Transplantation for infantile nephronophthisis with loss‐of‐function mutation in NPHP3: Lesson from a case

The choice of KT only or CLKT for infantile NPHP with mild liver fibrosis is understudied. A 5‐year‐old girl was transferred to our center for KT due to ESRD. Her primary disease was infantile NPHP with compound heterozygous NPHP3 mutations: c.458A>C(p.Q153P)/missense mutation and c.2032A>T(p. K678X)/nonsense mutation. The patient had elevated liver enzymes and biopsy‐proven liver fibrosis. As liver synthesis was acceptable, only KT was performed. However, liver fibrosis progressed at 1.5 years after transplantation, manifested with portal hypertension and hypersplenism. Common causes for portal hypertension were excluded, and the progression was attributed to NPHP. AMR attacked allograft at about 2 years post‐transplant. To solve both the liver and the kidney problems, CLKT was performed. Her liver and kidney function recovered initially, but she unfortunately died of pneumonia and subsequent intracranial hemorrhage two weeks later. Nonsense mutation in NPHP3 gene may be correlated with rapid progression of liver disease in infantile NPHP. More studies are required to determine the role of CLKT in these cases; however, combined transplantation may improve long‐term graft and patient survival.     

Combined liver and kidney transplantation and kidney after liver transplantation in children: Indication,postoperative outcome,and long‐term results

CLKT and sequential KALT are decided on a case‐by‐case basis in children for special indications such as ARPKD or PH1. We report on 21 children who underwent CLKT or KALT at our hospital between 1998 and 2013. Eleven children were diagnosed with PH1 and six with ARPKD. Other diagnosis were Joubert syndrome (n = 1), nephronophthisis (n = 1), CF (n = 1), and hepatocellular carcinoma (n = 1). Children (12 males, nine females) were aged 7.8 ± 6.2 yr (range, 10 months to 18 yr) at time of transplantation. Average wait time was 1.9 ± 0.9 yr (range, four months to 2.3 yr). Fifteen patients received dialysis prior to transplantation. In PH1 patients, four children received CLKT, five received KALT, and two infants have received only an LTx, whereas all six patients with ARPKD received CLKT. In patients with other indications, CLKT was performed in three cases and KALT in one girl. Cumulative 10‐yr survival of all 21 patients was 78.4%. At the time of transfer into adult care, 13 patients retained stable liver and kidney function. Regardless the underlying diagnosis, CLKT and KALT can be performed in children with good surgical outcomes and long‐term survival.     

Tacrolimus‐related seizure after pediatric liver transplantation – A single‐center experience

To identify the risk factors for new‐onset seizures after pediatric LT and to assess their clinical implications and long‐term prognosis. The clinical and laboratory data of 27 consecutive children who underwent LT from January 2007 to December 2010 in our center were analyzed retrospectively. Patients were divided into seizures group and a non‐seizures group. Pre‐operative, intra‐operative, and post‐operative data were collected. Seizures occurred in four children, an incidence of 14.8%. All exhibited generalized tonic–clonic seizures within the first two wk after LT. Univariate analysis showed that the risk factors associated with seizures after pediatric LT included gender, pediatric end‐stage liver disease score before surgery, Child–Pugh score before surgery, serum total bilirubin after surgery, and trough TAC level. Multivariate analysis showed that trough TAC level was the only independent risk factor associated with the seizures. All children who experienced seizures survived with good graft function and remained seizure‐free without anti‐epileptic drugs over a mean follow‐up period of 33.7 ± 14.6 months. High trough TAC level was the predominant factor that contributed to seizures in the early post‐operative period after pediatric LT. High PELD and Child‐Pugh scores before LT and high post‐operative serum Tbil may be contributory risk factors for TAC‐related seizures.     

