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.     

Waiting list outcome of Peld/Meld exceptions: A single‐center experience in Argentina

As PELD/MELD‐based allocation policy was adopted in Argentina in 2005, a system of exception points has been in place in order to award increased waitlist priority to those patients whose severity of illness is not captured by the PELD/MELD score. We aimed to investigate the WL outcome of patients with granted PELD/MELD exceptions. A retrospective cohort study was conducted in children under 18 years old. WL outcomes were evaluated using univariable analysis. From 07/2005 to 01/2014, 408 children were listed for LT. There were 304 classified by calculated PELD/MELD. During this time, 85 (30%) PELD/MELD exceptions were granted. In this cohort, 89.4% (76 of 85) were transplanted and 7.1% (6 of 85) died while on the WL. The remaining 3 pts (3.5%) were removed from the WL due to other causes. We compared the impact of PELD/MELD exceptions in those 85 patients to outcomes in 87 non‐exception patients with PELD/MELD ≥19 points. Patients with the exception had significantly better access to WL and lower WL mortality. Our data suggest that children listed by PELD/MELD exceptions had an advantage compared to children with CLD with equivalent PELD/MELD listing priorities.     

Pretransplant increases in left ventricular volume and mass are associated with QT prolongation during pediatric liver transplantation

Structural alterations in the cirrhotic heart may contribute to electromechanical abnormalities, represented by QT prolongation. The aim of this study was to investigate the changes in QTc according to the operative stage during pediatric LT and to identify which baseline echocardiographic parameters were associated with intraoperative QTc prolongation. Data were evaluated from 39 children undergoing LT for chronic liver disease (median age 9 months). In 19 patients (48.7%), baseline QTc was prolonged ≥440 ms (462 ± 19 ms). Through the period of post‐reperfusion, QTI, QTc, and JTI progressively increased, although values partially recovered toward the end of surgery. High LVMI (≥82.51 g/m²) was associated with baseline QTc ≥ 440 ms (OR = 1.034, P = .032). In the 5 minutes post‐reperfusion stage, marked QTc prolongation (defined as QTc ≥ 500 ms; n = 24, 61.5%) was significantly associated with high EDVI (OR = 1.060, P = .027) and SVI (OR = 1.075, P = .026). In children with chronic liver disease, increased ventricular volumes and mass may increase the risk of QTc prolongation during LT, suggesting that repolarization abnormalities might be contributed by structural changes characteristic of cirrhotic cardiomyopathy.     

Evaluation of renal functions in pediatric liver transplantation

AKI is an important complication after LT. As our LT series contains a quite high number of children with ALF unlike published studies, we aimed to determine pre‐LT and long‐term renal functions in children both with ALF and with CLD. Demographic and disease‐related data of 134 transplanted children were evaluated retrospectively. Pre‐LT and follow‐up GFR and pediatric RIFLE scores were determined. Mean pre‐LT GFR was not dependent on the disease presentation or severity of chronic disease. While there was an initial decline until first week of post‐LT in CLD children, an increase was observed in ALF. Neither mean GFR nor the pRIFLE on follow‐up was different with respect to the type of LT or disease presentation. Mean GFR at first and sixth months were lower in children on cyclosporine compared to tacrolimus (p = 0.001 and p = 0.002, respectively). In conclusion, GFR–time curve was different in children with or without ALF. Type of LT, and severity of the CLD were not risk factors for CKD in any time, but younger age at LT, CLD, and cyclosporine usage were at sixth months of follow‐up.     

Effects of rural status on health outcomes in pediatric liver transplantation: a single center analysis of 388 patients

Rural status of patients may impact health before and after pediatric LT. We used UI codes published by the USDA to stratify patients as urban or rural depending county residence. A total of 388 patients who had LT and who met criteria were included. Rejection, PTLD, and survival were used as primary outcome measures of post-LT health. UNOS Status 1 and PELD/MELD scores >20 were used as secondary outcome measures of poorer pre-LT health. Logistic regression models were run to determine associations. We did not find any statistically significant differences in pre- or post-LT outcomes with respect to rurality. Among rural patients, there was a general trend for decreased incidence of rejection (25.0% vs. 33.4%; OR 0.64, 95% CI 0.29-1.44), increased risk of PTLD (5.6% vs. 3.4%; OR 1.86, 95% CI 0.36-3.31), and decreased survival (OR 0.85, 95% CI 0.34-2.13) after LT. Rural patients also tended to be sicker at the time of LT than patients from urban areas, with increased proportion of Status 1 (OR 1.17, 95% CI 0.51-2.70) and PELD/MELD scores >20 (OR 1.20, 95% CI 0.59-2.45). From a single center experience, we conclude that rurality did not significantly affect health outcomes after LT, although a larger study may validate the general trends that rural patients may have decreased rejection, increased PTLD, and mortality, and be in poorer health at the time of LT.     

