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

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

De novo hepatocellular carcinoma post‐multivisceral transplantation in a child

De novo hepatocellular carcinoma (HCC) post‐transplantation in patients without viral hepatitis is extremely rare, with only three reported adult cases in the English literature. Here, we present a case of de novo HCC that developed in a 7‐year‐old female, who at 8 months of age received a liver, small bowel, spleen, and pancreas transplantation 6.5 years ago for gastroschisis and total parenteral nutrition (TPN)‐related cirrhosis. The post‐transplant course was complicated by Epstein‐Barr virus (EBV) infection, post‐transplant lymphoproliferative disease, and subsequent development of multifocal EBV‐associated post‐transplant smooth muscle tumors (EBV‐PTSMT) in the small bowel 1 year and 10 months after transplantation, respectively. This was managed by reducing immunosuppression with rituximab and EBV‐specific cytotoxic T‐cell therapy. She was noted to have a new lesion in her transplanted liver graft 6.5 years post‐transplantation that was diagnosed as HCC. The HCC was resected, and the patient remained clinically stable for 7 months. At that time, recurrence of the HCC was discovered on MRI. She passed away 6 months after. To the best of our knowledge, this is the first reported occurrence of de novo HCC post‐transplantation in the pediatric population that is unrelated to viral hepatitis in either recipient or donor.     

Critical review of controversial issues in the management of advanced pediatric liver tumors

Hepatocellular carcinoma (HCC) and hepatoblastoma (HB) are the most common primary tumors of liver in children. The management of patients with locally advanced, unresectable disease or those with extra‐hepatic distant metastases provides substantial challenges to pediatric oncologists, hepatologists, and surgeons. Herein, we critically debate the two sides of three specific controversies: (1) the role of chemotherapy in the treatment of advanced pediatric HCC; (2) the indications for liver transplantation in children with HCC, specifically, the appropriateness of using adult Milan criteria; and (3) the role of liver trasplantation in children with unresectable HB that present with metastatic disease. Pediatr Blood Cancer 2011;56:1013–1018. © 2010 Wiley‐Liss, Inc.     

Sorafenib in pediatric hepatocellular carcinoma from a clinician perspective

Abstract

Hepatocellular Carcinoma (HCC) is a rare tumor in children and normally carries poor outcomes. The most frequently employed chemotherapy regimen includes cisplatin and doxorubicin (PLADO), but this combination offers limited efficacy. Sorafenib is a multi-tyrosine kinase inhibitor which, following positive studies in adults with HCC, has begun to be introduced in conjunction with PLADO in pediatric oncology with some encouraging results. Based on these findings, the use of sorafenib is become more common in children with unresectable and/or metastatic HCC. The care of patients receiving sorafenib requires appropriate expertise and standardized pediatric guidelines are lacking. An increasing number of children with HCC are expected to receive sorafenib in the years to come. Pediatric oncology clinicians have a key role in identifying side effects early and clinicians caring for children receiving sorafenib need to be familiar with these. This review article provides suitable and practical information on sorafenib for educational development to optimize clinical care and facilitate enhanced patient/parent education. The article addresses specific areas including mechanisms of action, pre-clinical and clinical evidence, dosing and drug administration and toxicities of sorafenib. Clinical research and recommendations for managing sorafenib-related side effects are discussed. Underpinned by research, this article provides pediatric oncology clinicians with the knowledge required to deliver optimal care to children receiving sorafenib.     

Indications and efficacy of conversion from tacrolimus‐ to sirolimus‐based immunosuppression in pediatric patients who underwent liver transplantation for unresectable hepatoblastoma

SRL‐based immunosuppressive strategies in pediatric liver transplantation are not clearly defined, especially within the first year after liver transplant. TAC is the more common, traditional immunosuppressant used. However, SRL may modulate TAC‐associated kidney injury and may also have antiproliferative properties that are valuable in the management of patients following liver transplantation for HB. We sought to determine whether early conversion from TAC to SRL was safe, effective, and beneficial in a subset of liver transplant recipients with unresectable HB exposed to CDDP‐based chemotherapy. Between 2008 and 2013, six patients were transplanted for unresectable HB. All patients received at least one cycle of CDDP‐based chemotherapy prior to transplant. All patients were switched from TAC‐ to SRL‐based immunosuppression within 1 year of transplant. Five patients had improvement in their mGFR, while one patient had a slight decline. The improvement in mGFR was statistically significant. No adverse events were identified. Three patients had BPAR that responded to pulsed steroids. Historical controls showed similar rates of BPAR within the first year after transplant. There were no identified HB recurrences in the follow‐up time period. Conversion from TAC to SRL appears to be safe and effective in this selected group of pediatric liver transplant recipients without adverse reaction or HB recurrences.     

