characterized by biliary atresia, progressive familiar intrahepatic cholestasis, and acute liver failure. DH occurred with sudden onset within three months after LT. All of the cases were promptly diagnosed and treated. A literature review of 24 cases of DH identified four factors associated with DH: left-sided graft, right-sided DH, relatively delayed onset of DH, and age-specific chief complaint. DH following LT should be considered as a potential surgical complication when a left-sided graft is used, especially in small infants with coagulopathy and malnutrition.     

Acquired right diaphragmatic hernia following pediatric living donor orthotopic liver transplantation

ADH following OLT is a rare entity. Herein, we report a case of Alagille syndrome who developed ADH secondary to OLT, and possible etiological causes are discussed in light of the literature.     

The impact of rituximab in ABO‐incompatible pediatric living donor liver transplantation: The experience of a single center

Previous studies have demonstrated the safety of ABO‐incompatible pediatric LDLT using preoperative plasmapheresis and rituximab; however, no reports have described the timing and dosage of rituximab administration for pediatric LDLT. This study aimed to describe a safe and effective dosage and timing of rituximab for patients undergoing pediatric ABO‐incompatible LDLT based on the experience of our single center. A total of 192 LDLTs in 187 patients were examined. These cases included 29 ABO‐incompatible LDLTs in 28 patients. Rituximab was used beginning in January 2004 in recipients older than two yr of age (first period: 375 mg/m² in two cases; second period: 50 mg/m² in two cases; and 200 mg/m² in eight cases). Two patients who received 375 mg/m² rituximab died of Pneumocystis carinii pneumonia and hemophagocytic syndrome. One patient who received 50 mg/m² rituximab required retransplantation as a consequence of antibody‐mediated complications. All eight patients administered 200 mg/m² survived, and the mean CD20⁺ lymphocyte count was 0.1% at the time of LDLT. In the preoperative management of patients undergoing pediatric ABO‐incompatible LDLT, the administration of 200 mg/m² rituximab three wk prior to LDLT was safe and effective.     

Results of pediatric living donor compared to deceased donor liver transplantation in the PELD/MELD era: Experience from two centers on two different continents

The LDLT option in the pediatric population allows recipients to be transplanted early. A total of 202 consecutive pediatric liver transplants from two different institutions—108 (LDLT) and 94 (DDLT)—were retrospectively compared. Overall, one‐ and three‐yr patient and graft survival were similar between DDLT and LDLT. ACR was greater in recipients of DDLT at one and three yr (50.8% and 61.0%) compared to LDLT (30.8% and 32.2%) (p = 0.002). When the data were stratified according to PELD/MELD score, LDLT with a low score had better one‐ and three‐yr graft survival (96.2% and 96.2%) compared to DDLT (88.2% and 85.2%) (p = 0.02), with comparable patient survival (p = 0.75). Patient and graft survival were similar between DDLT and LDLT in the high PELD/MELD group. Lower incidence of ACR in both low and high PELD/MELD groups was (29.6% and 34.3%) for LDLT compared to DDLT (50.3% and 53.3%, p = 0.002 and p = 0.028, respectively). Regardless of PELD/MELD score, status, age group, and recipient weight, LDLT provides excellent patient and graft survival with a lower incidence of rejection compared to DDLT.     

Long‐term outcomes of pediatric living donor liver transplantation at a single institution

Oh SH, Kim KM, Kim DY, Lee YJ, Rhee KW, Jang JY, Chang SH, Lee SY, Kim J‐S, Choi BH, Park S‐J, Yoon CH, Ko G‐Y, Sung K‐B, Hwang G‐S, Choi K‐T, Yu E, Song G‐W, Ha T‐Y, Moon D‐B, Ahn C‐S, Kim K‐H, Hwang S, Park K‐M, Lee Y‐J, Lee S‐G. Long‐term outcomes of pediatric living donor liver transplantation at a single institution.
Pediatr Transplantation 2010: 14:870–878. © 2010 John Wiley & Sons A/S. Abstract: There have only been a few studies on the long‐term outcomes and prognostic factors after pediatric LDLT. We conducted a retrospective, single‐center assessment of the outcomes as well as the demographic and clinical factors that influenced the poor outcomes in 113 children aged <16 (median age 21 months; 6 months–15.5 yr) who underwent 115 LDLTs, predominantly for biliary atresia (60.9%) and FHF (14.8%), between 1994 and 2006 at Asan Medical Center. Left lateral segment or left lobe grafts were implanted into most of these children (86.9%) according to routine procedures. The overall rates of graft survival at one, five, and 10 yr were 89.6%, 83.0%, and 81.5%, respectively, and the overall rates of patient survival were 92.9%, 86.3%, and 84.8%, respectively. Virus‐related disease (41.2%) and chronic rejection (29.4%) were the major causes of mortality. On multivariate analysis, UNOS status 1a and 1b and chronic rejection were significant risk factors for both graft and patient loss, whereas the PELD score >25 was a significant risk factor for graft loss. Patient and graft survival may be related not only to post‐operative complications, but also to the patient’s preoperative clinical condition.     