Three‐yr safety and efficacy of everolimus and low‐dose cyclosporine in de novo pediatric kidney transplant patients

The three yr results of a multicenter trial in de novo pediatric KT treated with a proliferative signal inhibitor and low dose CNI are presented. Thirty‐seven children (9.1 ± 5 yr old) received basiliximab, cyclosporine A (CyA C2:1400 ng/mL), (MMF C0:1.5–3 μg/mL), and prednisone. Three wk later everolimus was started (C0:5–10 ng/mL), CyA was reduced (C2:600 ng/mL after 90 days 300 ng/mL), and MMF discontinued. During the three‐yr period patient and graft survivals were 96%. One patient died for causes unrelated to the immunosuppression. Cumulative acute rejection rate including protocol and indication biopsies was 21.9%. None of the patients had signs of chronic humoral rejection. Incidence of dnDSA was 5%, 11%, and 22% at one, two, and three yr post‐transplant, respectively. Mean glomerular filtration rate measured at one yr and three yr post‐transplant was 105.5 ± 31 and 110.7 ± 27 mL/min/1.73 m², respectively. A growth velocity of 7.7 ± 6.7 cm/yr was achieved with positive catch‐up growth. No malignancy or post‐transplant lymphoproliferative diseases were diagnosed. In conclusion, the treatment based on basiliximab induction, everolimus, low‐dose cyclosporine, and low‐dose prednisone leads to good long‐term efficacy in de novo pediatric KT recipients.     

Renal graft outcome after combined liver and kidney transplantation in children: UCLA and UNOS experience

de la Cerda F, Jimenez WA, Gjertson DW, Venick R, Tsai E, Ettenger R. Renal graft outcome after combined liver and kidney transplantation in children: UCLA and UNOS experience.
Pediatr Transplantation 2010: 14:459–464. © 2010 John Wiley & Sons A/S. Abstract: Although it has been described in adults that renal grafts in the context of CLKT have a lower number of AR episodes and improved renal allograft survival, this has never been examined in pediatrics. We performed a single center retrospective case–control study examining 10 patients aged 10 ± 6 yr with a CLKT that survived the post‐surgery period of six months, and compared outcomes to a group of 20 KO transplants matched for age, era, and immunosuppression. We observed a significant reduction in the incidence of AR episodes in the CLKT group. To evaluate whether or not this experience was reproducible nationally, we performed an analysis of the 1995–2005 UNOS database. As of March 2007, 111 CLKT and 3798 KO transplants were identified from the OPTN/UNOS data. There was a significant improvement in the late kidney graft survival at five yr post‐transplant in the CLKT group. These findings support the concept that liver transplantation is immunologically protective of the kidney allograft in CLKT.     

Transient elastography for non‐invasive evaluation of post‐transplant liver graft fibrosis in children

As graft survival in pediatric LT is often affected by progressive fibrosis, numerous centers carry out protocol liver biopsies. Follow‐up biopsy protocols differ from center to center, but all biopsies are progressively spaced out, as time from transplant increases. Therefore, there is a need for non‐invasive techniques to evaluate graft fibrosis progression in those children who have no clinical or serological signs of liver damage. Indirect markers, such as the APRI, should be relied on with caution because their sensitivity in predicting fibrosis can be strongly influenced by the etiology of liver disease, severity of fibrosis, and patient age. A valid alternative could be TE, a non‐invasive technique already validated in adults, which estimates the stiffness of the cylindrical volume of liver tissue, 100‐fold the size of a standard needle biopsy sample. The aims of this study were to evaluate the reliability of TE in children after LT and to compare both the TE and the APRI index results with the histological scores of fibrosis on liver biopsies. A total of 36 pediatric LT recipients were studied. All patients underwent both TE and biopsy within a year (median interval ‐0.012 months) at an interval from LT of 0.36 to 19.47 years (median 3.02 years). Fibrosis was assessed on the biopsy specimens at histology and staged according to METAVIR. There was a statistically significant correlation between TE stiffness values and METAVIR scores (P = .005). The diagnostic accuracy of TE for the diagnosis of significant fibrosis (F ≥ 2) was measured as the area under the curve (AUROC = 0.865), and it demonstrated that the method had a good diagnostic performance. APRI was not so accurate in assessing graft fibrosis when compared to METAVIR (AUROC = 0.592). A liver stiffness cutoff value of 5.6 kPa at TE was identified as the best predictor for a significant graft fibrosis (METAVIR F ≥ 2) on liver biopsy, with a 75% sensitivity, a 95.8% specificity, a 90% positive predictive value, and an 88.5% negative predictive value. These data suggest that TE may represent a non‐invasive, reliable tool for the assessment of graft fibrosis in the follow‐up of LT children, alerting the clinicians to the indication for a liver biopsy, with the aim of reducing the number of protocol liver biopsies.     