Pediatric acute liver failure: Etiology,outcomes, and the role of serial pediatric end‐stage liver disease scores

To describe etiology, short‐term outcomes and prognostic accuracy of serial PELD scores in PALF. Retrospective analysis of children aged ≤16 yr, admitted with PALF under the QLTS, Brisbane, Australia, between 1991 and 2011. PELD‐MELD scores were ascertained at three time points (i) admission (ii), meeting PALF criteria, and (iii) peak value. Fifty‐four children met criteria for PALF, median age 17 months (1 day–15.6 yr) and median weight 10.2 kg (1.9–57 kg). Etiology was known in 69%: 26% metabolic, 15% infective, 13% drug‐induced, 6% autoimmune, and 9% hemophagocytic lymphohistiocytosis. Age <3 months and weight <4.7 kg predicted poor survival in non‐transplanted children. Significant independent predictors of poor outcome (death or LT) were peak bilirubin > 220 μm /L and peak INR > 4. Serial PELD‐MELD scores were higher in the 17 (32%) transplant recipients (mean: [i] 26.8, [ii] 31.8, [iii] 42.6); highest in the 12 (22%) non‐transplanted non‐survivors (mean: [i] 31.6, [ii] 37.2, [iii] 45.7) compared with the 25 (46%) transplant‐free survivors (mean: [i] 25.3, [ii] 26.0, [iii] 30.3). PELD‐MELD thresholds of ≥27 and ≥42 at (ii) meeting PALF criteria and (iii) peak predicted poor outcome (p < 0.001). High peak bilirubin and peak INR predict poor outcome and serial PELD‐MELD is superior to single admission PELD‐MELD score for predicting poor outcome.     

Impaired intention‐to‐treat survival after listing for liver transplantation in children with biliary atresia compared to other chronic liver diseases: 20 years’ experience from the Nordic countries

Biliary atresia (BA) is the most common indication for LT in children. We investigated whether this diagnosis per se, compared to other chronic liver diseases (OCLD), had an influence on patient survival. Data from 421 Scandinavian children, 194 with BA and 227 with OCLD, listed for LT between 1990 and 2010 were analyzed. The intention‐to‐treat survival and influencing risk factors were studied. Patients with BA had higher risk of death after listing than patients with OCLD. The youngest (<1 year) and smallest (<10 kg) children with the highest bilirubin (>510 μmol/L), highest INR (>1.6), and highest PELD score (>20) listed during 1990s had the worst outcome. Given the same PELD score, patients with BA had higher risk of death than patients with OCLD. For adolescents, low weight/BMI was the only prognostic marker. Impaired intention‐to‐treat survival in patients with BA was mainly explained by more advanced liver disease in younger ages and higher proportion of young children in the BA group rather than diagnosis per se. PELD score predicted death, but seemed to underestimate the severity of liver disease in patients with BA. Poor nutritional status and severe cholestasis had negative impact on survival, supporting the “sickest children first” allocation policy and correction of malnutrition before surgery.     

Outcomes in infants listed for liver transplantation: A retrospective cohort study using the United Network for Organ Sharing database

LT in neonates and young infants can be challenging due to a variety of factors. To describe the waitlist mortality rates and outcomes of patients listed and transplanted as infants identified from the UNOS database. Infants listed for LT between January 1985 and September 2010 were identified from the UNOS database. Mortality on the waitlist as well as outcomes post‐LT was compared between infants aged ≤60 days (Group 1), 61–179 days (Group 2), and 180–364 days (Group 3). Of 6763 infants listed for LT (Group 1 n = 496, Group 2 n = 2404, Group 3 n = 3863), mean age at listing was 196 ± 87 days (Group 1, 29 ± 16 days; Group 2, 132 ± 32 days; Group 3, 257 ± 52 days). Waitlist mortality was highest in Group 1 (Group 1 vs. 3 HR 3.01, 95% CI 2.19–4.15, Group 2 vs. Group 3 HR 0.82, 95% CI 0.66–1.03). One‐ and five‐yr graft survival was 59.6% and 42% (Group 1), 66% and 45% (Group 2), and 66.8% and 41% (Group 3) (one‐yr survival p = 0.20; five‐yr survival p = 0.19). Infants listed for LT at age ≤60 days had greater waitlist mortality risk than older infants. Infants undergoing LT at age ≤60 days had similar rates of patient and graft survival to older infants.     