Transarterial chemoembolization in children to treat unresectable hepatocellular carcinoma

Children with unresectable HCC have a dismal prognosis and few approved treatment options. TACE is an effective treatment option for adults with HCC , but experience in children is very limited. Retrospective analysis was performed of 8 patients aged 4‐17 years (4 male, mean 12.5 years) who underwent TACE for unresectable HCC . Response to TACE was evaluated by change in AFP , RECIST and tumor volume, PRETEXT , and transplantation eligibility by UCSF and Milan criteria. Post‐procedure mean follow‐up was 8.2 years. Mean overall change in tumor volume for the 8 patients was 51%. Percent change in AFP ranged from a decrease of 100% to an increase of 89.3%, with a mean change of ?49.6%. Two patients did not undergo resection or transplantation and died of progressive disease. Six patients underwent orthotopic liver transplantation with mean first TACE ‐to‐transplant interval of 141 days (range 11‐514). Following transplantation, 5 patients were alive at the end of the follow‐up period and one died of recurrent disease. Based on our initial experience, TACE for children with unresectable HCC appears to be a safe and effective method for managing hepatic tumor burden and for downstaging and bridging to liver transplantation.     

Surgical treatment of primary liver tumors in children: Outcomes analysis of resection and transplantation in the SEER database

Adjusted survival outcomes following hepatic resection and transplantation for pediatric liver tumors have not been compared. To address this question, we conducted a retrospective cohort study using the SEER registry. While SEER lacks certain specifics regarding staging, chemotherapy, comorbidities, and recurrence, important hypothesis‐generating data are available and were analyzed using Kaplan–Meier statistics and Cox proportional hazards regression. All SEER patients under the age of 20 yr undergoing surgery for HB (n = 318) or HCC (n = 80) between 1998 and 2009 were included. Of HB patients, 83.3% underwent resection and 16.7% transplantation. Advanced disease, vascular invasion, and satellite lesions were more common among transplant patients. Unadjusted five‐yr survival was equivalent, as was the adjusted hazard of death for transplant relative to resection (HR = 0.58, p = 0.63). Of HCC patients, 75.0% underwent resection and 25.0% transplantation. Transplant patients had a higher prevalence of vascular invasion and satellite lesions. Five‐yr survival was 53.4% after resection and 85.3% after transplant, and the adjusted hazard of death was significantly lower after transplantation (HR = 0.05, p = 0.045). While transplantation is generally reserved for unresectable tumors, the favorable survival seen in HCC patients suggests that liberalized transplant criteria might improve survival, although further prospective data are needed.     

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.     

Growth,body composition,and bone density following pediatric liver transplantation

Patients transplanted for cholestatic liver disease are often significantly fat‐soluble vitamin deficient and malnourished pretransplant, with significant corticosteroid exposure post‐transplant, with increasing evidence of obesity and metabolic syndrome post‐LT. Our study aimed to assess growth, body composition, and BMD in patients post‐pediatric LT. Body composition and bone densitometry scans were performed on 21 patients. Pre‐ and post‐transplant anthropometric data were analyzed. Bone health was assessed using serum ALP, calcium, phosphate, and procollagen‐1‐N‐peptide levels. Median ages at transplant and at this assessment were 2.7 and 10.6 years, respectively. Physiological markers of bone health, median z ‐scores for total body, and lumbar spine aBMD were normal. Bone area was normal for height and BMAD at L3 was normal for age, indicating, respectively, normal cortical and trabecular bone accrual. Median z ‐scores for weight, height, and BMI were 0.6, ?0.9, 1.8 and 0.6, 0.1, 0.8 pre‐ and post‐transplant, respectively. Total body fat percentages measured on 21 body composition scans revealed 2 underweight, 7 normal, 6 overweight, and 6 obese. Bone mass is preserved following pediatric LT with good catch‐up height. About 52% of patients were either overweight/obese post‐transplant, potentially placing them at an increased risk of metabolic syndrome and its sequelae in later life. BMI alone is a poor indicator of nutritional status post‐transplant.     