AST‐to‐platelet ratio index in non‐invasive assessment of long‐term graft fibrosis following pediatric liver transplantation

Long‐term graft fibrosis occurs in the majority of pediatric liver transplant recipients. Serial biopsies to monitor graft health are impractical and invasive. The APRI has been evaluated in pediatric liver disease, but not in the context of post‐transplantation fibrosis. We aimed to investigate the validity of APRI as a predictor of long‐term graft fibrosis in pediatric liver transplant recipients. This was a retrospective, observational study of a cohort of children who underwent liver transplantation at King's College Hospital between 1989 and 2003, with a relevant dataset available. Protocol liver biopsies were performed at 10‐yr follow‐up and fibrosis was graded using the Ishak scoring system, with S3‐6 denoting “significant fibrosis.” APRI was calculated concurrently with biopsy. A total of 39 asymptomatic patients (20 males; median age at transplant, 1.43 yr) underwent protocol liver biopsies at a median of 10.39 yr post‐transplantation. APRI was associated with significant fibrosis (p = 0.012). AUROC for APRI as a predictor of significant fibrosis was 0.74 (p = 0.013). The optimal cutoff APRI value for significant fibrosis was 0.45 (sensitivity = 0.67; specificity = 0.79; PPV = 0.67; NPV = 0.79). APRI appears to be a useful non‐invasive adjunct in the assessment of significant graft fibrosis in the long‐term follow‐up of pediatric liver transplant survivors.     

Overweight,central obesity,and cardiometabolic risk factors in pediatric liver transplantation

PTMS describes the presence of ≥3 cardiometabolic risk factors that include obesity, hypertension, dyslipidemia, and IR. The prevalence of the clustering of ≥3 cardiometabolic risk factors or central obesity has not been studied in pediatric LT recipients. Single‐center, cross‐sectional study. Inclusion criteria: LT recipients 2–18 yr‐old, at least one yr post‐LT. Exclusion criteria: recipients of liver retransplants or multivisceral transplants. Eighty‐seven patients were identified. Median age was 9.8 yr (range 2–18), median time since LT was 6.9 yr (range 1–17). The most common indication for LT was biliary atresia (56%), and the most frequently used immunosuppressant was tacrolimus (80%). The prevalence of overweight and obesity was 21% and 5%, respectively. Central obesity affected 14%, hypertension 44%, IR 27%, low HDL 20%, and hypertriglyceridemia 39% of patients. The prevalence of ≥3 cardiometabolic risk factors was 19%. Fifty percent of the overweight/obese patients had ≥3 risk factors. Time since transplant, immunosuppression and renal function were not different between those with <3 or ≥3 risk factors. Clustering of cardiometabolic risk factors is prevalent in pediatric LT recipients, suggesting an increased risk of future CV events.     