Need for liver transplantation in Indian children

BACKGROUND: Liver transplantation (LT) is the most successful and accepted mode of therapy for failing liver in children. Pediatric LT has neither been widely attempted nor its need objectively assessed in our country. OBJECTIVE: To assess requirement of LT in children at a tertiary care hospital. METHODS: Data of children admitted to pediatric GE services (January 1992 to June 1997) were retrospectively analyzed. Subgroups of children with acute liver disease (ALD), chronic liver disease (CLD), neonatal cholestasis syndrome (NCS) and other etiology were evaluated for need for LT according to established criteria. RESULTS: Of the total 301 inpatients with liver diseases assessed at our center, ALD constituted 26% (n=79), CLD 35% (n=106), NCS 27% (n=82) and miscellaneous 11% (n=34). Among ALD, 19% (n=15) had FHF and 67% (n=10) qualified for LT (INR>4.0). Of CLD, LT was warranted in 13% (2/15) cases of Wilson's disease (Wilson's score > 6) and 60% of cirrhotics (n=40/66) with decompensation. NCS comprised extrahepatic biliary atresia (EHBA) in 43, choledochal cyst in 2, paucity of intralobular bile duct (PILBD) in 2, neonatal hepatitis in 23, and was of indeterminate etiology in 12 cases. Of NCS groups, LT was the only therapeutic option in 45% (n=36) of cases (EHBA 34, choledochal cyst 2). Of 34 cases of EHBA requiring LT, 32 presented after 4 months of age and other 2 children had decompensation before four months of age. Both children with choledochal cysts had decompensated liver disease. One patient of Crigler Najjar syndrome type I had kernicterus and qualified for LT. CONCLUSION: Our data shows need for LT in 30% of children with liver diseases constituted by cirrhosis (45%), biliary atresia (38%) and FHF (11%).     

Artificial neural network is highly predictive of outcome in paediatric acute liver failure

Current prognostic models in PALF are unreliable, failing to account for complex, non‐linear relationships existing between multiple prognostic factors. A computational approach using ANN should provide superior modelling to PELD‐MELD scores. We assessed the prognostic accuracy of PELD‐MELD scores and ANN in PALF in children presenting to the QLTS, Australia. A comprehensive registry‐based data set was evaluated in 54 children (32M, 22F, median age 17 month) with PALF. PELD‐MELD scores calculated at (i) meeting PALF criteria and (ii) peak. ANN was evaluated using stratified 10‐fold cross‐validation. Outcomes were classified as good (transplant‐free survival) or poor (death or LT) and predictive accuracy compared using AUROC curves. Mean PELD‐MELD scores were significantly higher in non‐transplanted non‐survivors (i) 37 and (ii) 46 and transplant recipients (i) 32 and (ii) 43 compared to transplant‐free survivors (i) 26 and (ii) 30. Threshold PELD‐MELD scores ≥27 and ≥42, at meeting PALF criteria and peak, gave AUROC 0.71 and 0.86, respectively, for poor outcome. ANN showed superior prediction for poor outcome with AUROC 0.96, sensitivity 82.6%, specificity 96%, PPV 96.2% and NPV 85.7% (cut‐off 0.5). ANN is superior to PELD‐MELD for predicting poor outcome in PALF.     