Liver abnormalities and post‐transplant survival in pediatric Fontan patients

The impact of liver parenchymal abnormalities on survival post‐heart transplant remains unknown in pediatric Fontan patients. We assessed pediatric Fontan patients who underwent heart transplant and had documented pretransplant hepatic ultrasound (U/S) studies. Liver U/S findings were classified as normal (Group 1), mildly abnormal (Group 2, hepatomegaly/vascular congestion), or severely abnormal (Group 3, heterogeneous echotexture/nodularity). Among 30 study patients, 8 were classified as Group 1, 14 as Group 2, while 8 met Group 3 criteria. Pretransplant liver biochemistry and synthetic function were similar in all groups. Six Group 3 patients underwent liver biopsy; 4 demonstrated perisinusoidal or centrilobular fibrosis, and 2 had cirrhosis. Overall mortality was 30% (n = 9). Median follow‐up was 5 years (range, 0.25‐13 years). One‐year survival was similar among all 3 groups (P = .37), with a trend toward higher cumulative 5‐year survival in Group 1 (100%). The majority of pediatric Fontan patients who underwent heart transplant demonstrated abnormal preoperative liver ultrasound findings. Heterogeneous echotexture or nodularity detected on U/S frequently indicates underlying liver parenchymal abnormalities. The presence of severe liver abnormalities was not associated with higher early mortality post‐heart transplant in pediatric Fontan patients; however, late outcomes must be further elucidated.     

Outcomes in pediatric hepatitis C transplant recipients: Analysis of the UNOS database

HCV may lead to the development of ESLD in late childhood and, consequently, contributes to the need for liver transplantation. The aim of this study was to examine post‐transplant outcomes in HCV‐positive pediatric patients with ESLD from any cause and to determine the impact of the PELD scoring system, introduced in February 2002, on post‐transplant patient and graft survival. A retrospective analysis of the UNOS database from 1994 to 2010 was performed to assess graft and patient survival in pediatric HCV‐seropositive liver transplant recipients. Graft survival and patient survival comparing subjects in the pre‐PELD era and post‐PELD era were analyzed using Kaplan–Meier statistics. Factors associated with survival were identified using Cox regression analysis. Of 120 pediatric HCV transplant recipients, 80 were transplanted in the pre‐PELD era and 40 were transplanted post‐PELD. Median serum total bilirubin, INR, and creatinine were 4.8 mg/dL, 1.6, and 0.7 mg/dL in the pre‐PELD era vs. 5.5 mg/dL, 1.7, and 0.6 mg/mL, respectively, in the post‐PELD era (p NS). One‐yr graft survival in the pre‐PELD vs. post‐PELD era was 65.0% and 89.7%, respectively (p < 0.01); corresponding three‐yr graft survival was 57.3% vs. 76.2% (p = 0.04). One‐yr patient survival in the pre‐PELD vs. post‐PELD era was 79.0% and 97.5%, respectively (p < 0.01); corresponding three‐yr survival was 79.0% vs. 89.4% (p = 0.17). Twenty‐eight patients (23.3%) were retransplanted: 24 (30%) in the pre‐PELD era (median time to retransplant 272 days) and four (10%) in the post‐PELD era (median time to retransplant 586 days). Early follow‐up demonstrates a trend toward improved pediatric HCV liver transplant graft and patient survival in the post‐PELD era. Superior outcomes may be attributed to pretransplant factors, improved surgical technique and better treatment options for HCV infection.     