Liver transplantation for neonatal‐onset citrullinemia

Citrullinemia or ASS deficiency in its classical form presents in the neonatal period with poor feeding, hyperammonemia, encephalopathy, seizures, and if untreated can be fatal. Despite advances in medical therapy, neurocognitive outcomes remain suboptimal. LT has emerged as a potential management option. A retrospective single‐center review identified 7 children with a median age of 1.1 years (range, 0.6‐5.8) at referral. Five children presented clinically, and 2 were treated prospectively from birth due to positive family history. All patients received standard medical and dietary therapy prior to LT. The indications for LT were frequent metabolic decompensations in 4, elective in 2, and ALF in 1. The median age at LT was 2.4 years (range, 1.3‐6.5). Five patients received 6 left lateral segment grafts, one a live unrelated donor left lateral segment as an APOLT graft, and one a cadaveric whole liver graft as APOLT. One child required retransplantation due to hepatic artery thrombosis. Graft and patient survival were 86% and 100%, respectively. Median follow‐up is 3.1 years (range, 0.1‐4.1), and the median age at follow‐up is 5.5 years (range, 4.0‐9.8). There have been no metabolic decompensations in 6 children, while 1 patient (with APOLT) developed asymptomatic hyperammonemia with no clinical or histological signs of liver injury, requiring additional medical therapy. Our medium‐term experience following LT in citrullinemia is favorable, demonstrating a positive transformation of the clinical phenotype.     

Living donor liver transplantation in Alagille syndrome—Single center experience from south Asia

To analyze the clinical characteristics and the outcomes of living donor liver transplantation in children with Alagille syndrome (AGS). Clinical data of children with AGS who underwent liver transplantation between July 2009 and May 2019 in our unit were retrospectively analyzed. Primary end‐points were patient and graft survival. Ten children with AGS underwent living donor liver transplantation at a median age of 28 months (range, 12‐84 months). Jaundice was the most common initial symptom and was noted after a median duration of 20 days after birth (range, 7‐60 days). Two patients had undergone Kasai porto‐enterostomy for misdiagnosis of biliary atresia. The most common indication for transplantation was severe pruritus with poor quality of life. Explant livers in three children showed cirrhosis with early well‐differentiated hepatocellular carcinoma. We have 100% patient and graft survival at a mean follow‐up of 32 months (range 3‐72 months). The median z‐score for weight and height at liver transplantation was ?2.66 (range: ?6.44 to ?0.9) and ?3.6 (range: ?7.96 to ?0.93) while at follow‐up was ?1.7 (range: ?3.4 to ?0.35) and ?2.1 (range: ?3.9 to ?1.4), respectively. The estimated glomerular filtration rate was normal pretransplant and follow‐up. This is the first series of LDLT for Alagille syndrome in the Indian sub‐continent. We report excellent post‐transplant outcomes in contrast to outcomes reported from Western literature.     

Alemtuzumab induction in pediatric kidney transplantation

Recipient parenchymal lymphatic cells are crucial for direct and indirect pathways of allorecognition. We proposed that alemtuzumab, being infused several weeks pretransplant could eradicate peripheral lymphatic cells and promote donor‐specific tolerance. We present here a single center, retrospective review of 101 consecutive living‐donor kidney transplantations to pediatric patients aged from seven month to 18 yr, performed between September 2006 and April 2010. Immunosupression protocol included two 30 mg doses of alemtuzumab: first given 12–29 d prior to transplantation and second at the time of transplantation. Maintenance immunosupression was based on combination of low dose and wide range CNI and mycophenolate. Patients were followed for 3.8 ± 1.4 yr and protocol biopsies were taken one month, one, and three yr post transplant. The Kaplan–Meier graft and patient survival was 96% and 97% for one yr, 89% and 93% for three yr. Biopsy proven acute rejection developed in 26% patients at one yr and in 35% at two yr, no rejections occurred beyond two yr. We conclude that alemtuzumab pretreatment prior to living related donor kidney transplantation allows to reach satisfactory middle‐term results in pediatric patients with wide range and low CNI concentrations.     