Infectious complications in pediatric liver transplantation candidates

Cakir M, Arikan C, Akman SA, Baran M, Saz UE, Yagci RV, Zeytunlu M, Kilic M, Aydogdu S. Infectious complications in pediatric liver transplantation candidates.
Pediatr Transplantation 2010: 14: 82–86. © 2009 John Wiley & Sons A/S.
Abstract:  We analyzed infections that occurred within one month prior to LT, identified factors associated with their occurrence and effect of infections on post-transplant mortality. The study group included 40 consecutive children who underwent LT. Sites and types of infection and culture results were recorded prospectively. IID was assessed. Risk factors for the infectious events were analyzed. Forty infection episodes were found in 24 patients (60%); 90% were bacterial, 7.5% fungal, and 2.5% viral. Overall, IID was 38.2 per 1000 patient days. Sites of bacterial infection were urinary tract in 13 events (36.1%) and blood stream in 11 events (30.5%). Bacteremia (culture positive infection episodes) was identified in 19 events (52.7%). Gram-negative isolates were twice as frequent as Gram-positive infections (63.1% vs. 36.9%). Risk factors for the infectious complications were young age, low body weight, prior abdominal surgery, chronic liver disease related to biliary problems, presence of ascites, portal hypertension and cirrhosis, and high PELD score (p < 0.05 for all). Infectious complications in pediatric LT candidates are common. Preventive measures are important not only to reduce the infectious complications but also to prevent the post-operative mortality.     

Hyponatremia increases mortality in pediatric patients listed for liver transplantation

Carey RG, Bucuvalas JC, Balistreri WF, Nick TG, Ryckman FR, Yazigi N. Hyponatremia increases mortality in pediatric patients listed for liver transplantation.
Pediatr Transplantation 2010: 14: 115–120. © 2009 John Wiley & Sons A/S.
Abstract:  To evaluate hyponatremia as an independent predictor of mortality in pediatric patients with end-stage liver disease listed for transplantation. We performed a single-center retrospective study of children listed for liver transplantation. We defined hyponatremia as a serum sodium concentration <130 mEq/L that persisted for at least seven days. The primary outcome was death on the waiting list. Ninety-four patients were eligible for the study. The prevalence of hyponatremia was 26%. Kaplan–Meier survival analysis demonstrated that patients with hyponatremia had decreased pretransplant survival compared with patients who maintained a serum sodium >130 mEq/L (p < 0.001). Univariable association analyses demonstrated death on the waiting list was also associated with higher median PELD scores at listing (p = 0.01), non-white race (p = 0.02), and age <1 yr (p = 0.001). Logistic regression analysis identified hyponatremia and non-white race as independently associated with pretransplant mortality [OR = 8.0 (95% CI: 1.4–45.7), p = 0.02 and OR = 6.3 (95% CI: 1.25–33.3), p = 0.03]. When hyponatremia was added to the PELD score, it was significantly better in predicting mortality than the PELD score alone ( c -statistic = 0.79, p = 0.03). Hyponatremia identifies a subset of pediatric patients with increased risk of pretransplant mortality and improves the predictive ability of the current PELD score.     

Living donor liver transplantation for biliary atresia – An Indian experience

LT has played a significant role in improving the outcome of children with BA. We review our five‐yr experience of LDLT for children with BA. Records of all children who underwent LDLT in our institution over a five‐yr period (August 2010–June 2015) were reviewed and those with a primary diagnosis of BA were selected for our study. Data were extracted from a prospectively maintained database. Additional data were collected by review of case notes and imaging studies. Analysis was carried out using standard statistical means. One hundred and thirty‐two children underwent LDLT at our center over the study period, of which 58 children (31 females) had a primary diagnosis of BA. Thirty‐three (56.9%) children had undergone a prior KPE and 25 (43.1%) had a primary LT. Thirty‐four children had at least one post‐op complication, of which 13 had minor complications (Clavien grades I and II) and 21 had major complications (Clavien grade >II). Thirty‐day survival was 96.6% and one‐yr survival was 91.4%. Univariate analysis of variables comparing children who did and did not have a KPE prior to LT showed that age at LT, weight at LT, PELD, and GRWR were significantly different. LDLT provides excellent outcomes in children with BA. Primary LDLT and LT after KPE provide equivalent results, although the former is technically more challenging as the child is younger.     