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

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

Extended follow‐up of pediatric liver transplantation patients receiving once daily calcineurin inhibitor

We describe longitudinal results in a cohort of pediatric liver transplant patients successfully minimized to once daily CNI monotherapy for longer than five yr and assess changes in liver biochemistries and liver histology. A retrospective chart review of all pediatric liver transplant patients at a single center was performed. Biopsies and serum biochemistries (AST, ALT, total bilirubin, direct bilirubin, INR, creatinine) are reported at time points: PM, five‐yr, seven‐yr, and nine‐yr post‐minimization. Biopsies were assessed for inflammation and fibrosis using Ishak and Batts grading systems. Successful minimization to daily CNI monotherapy was defined as normal liver enzymes with no episodes of rejection. Thirty‐three patients have successfully remained on once daily CNI for >5 yr, and 19/33 of these patients have serial liver biopsies available for review. We report on the clinical and histological findings of these 19 patients. All 19 patients continue to have normal liver biochemistries. On post‐minimization biopsies, fibrosis progressed by ≥2 stages in one patient (5.3%) despite normal liver biochemistries. Carefully selected patients can tolerate minimization to once daily CNI monotherapy as few have progression of fibrosis.     

Growth of liver allografts over time in pediatric transplant recipients

The liver's capacity to grow in response to metabolic need is well known. However, long‐term growth of liver allografts in pediatric recipients has not been characterized. A retrospective review of pediatric recipients at a single institution identified patients who had cross‐sectional imaging at 1, 5, and 10 years post‐transplant. Using volumetric calculations, liver allograft size was calculated and percent SLV were compared across the different time points; 18 patients ranging from 0.3 to 17.7 years old were identified that had imaging at 2 or more time points. Measured liver volumes increased by 59% after 5 years and 170% after 10 years. The measured liver volumes compared to calculated %SLV for these patients were 123 ± 37%, 97 ± 19%, and 118 ± 27% at 1, 5, and 10 years after transplant, respectively. Our data suggest that liver allografts in pediatric recipients increase along with overall growth, and reach SLVs for height and weight by 5 years post‐transplantation. Additionally, as pediatric recipients grow, the livers appear to maintain appropriate SLV.     

Overweight and obesity in pediatric liver transplant recipients: prevalence and predictors before and after transplant, United Network for Organ Sharing Data, 1987-2010

Perito ER, Glidden D, Roberts JP, Rosenthal P. Overweight and obesity in pediatric liver transplant recipients: Prevalence and predictors before and after transplant, United Network for Organ Sharing Data, 1987–2010.
Pediatr Transplantation 2012: 16: 41–49. © 2011 John Wiley & Sons A/S. Abstract: Obesity is extremely common in adult liver transplant recipients and healthy U.S. children. Little is known about the prevalence or risk factors for post‐transplant obesity in pediatric liver transplant recipients. UNOS data on all U.S. liver transplants 1987–2010 in children 6 months–20 yr at transplant were analyzed. Subjects were categorized as underweight, normal weight, overweight, or obese by CDC guidelines. Predictors of weight status at and after transplant were identified using multivariate logistic regression. Of 3043 children 6–24 months at transplant, 14% were overweight. Of 4658 subjects 2–20 yr at transplant, 16% were overweight and 13% obese. Children overweight/obese at transplant were more likely to be overweight/obese at one, two, and five yr after transplant in all age groups after adjusting for age, ethnicity, primary diagnosis, year of transplant, and transplant type. Weight status at transplant was not associated with overweight/obesity by 10 yr after transplant. The prevalence of post‐transplant obesity remained high in long‐term follow‐up, from 20% to 50% depending on age and weight status at transplant. Weight status at transplant is the strongest predictor of post‐transplant overweight/obesity. To optimize long‐term outcomes in pediatric liver transplant recipients, monitoring for obesity and its comorbidities is important.     

Hepatobiliary scintigraphy for the assessment of biliary strictures after pediatric liver transplantation

Abstract: HBS is used in the management of liver transplantation, a significant complication of which is biliary stricture. Strictures may be intraparenchymal within segments and main duct (non‐anastomotic) or at the biliary‐enteric anastomosis (anastomotic). Strictures are definitively diagnosed, and often managed, by PTC. This is invasive, technically challenging, and requires general anesthesia in young children. HBS may allow early detection of these complications and is non‐invasive. The aim of this study was to review the scintigraphic pattern of biliary strictures using ^99mTcDISIDA HBS following pediatric orthotopic liver transplantation, and to assess its role in the diagnostic algorithm of suspected biliary strictures. All available hepatobiliary studies performed post‐transplant in 101 episodes of liver transplantation in 92 pediatric patients were reviewed. Twenty‐three (23%) patients had known biliary strictures. Twenty‐two patients had adequate studies available for review; five had intrahepatic (non‐anastomotic) strictures alone, nine had a stricture of the anastomosis alone, and eight had both intrahepatic and anastomotic strictures. HBS patterns (either segmental or global changes) correlated very highly with clinically significant biliary strictures. All patients with known strictures had abnormal HBS; hence, in patients with abnormal liver function tests post‐liver transplant, a normal HBS makes strictures very unlikely. We propose that HBS can thus be used to determine if further investigation is required.     