Liver transplantation for urea cycle disorders in pediatric patients: A single‐center experience

LT has emerged as a surgical treatment for UCDs. We hypothesize that LT can be safely and broadly utilized in the pediatric population to effectively prevent hyperammonemic crises and potentially improve neurocognitive outcomes. To determine the long‐term outcomes of LT for UCDs, charts of children with UCD who underwent LT were retrospectively reviewed at an academic institution between July 2001 and May 2012. A total of 23 patients with UCD underwent LT at a mean age of 3.4 yr. Fifteen (65%) patients received a whole‐liver graft, seven patients (30%) received a reduced‐size graft, and one patient received a living donor graft. Mean five‐yr patient survival was 100%, and allograft survival was 96%. Mean peak blood ammonia (NH₃) at presentation was 772 μmol/L (median 500, range 178–2969, normal <30–50). After transplantation, there were no episodes of hyperammonemia. Eleven patients were diagnosed with some degree of developmental delay before transplantation, which remained stable or improved after transplantation. Patients without developmental delay before transplantation maintained their cognitive abilities at long‐term follow‐up. LT was associated with the eradication of hyperammonemia, removal of dietary restrictions, and potentially improved neurocognitive development. Long‐term follow‐up is underway to evaluate whether LT at an early age (<1 yr) will attain improved neurodevelopmental outcomes.     

A child with unresectable biliary rhabdomyosarcoma: 48‐month disease‐free survival after liver transplantation

We describe here a two‐yr‐old boy with biliary RMS successfully treated by chemotherapy and LT. The child presented with obstructive jaundice at 20 months of age. A mildly vascularized, non‐calcified, partially cystic lesion was visualized in the left hepatic lobe. Solid infiltration of the common bile duct and of both left and right hepatic ducts was suspected. Liver biopsy suggested a botryoid‐type embryonal RMS originating from the biliary tract. After extrahepatic spread of the tumor was excluded, a biliary drain was applied and neoadjuvant chemotherapy was started. After the treatment, although reduced in volume, the mass was still unresectable without aggressive surgery and gross residual disease. LT with a reduced segment II/III graft was performed four months after diagnosis. The patient received six cycles of adjuvant chemotherapy, and he is alive and recurrence‐free 48 months post‐transplantation. A posteriori, the transplant might have possibly been avoided with an aggressive resection with biliary reconstruction. Nevertheless, although the risk of the transplant has to be balanced against the chemoresponsiveness of the tumor, the four‐yr disease‐free survival of this patient suggests that, when coupled with effective chemotherapy, transplantation might be considered a potential treatment for unresectable biliary RMS.     

Prope tolerance after pediatric liver transplantation

pT, under mono‐ and infratherapeutic calcineurin inhibition, may constitute an optimal condition combining graft acceptance with low IS load and minimal IS‐related toxicity. We reviewed 171 pediatric (<15.0 yr) survivors beyond one yr after LT, transplanted between April 1999 and June 2007 under tacrolimus‐based regimens (median follow‐up post‐LT: 6.0 yr, range: 0.8–9.5 yr). Their current status regarding IS therapy was analyzed and correlated with initial immunoprophylaxis. pT was defined as tacrolimus monotherapy, with mean trough blood levels <4 ng/mL during the preceding year of follow‐up, combined with normal liver function tests. The 66 children transplanted before April 2001 received a standard tacrolimus–steroid regimen. Beyond April 2001, 105 patients received steroid‐free tacrolimus–basiliximab or tacrolimus–daclizumab immunoprophylaxis. In the latter group, 43 (41%) never experienced any acute rejection episode and never received steroids. In the long term, a total of 79 recipients (47%) developed pT (n = 73) or IS‐free operational tolerance (n = 6), 27 of them belonging to the 43 steroid‐free patients (63%). In contrast, only 52/128 (41%) children treated with steroids subsequently developed prope/operational tolerance (p = 0.012). Steroid‐free tacrolimus‐based IS seems to promote long‐term graft acceptance under minimal/no IS. These results constitute the first evidence that minimization of IS, including steroid avoidance, might be tolerogenic in the long term after pediatric LT.     