Liver and combined lung and liver transplantation for cystic fibrosis: analysis of the UNOS database

A proportion of patients with CF develop cirrhosis and portal hypertension. LT and combined LLT are rarely performed in patients with CF. To determine the outcome of LT and LLT in patients with CF. Patients with CF who had LT or LLT between 10/1987 and 5/2008 were identified from UNOS database. A total of 182 children (<18 yr) and 48 adults underwent isolated LT for CF. Seven more children and eight adults with CF underwent combined LLT. One- and five-yr patient and graft survival were not significantly different in patients who underwent LT in comparison with patients who underwent LLT (patient survival: LT; 83.9%, 75.7%, LLT; 80%, 80%; graft survival: LT; 76.1%, 67.0%, LLT; 80.0%, 80.0%, respectively). The two major causes of death after LT were pulmonary disease (15 patients, 22.7%) and hemorrhage (12 patients, 18.2%). Bilirubin was identified as a risk factor for death, and previous liver transplant and prolonged cold ischemic time were identified as risk factors for graft loss in LT patients. LT is a viable option for children and young adults with CF and end-stage liver disease. Outcome of LLT patients with CF was comparable to the outcome of patients with CF who underwent isolated LT.     

Timed Pediatric Risk of Mortality Scores predict outcomes in pediatric liver transplant recipients

More reliable methods are needed to identify children at risk for poor outcomes following liver transplantation. The Pediatric Risk of Mortality (PRISM) Score is a physiology-based scoring system used to quantify risk of mortality in pediatric intensive care unit (ICU) populations. We evaluated the PRISM Score as a predictor of outcomes including survival in the pediatric liver transplant (LT) population. We retrospectively reviewed the records of 67 consecutive LTs performed between August 1997 and February 2000 at an urban, tertiary children's hospital in Chicago, IL, USA. Four PRISM Scores were calculated to determine which periods were most meaningful. A Classic PRISM Score was calculated during first 24 h of ICU admission, and three PRISM Scores were timed with the patient's transplant: a pre-LT PRISM Score (24 h prior to transplant whether in ICU or not), a 24-h post-LT PRISM Score and a 48-h post-LT PRISM Score. These PRISM Scores and other predictors including transplant number, UNOS status and PELD Score were compared with outcomes including survival using univariate methods. The pre-LT, the 24- and the 48-h PRISM Score were associated with the post-LT number of ventilated days (p < 0.05), ICU days (p < 0.05) and with 1-yr survival (p < 0.04). The PRISM Scores were not related to the post-LT hospital length of stay (LOS) or to 1-yr re-transplantation. The PELD Score correlated with the post-LT hospital LOS, but was not associated with mortality or with the ICU LOS. A patient's UNOS status and Classic PRISM Score were not associated with any of the outcomes measured. PRISM Scores are valid predictors of outcome including survival in pediatric LT recipients. These findings help to demonstrate the importance in this population of a patient's general physiologic condition and its influence on the overall hospital course and survival.     

Pediatric liver transplantation for fibropolycystic liver disease

Fibropolycystic liver disease includes CHF, Caroli's syndrome, and Caroli's disease. Patients with Caroli's disease and Caroli's syndrome have an increased risk of recurrent cholangitis, intrahepatic calculi, biliary cirrhosis, and cholangiocarcinoma. The aim of this study was to examine the post-transplantation outcomes of children with fibropolycystic liver disease. Of the 158 children transplanted at Seoul National University Hospital, there were four patients with Caroli's syndrome, two patients with CHF, and one patient with Caroli's disease. One patient underwent combined liver/kidney transplantation. Associated renal manifestations included ARPKD in three children and nephronophthisis in one child. The indications for LT were recurrent cholangitis, decompensated cirrhosis, and refractory complications of portal hypertension. Both graft and patient survival rates were 100% at a median follow-up period of two yr after LT. Three children with growth failure achieved catch-up growth after LT. In three patients with ARPKD, mean serum creatinine levels increased from 0.53 mg/dL at the time of LT to 0.91 mg/dL at the last follow-up (p = 0.01). LT is an excellent option for children with complications from fibropolycystic liver disease. Renal function should be monitored cautiously after LT in the patients with ARPKD.     