Detection of graft fibrosis by vibration‐controlled transient elastography in pediatric liver transplant recipients

Pediatric liver transplant recipients are at risk of developing graft fibrosis which can affect patient survival. VCTE is a non‐invasive tool that measures LSM and has been shown to correlate with hepatic fibrosis. The aim of this study was to therefore evaluate the ability of LSM to predict fibrosis in pediatric liver transplant recipients with different graft types. We performed a cross‐sectional study evaluating LSM of 28 pediatric liver transplant recipients who underwent a total of 20 liver biopsies within 1 month of LSM. LSM was compared to liver histology as well as graft type: WL or PL. The median LSM of all post‐transplant patients was 5.6 kPa (range = 2.7‐18.3). There was a statistically significant correlation between LSM and METAVIR fibrosis score (P = .001) and LAF score (P < .001). There was no difference in LSM between graft type (P = .088). The AUROC curve for LSM predicting any significant fibrosis (F ≥ 2) was 0.863. A cutoff value of 7.25 had a sensitivity of 71%, specificity of 100%, NPV of 87%, and PPV of 100% for significant fibrosis. LSM by VCTE is feasible in pediatric liver transplant recipients regardless of graft type. We found a significant correlation between LSM and hepatic fibrosis and established a cutoff value that may help determine which patients warrant further evaluation for graft fibrosis.     

Neurologic outcome of urea cycle disorder liver transplant recipients may be predicted by pretransplant neurological imaging

Liver transplantation treats the hepatic affectation of UCDs; however, irreversible neurologic damage pretransplant is difficult to assess providing transplant teams with ethical dilemmas for liver transplantation. The purpose of our study was to determine whether pretransplant neuroimaging can predict developmental outcomes post‐liver‐transplant in children with UCDs. Methods: Patients undergoing liver transplantation for UCDs at Cincinnati Children's Hospital Medical Center between 2002 and 2012 were identified. Neurologic assessments prior to and after transplantation were categorized into mild, moderate, or severe disability. Neuroimaging data were categorized into mild, moderate, or severe by a single pediatric neuroradiologist. Results: Fifteen patients were identified of whom eight had neuroimaging prior to transplantation. Of the eight patients that had neuroimaging, four were categorized as severe, one moderate, and three no‐to‐mild delay. All four patients whose imaging was severe were found to have moderate‐to‐severe neurologic delay. Of the three patients with no‐to‐mild changes on neuroimaging two of three were found to have no‐to‐mild delay on developmental assessments after transplantation. Conclusion: Neuroimaging may be a helpful tool in determining developmental prognosis and outcomes post‐liver‐transplantation for UCDs. Further studies maybe needed to validate our preliminary findings.     

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.     

The kidney in pediatric liver transplantation: An updated perspective

CKD continues to detract from the success of improved survival in pediatric liver transplantation, and its presence is likely under recognized. Here we review the literature regarding the prevalence, etiology, and management of renal dysfunction in pediatric liver transplant recipients. Long‐term studies suggest the prevalence of CKD to be 25–38% by 5–10 yr post‐transplant. While important, sole use of serum creatinine overestimates renal function in this population. Screening for and treatment of persistent proteinuria and hypertension as well as minimization of nephrotoxic insults are the mainstays to delay or prevent CKD progression. Office‐based blood pressure measures are less sensitive than ABPM, which is specifically recommended by the American Heart Association for its ability to diagnose masked hypertension in pediatric liver transplant recipients. Long‐term risk of CKD is predominantly secondary to CNI toxicity. CNI minimization protocols have shown promise in slowing progression of CKD while maintaining graft function, but large‐scale randomized control trials with long‐term follow‐up are needed.