Hepatic artery reconstruction with inferior mesenteric vein graft in pediatric living donor liver transplantation

Abstract:  We report a transplant of the left lateral liver segments with two arteries for a pediatric recipient from a live donor. A six-month-old female patient was diagnosed with liver cirrhosis secondary to biliary atresia and scheduled for LDLT (father as donor). Left lateral hepatectomy was performed at the donor site. The dissection of the left HA, which divided immediately after its origin, showed two branches for segments II and III. The artery for segment III was anastomosed to the recipient HA. The artery for segment II was too short for direct anastomosis with the gastroduodenal artery. After an unsuccessful attempt to use of the recipient's saphenous vein, the recipient's IMV was used as an interposition graft. No post-operative complications were observed. The outcome of this case demonstrates that left lateral segments with two arteries can be successfully used if proper surgical techniques are applied. From this experience we can recommend the IMV as an alternative to the saphenous vein for an interposition graft.     

Waiting list mortality for pediatric deceased donor liver transplantation in a Japanese living‐donor–dominant program

Living donor liver transplantation (LDLT) has become a major life‐saving procedure for children with end‐stage liver disease in Japan, whereas deceased donor liver transplantation (DDLT) has achieved only limited success. The annual number of pediatric liver transplantations is approximately 100‐120, with a patient 20‐year survival rate of 81.0%. In 2005, the liver transplantation program at the National Center for Child Health and Development in Tokyo, Japan, was initiated, with an overall number of 560 pediatric patients with end‐stage liver disease to date. In July 2010, our center was qualified as a pediatric DDLT center; a total of 132 patients were listed for DDLT up until February 2019. The indications for DDLT included acute liver failure (n = 46, 34.8%), metabolic liver disease (n = 26, 19.7%), graft failure after LDLT (n = 17, 12.9%), biliary atresia (n = 16, 12.1%), and primary sclerosing cholangitis (n = 10, 7.6%). Overall, 25.8% of the patients on the waiting list received a DDLT and 52.3% were transplanted from a living donor. The 5‐year patient and graft survivals were 90.5% and 88.8%, respectively, with an overall waiting list mortality of 3.0%. LDLT provides a better survival compared with DDLT among the recipients on the DDLT waiting list. LDLT is nevertheless of great importance in Japan; however, it cannot save all pediatric recipients. As the mortality of children on the waiting list has not yet been reduced to zero, both LDLT and DDLT should be implemented in pediatric liver transplantation programs.     

Outcomes of pediatric living donor kidney transplantation: A single‐center experience

Renal transplantation is the treatment of choice for children with ESRD offering advantages of improved survival, growth potential, cognitive development, and quality of life. The aim of our study was to compare the outcomes of LDKT vs DDKT performed in children at a single center. Retrospective chart review of pediatric patients who underwent kidney transplantation from 2005 to 2014 was performed. Ninety‐one renal transplants were accomplished, and 31 cases (38.27%) were LDKT, and in 96.7% of the cases, the graft was obtained through laparoscopy. Thirty‐four receptors weighted <25 kg. LDKT group had statistically significant lower cold ischemia times than DDKT one. Complication rate was 9.67% for LDKT and 18.33% for DDKT. eGFR was better in LDKT. Patient survival rate was 100% for LDKT and 98.3% for DDKT, and graft survival rate was 96.7% for LDKT and 88.33%‐80% for DDKT at a year and 5 years. Our program of pediatric kidney transplantation has achieved optimal patient and graft survival rates with low rate of complications. Living donor pediatric kidney transplants have higher patient and better graft survival rates than deceased donor kidney transplants.     

Technique advance to avoid hepatic venous outflow obstruction in pediatric living‐donor liver transplantation