The pediatric risk of mortality score in infants and children with fulminant liver failure

The pediatric risk of mortality (PRISM) score as a severity scoring system has never been assessed in infants and children with fulminant liver failure (FLF). A retrospective case study of 109 infants and children admitted in a 22-bed pediatric and neonatal intensive care unit of a tertiary university hospital, National Referral Center for Pediatric Liver Transplantation, from March 1986 to August 1997 was carried out. PRISM score was not significantly different within etiologic FLF categories, or between infants and children. However, PRISM score (mean +/- SD) showed significant difference (p = 0.001) between the 27 patients who spontaneously recovered with supportive care (8.8 +/- 5.0) and 82 patients who underwent emergency liver transplantation (ELT) or those who died before (14.9 +/- 7.7). PRISM score-based probability of mortality was underestimated when compared with observed mortality. A death probability higher than 20% had a 24% sensitivity and 95% specificity for severe outcome. Reciever operating characteristic curve for PRISM score showed elevated discriminative power (Az = 0.91) for discerning children with severe outcome from those who spontaneously recovered with supportive care. A PRISM score more than 10 showed an odds ratio of 2.69 for predicting severe outcome (95% CI: 1.11-6.55; p = 0.038). In conclusion, the PRISM score is an accurate means of severity assessment in pediatric FLF. However, PRISM score-based mortality was of low predictive value.     

First experience with basiliximab in pediatric liver graft recipients

Several studies have shown a significant reduction of acute cellular graft rejection in adult liver and kidney graft recipients treated with monoclonal anti-interleukin-2 (IL-2)-receptor antibodies. The mechanism was inhibition of activated T-helper cells by blocking the alpha-chain (CD25) of the IL-2 receptor. The pilot study described here evaluated the use of basiliximab in pediatric liver transplantation (LTx), which is the first report on its use in children. Fifty-two liver-transplanted children were analyzed in this study. A matched-pair historical control group (n = 26) received cyclosporin A (CsA) and prednisolone, and patients in the basiliximab group (n = 26) were treated with low-dose CsA and basiliximab (after reperfusion and on day 4 post-transplant). The incidences were compared of acute graft rejections, infectious complications, and the adverse effects of immunosuppressive medication within the first 6 months post-transplant. The incidence of acute rejection was significantly higher in the control group (61.5% vs. 11.5%, p = 0.0004). The frequency of infectious complications was similar (46.1% vs. 53.8%). Patients in the basiliximab group showed less arterial hypertension; however, the differences were not statistically significant (30.7% vs. 7.7%, p = 0.07). Nephrotoxicity, hepatotoxicity or neurotoxicity were only seen in the control group (7.7%; 3.8%; 3.8%, respectively). Hence, the use of basiliximab in combination with CsA and steroids in pediatric liver transplant recipients is safe and reduces the incidence of acute graft rejection. Further studies are needed to confirm our preliminary results and to analyze long-term effects on post-transplant lymphoproliferative disease, chronic rejection, and patient survival.     

Clarithromycin treatment and QT prolongation in childhood

The effect of clarithromycin on the QT interval was studied in a group of 28 children treated for respiratory tract infections. QTc was measured before and following 24 h of treatment. A modest (average 22 ms, 95% CI 14-30 ms) but significant QTc prolongation (p<0.001) was observed, with seven cases having a QTc >440 ms during treatment (including a single case with QTc >460 ms). CONCLUSION: Serial QTc measurements are necessary for early detection of children at risk for drug-induced arrhythmias.     

Risk factors for chronic anemia in pediatric orthotopic liver transplantation: analysis of data from the SPLIT registry

Risk factors for chronic anemia in the post-transplant period have not been clearly delineated in pediatric liver transplant recipients. We analyzed data from children transplanted from 2000 to 2008 with at least two consecutive hemoglobin values from follow-up between six months and five yr post-transplant. A multivariate model was derived to determine independent risk factors associated with chronic anemia. Of 1026 children in this analysis, 242 (23.6%) were found to have chronic anemia. On multivariate analysis, GI bleeding (OR 11.83 [2.08-67.49], p = 0.0054), presence of leukopenia (OR 9.55 [95% CI 3.71-24.62], p < 0.0001), use of cyclosporine (OR 3.69, [95% CI 1.56-8.76], p = 0.0039) and corticosteroids (OR 2.90 [95% CI 1.94-4.33], p < 0.0001), and cGFR <90 mL/min/1.73 m(2) (OR 4.62 [95% CI 2.47-8.67], p < 0.0001) represented the most significant risk factors for chronic anemia. Use of antihypertensive medications (OR 1.89 [95% CI 1.23-2.91], p = 0.0039) was also significantly associated with a higher risk. In summary, chronic anemia is common in children following liver transplant. Our findings underscore the need to define the mechanisms by which these risk factors, some of which are modifiable, result in chronic anemia in pediatric liver transplant recipients.