Hepatopulmonary syndrome associated with nodular regenerative hyperplasia after liver transplantation in a child

HPS is a significant complication of portal hypertension in children with chronic liver disease and is an established indication for LT. It is characterized clinically by the triad of pulmonary vascular dilatation causing hypoxemia in the setting of advanced liver disease. NRH, a cause of non‐cirrhotic portal hypertension, is characterized by diffuse benign transformation of the hepatic parenchyma into small regenerative nodules with minimal or no fibrosis. Development of NRH and HPS in pediatric LT recipients has not been reported, although occasional cases have been reported in adult LT recipients. In this report, we discuss a case of a three‐yr‐old male who developed HPS, two yr after LT. Pulmonary and cardiac causes for hypoxemia were ruled out by appropriate investigations including a chest X ray, echocardiogram, cardiac catheterization, and a CT angiographic study. The diagnosis of HPS was confirmed via bubble echocardiogram that demonstrated intrapulmonary shunting. Open liver biopsy revealed marked NRH. The patient underwent liver retransplantation that resulted in complete reversal of his pulmonary symptoms and normal oxygen saturations within three months after LT.     

Comparison of Histidine‐Tryptophan‐Ketoglutarate and University of Wisconsin preservation solutions in pediatric liver transplantation

UW and HTK solutions are the two primary organ preservation solutions most used in the United States. This study analyzes use of the two solutions in all pediatric liver transplants performed at a single center between 2001and 2017. Outcome measures included early graft function, as well as graft and patient survival. Bile duct complications were reviewed. Operative technique, immunosuppressive protocols, and donor acceptance criteria remained uniform among participating surgeons throughout the study period. There were 104 pediatric liver transplants with complete data during the study period, 75 preserved with HTK (68%) and 29 with UW (26%). Demographics were similar. Cold and warm ischemia times were similar. Peak ALT post‐transplant was higher in the UW group at both peak and post‐transplant day 3. The peak TB levels were similar. Bile duct strictures were more common in the UW group (44% vs 16%, P < .01). Early graft survival was statistically similar at 7‐, 90‐ and 365‐days post‐transplant. Cox regression graft survival was similar at 10‐years. This study suggests that use of HTK in pediatric liver transplantation is safe with outcomes similar to UW, though bile duct stricture rates may be lower with HTK.     

Cardiovascular risk factors and cardiac disorders in long‐term survivors of pediatric liver transplantation

The MetS and cardiovascular disease are leading causes of late morbidity in adult liver transplantation recipients; however, limited data are available in pediatric liver transplantation. A single‐center retrospective review was undertaken for patients who had a liver transplantation before 18 yr of age and were >5 yr post‐transplantation, to study the prevalence of MetS, its components, and cardiac disorders. Fifty‐eight patients were included in the study with a mean age at transplantation of 6.3 ± 6.1 yr and mean follow‐up of 14.1 ± 6.0 yr. Of the study group, 41.4% were overweight or obese, with ongoing prednisone use and increased duration of follow‐up being significant risk factors. Fifty‐three patients had sufficient data for determining MetS, which was present in 17% of the patients. Although the prevalence of MetS is low in pediatric liver transplant recipients, it is associated with CKD and prednisone therapy (p < 0.05). Echocardiography data were available for 23 patients, of whom 43.4% had LVH and 13% had evidence of PH. The spectrum of cardiac disorders in this population is much wider than in adults.     