HVOO represents a serious critical complication of pediatric living‐donor liver transplantation because open surgical repair is virtually impossible. Currently, despite several technical innovations and the introduction of triangulated anastomosis for hepatic vein reconstruction, the reported incidence of HVOO is still considerable. The aim of this study was to propose a new technique for hepatic venous reconstruction that avoids the original orifice of the recipient hepatic veins. Instead, anastomosis is performed in a newly created wide longitudinal orifice in the anterior wall of the recipient inferior vena cava. A total of 210 living related‐donor liver transplantations were performed using two methods for reconstruction of the hepatic vein. Group 1 included 69 patients subjected to direct anastomosis of the orifice of the graft hepatic vein and a wide orifice created in the recipient inferior vena cava by the confluence of the orifices of the right, left, and middle hepatic veins. Group 2 included 141 patients in whom the original orifices of the recipient hepatic veins were closed, the inferior vena cava was widely opened, and a long longitudinal anastomosis was performed using two lines of continuous sutures. Diagnosis of HVOO was suspected based on clinical findings and ultrasound studies and then confirmed by liver biopsy and interventional radiology examinations. Among the 69 recipients in group 1, 16 patients died due to graft problems during the postoperative period and eight of the survivors (15.1%) presented with HVOO. In group 2 (141 patients), 21 patients died, and there were no cases of HVOO. A comparison of the incidence of HVOO between groups revealed a significant difference (p = 0.01). Hepatic venous reconstruction during pediatric living‐donor liver transplantation should be performed using a wide longitudinal incision in the anterior wall of the recipient inferior vena cava because this technique eliminated anastomosis complications.     

A case of pediatric live‐donor liver transplantation with a left lateral segment reduction by a linear stapler after reperfusion

In pediatric LDLT, graft reduction is sometimes required because of the graft size mismatch. Dividing the portal triad and hepatic veins with a linear stapler is a rapid and safe method of reduction. We herein present a case with a left lateral segment reduction achieved using a linear stapler after reperfusion in pediatric LDLT. The patient was a male who had previously undergone Kasai procedure for biliary atresia. We performed the LDLT with his father's lateral segment. According to the pre‐operative volumetry, the GV/SLV ratio was 102.5%. As the patient's PV was narrow, sclerotic and thick, we decided to put an interposition with the IMV graft of the donor between the confluence and the graft PV. The graft PV was anastomosed to the IMV graft. The warm ischemic time was 34 min, and the cold ischemic time was 82 min. The ratio of the graft size to the recipient weight (G/R ratio) was 4.2%. After reperfusion, we found that the graft had poor perfusion and decided to reduce the graft size. We noted good perfusion in the residual area after the lateral edge was clamped with an intestinal clamp. The liver tissue was sufficiently fractured with an intestinal clamp and then was divided with a linear stapler. The final G/R ratio was 3.6%. The total length of the operation was 12 h and 20 min. The amount of blood lost was 430 mL. No surgical complications, including post‐operative hemorrhage and bile leakage, were encountered. We believe that using the linear stapler decreased the duration of the operation and was an acceptable technique for reducing the graft after reperfusion.     

Successful living donor liver transplantation for giant extensive venous malformation

We report our success in employing LDLT as a course of treatment for extensive hepatic VM. A 14‐yr‐old pediatric patient presented at our hospital with nosebleed, fatigability, orthopnea, and abdominal distension. He had a history of right hemicolectomy with primary anastomosis due to VM of the transverse colon at age seven. Coagulation abnormalities were apparent, characterized by high international normalized ratio of prothrombin time, decreased fibrinogen level, increased FDPs, and D‐dimer. T2‐weighted magnetic resonance imaging revealed numerous, variable‐sized high signal intensity nodules. Abdominal ultrasonography and CT scan showed hepatomegaly with multiple hypo‐echogenic lesions and arteriovenous shunting in the liver. Doppler ultrasound showed hypokinetic flow in the hypo‐echogenic lesions of liver. Immediate LDLT was performed to avoid spontaneous rupture and DIC. The right lobe of the liver was implanted with temporary portocaval shunt to prevent intestinal congestion and bleeding. Pathologic examination of the explanted liver confirmed the presence of an extensive hepatic VM. The postoperative course was uneventful, and the patient remained symptom‐free with normal liver function throughout the 12‐month follow‐up period.     

Liver graft volumetric changes after living donor liver transplantation with segment 2 graft for small infants

Urahashi T, Mizuta K, Sanada Y, Wakiya T, Yasuda Y, Kawarasaki H. Liver graft volumetric changes after living donor liver transplantation with segment 2 graft for small infants. Abstract: LT for small infants weighing <5 kg with liver failure might require innovative techniques for size reduction and transplantation of small grafts to avoid large‐for‐size graft, but little is known about post‐transplant graft volumetric changes. Five of 172 children who underwent LDLT received monosegment or reduced monosegment grafts using a modified Couinaud’s segment II (S2) graft for LDLT. Serial CT was used to evaluate the changes in the GV and other factors before LDLT and one and three months after LDLT. The shape of these grafts was classified into an OL type and an LL type. The GV increased in all patients one month after LDLT, whereas the GV decreased three months after LDLT in OL in comparison with one month after LDLT. The GRWR of the OL type has tended to decrease at three months, whereas the LL type showed a continuous increase with time, but finally they had adapted graft size for their body size. In conclusion, the volume of S2 grafts after LDLT had unique changes toward the ideal volume for the child weight when they received the appropriate liver volume.