Stable long‐term renal function after pediatric liver transplantation

Herlenius G, Hansson S, Krantz M, Olausson M, Kullberg‐Lindh C, Friman S. Stable long‐term renal function after pediatric liver transplantation.
Pediatr Transplantation 2010: 14:409–416. © 2010 John Wiley & Sons A/S. Abstract: Long‐term exposure to calcineurin inhibitors increases the risk of CKD in children after LT. The aims of this study were to study renal function by measuring GFRm before and yearly after LT, to describe the prevalence of CKD (stage III: GFR 30–60 mL/min/1.73 m²) and to investigate if age and underlying liver disease had an impact on long‐term renal function. Thirty‐six patients with a median age of 2.9 years (0.1–16 yr) were studied. Median follow‐up was 6.5 (2–14 yr). GFRm decreased significantly during the first six months post‐transplantation with 23% (p < 0.001). Thereafter renal function stabilized. At six months, 17% (n = 5) of the children presented CKD stage III and at five yr the prevalence of CKD III was 18% in 29 children. However, in 13 children with a 10‐year follow‐up it was 0%. None of the children required renal replacement therapy after LT. When analyzing renal function of those children younger than two yr (n = 14) and older than two yr (n = 17) at the time of transplantation, we found that in both cohorts the filtration rate remained remarkably stable during the five‐yr observational period. However, there was a statistically significant (p < 0.05) difference in the percentual decrease in GFRm between the groups during the first six months after LT 13% and 31%, respectively. Baseline GFRm according to diagnosis did not differ between the groups. During the first six months after LT, patients transplanted for hepatic malignancy (n = 6) and those with metabolic liver disease (n = 4) had a percentage loss of GFRm of 32% and 35%, respectively. The corresponding loss of GFRm in patients with other diseases was 10‐19%. Six months post‐transplantation mean GFRm in the group with malignant liver disease was 65 ± 15 mL/min/1.73 m² and in the group with other diseases (n = 24) 82 ± 17 mL/min/1.73 m² (p < 0.05). At one, three and five yr post‐transplantation there was no longer a statistically significant difference between these cohorts. Our findings suggest that there can be a long‐term recovery of renal function after LT in children.     

Results after the adoption of a MELD/PELD‐based liver allocation policy in Argentina

In July 2005, Argentina switched from a categorical liver allocation system to a MELD/PELD‐based policy for patients with CLD. To analyze WL outcomes and survival after LT in children. From January 2000 to December 2010, 923 children were registered. Two consecutive five‐yr periods were analyzed and compared: Era I (January 2000–July 2005) (n = 379) and Era II (July 2005–December 31, 2010) (n = 544). All data were prospectively collected and analyzed using the Kaplan–Meier method. After adopting the MELD/PELD system, WL registrations increased by 44% (from 379 to 544) and the number of LT increased by only 24% (from 278 to 365). However, three‐month WL mortality rate (32% to 18%, p < 0.0001, HR 2.002 CI 95% 1.5–2.8) decreased significantly. No significant differences were observed between Era 1 and II in one‐yr post‐LT survival (77.5% vs. 84.1%, p = 0.3053) and in acute re‐LT rate (9% vs. 5%, p = 0.1746). Under the MELD/PELD‐based allocation system in Argentina, mortality on the WL significantly decreased in children with CLD without affecting post‐LT survival, although reduced access to LT was observed.     

Living‐donor liver transplantation for mild Zellweger spectrum disorder: Up to 17 years follow‐up

Mild Zellweger spectrum disorder, also described as Infantile Refsum disease, is attributable to mutations in PEX genes. Its clinical course is characterized by progressive hearing and vision loss, and neurodevelopmental regression. Supportive management is currently considered the standard of care, as no treatment has shown clinical benefits. LT was shown to correct levels of circulating toxic metabolites, partly responsible for chronic neurological impairment. Of three patients having undergone LT for mild ZSD, one died after LT, while the other two displayed significant neurodevelopmental improvement on both the long‐term (17 years post‐LT) and short‐term (9 months post‐LT) follow‐up. We documented a sustained improvement of biochemical functions, with a complete normalization of plasma phytanic, pristanic, and pipecolic acid levels. This was associated with stabilization of hearing and visual functions, and improved neurodevelopmental status, which has enabled the older patient to lead a relatively autonomous lifestyle on the long term. The psychomotor acquisitions have been markedly improved as compared to their affected siblings, who did not undergo LT and exhibited a poor neurological outcome with severe disabilities. We speculate that LT performed before the onset of severe sensorineural defects in mild ZSD enables partial metabolic remission and improved long‐term clinical outcomes.