Incidence,risk factors,and outcome of blood stream infections during the first 100 days post‐pediatric allogeneic and autologous hematopoietic stem cell transplantations

Bloodstream infections (BSI) are a frequently observed complication after hematopoietic stem cell transplant (HSCT). Retrospective analysis of clinical and microbiological data during the first 100 days from 302 consecutive pediatric patients who underwent HSCT for a malignant disease at our institute between January 2013 and June 2017. A total of 164 patients underwent autologous and 138 allogeneic HSCT. The overall incidence of BSI was 37% with 92% of infectious episodes occurring during the pre‐engraftment phase. Gram‐positive bacteria (GPB) accounted for 54.6% of the isolated pathogens, gram‐negative bacteria (GNB) for 43.9%, and fungi for 1.4%. Coagulase‐negative staphylococci and Escherichia coli were the most commonly isolated GPB and GNB, respectively. Forty‐five percent of GNB were extended‐spectrum beta‐lactamase producers and 21% were multidrug‐resistant organisms. Fluoroquinolone resistance was 92% and 68%, among GPB and GNB, respectively. Risk factors for BSI in univariate analysis were allogeneic HSCT, delayed time to engraftment more than 12 days, previous BSI before HSCT, and alternative donor. In multivariate analysis, only HSCT type (allogeneic vs autologous P = .03) and previous BSI within 6 months before HSCT (P = .016) were significant. Overall survival at day 100 was 98% and did not differ significantly between patients with and without BSI (P = .76). BSI is common in children undergoing HSCT for malignant diseases. Allogeneic HSCT recipients and previous BSI within 6 months before HSCT are associated with increased risk of post‐transplant BSI. With current supportive measures, BSI does not seem to confer an increased risk for 100‐day mortality.     

Pulmonary function following allogeneic stem cell transplantation in childhood: A retrospective cohort study of 51 patients

HSCT is associated with a high risk of late morbidity. The aim of this study was to evaluate the frequency, time frame, risk factors, and possible etiology of pulmonary dysfunction following allogeneic HSCT in childhood. We evaluated the pulmonary function of 51 HSCT patients (>6 yr), by including FVC and FEV1 values prior to (baseline) and annually up to five yr after HSCT. A Cox proportional hazards model was used to analyze the risk factors for a pulmonary event. Over half (59%) of the patients developed pulmonary dysfunction, mainly consisting of restrictive abnormalities. Acute GvHD (HR 4.31, 95% CI 1.47–12.63), chronic GvHD (HR 10.20, 95% CI 2.42–43.03), and an abnormal baseline pulmonary function (HR 4.82, 95% CI 1.02–22.84) were associated with post‐transplant dysfunction. FEV1 (p < 0.001) and FVC (p < 0.001) declined significantly by 12 months after HSCT and both remained below the pre‐HSCT level at up to four yr post‐transplantation. HSCT in childhood is associated with early and persistent restrictive impairment of pulmonary function. Patients with extensive chronic GvHD are particularly vulnerable to severe pulmonary dysfunction. Scheduled pulmonary function testing is warranted as part of the follow‐up of survivors of HSCT in childhood.     

Control of graft‐versus‐host disease with rabbit anti‐thymocyte globulin,rituximab, and bortezomib in TCRαβ/CD19‐depleted graft transplantation for leukemia in children: a single‐center retrospective analysis of two GVHD‐prophylaxis regimens

Both acute GVHD and chronic GVHD remain the leading cause of morbidity and death after allogeneic HSCT. We conducted a retrospective analysis comparing two GVHD‐prophylaxis regimens: 35 patients received “Regimen 1” (horse ATG, tacrolimus, and methotrexate) and 46 “Regimen 2” (rabbit ATG, rituximab, and peritransplant bortezomib). All 81 patients with a median age of 9 (0.6‐23) years with ALL (n = 31) or AML (n = 50) in complete remission received TCRαβ/CD19‐depleted transplants between May 2012 and October 2016, from 40 HLA‐matched unrelated and 41 haploidentical donors. After a median follow‐up of 3.9 years, the CI of acute GVHD II‐IV was 15% (95% CI: 7‐30) in the “Regimen 2” group and 34% (95% CI: ?54) in the “Regimen 1” group, P = .05. “Regimen 2” was also more effective in the prevention of chronic GVHD; the CI at 1 year after HSCT was 7% (95% CI: 2‐19) vs 31% (95% CI: 19‐51), P = .005. The CI of relapse at 3 years adjusted for the GVHD‐prophylaxis regimen groups 31% (95% CI: 19‐51) for the “Regimen 1” vs 21% (95% CI: 11‐37) for the “Regimen 2”, P = .3. The retrospective observation suggests that the use of the rATG, rituximab, and bortezomib was associated with significantly lower rate of GVHD without the loss of anti‐leukemic activity.     

Quantiferon‐Cytomegalovirus assay: A potentially useful tool in the evaluation of CMV‐specific CD8+ T‐cell reconstitution in pediatric hematopoietic stem cell transplant patients

Pediatric HSCT recipients are at high risk for CMV reactivation due to their immature immune system and therapy following transplantation. Reconstitution of CMV‐specific T‐cell immunity is associated with control and protection against CMV. The clinical utility of monitoring CMV‐specific CMI to predict CMV viremia in pediatric HSCT patients using the Quantiferon‐CMV (QIAGEN^®) test was investigated prospectively. Thirty‐seven pediatric allogeneic HSCT recipients were enrolled from 3/2010‐6/2012. CMV viremia was detected via weekly real‐time PCR. The Quantiferon‐CMV test was conducted pretransplant, early after transplantation, 30, 90 , 180 , 270, and 360 days post‐transplantation. The incidence of CMV viremia was 51% (19/37) with half of the episodes within ≤30 days post‐transplant. Fifteen patients showed CMV‐specific immunity (average of 82 days). The cumulative incidence of CMV reactivation in patients who developed CMV‐specific immunity was lower than those who did not (15% vs 53%; P = .023). The ROC statistical analysis showed that the AUC was 0.725 in predicting viremia, for Quantiferon‐CMV test. In this cohort, the Quantiferon‐CMV assay was a valuable method for identifying pediatric HSCT patients at high risk for CMV viremia, suggesting potential clinical utility to individualize patient's management post‐transplant.     

Early predictors of mortality in children with pulmonary complications after haematopoietic stem cell transplantation

PC are a main cause of death following HSCT in children. We aimed to evaluate early predictors of mortality in paediatric recipients with PCs. A retrospective observational study of 35 patients with 49 episodes of PI on chest radiography (of 124 patients) who had undergone HSCT at a tertiary university hospital between January 2011 and December 2012 was performed. During follow‐up (median 26.1 months), 15 episodes led to death (30.6%). An aetiologic diagnosis was made by non‐invasive tests in 24 episodes (49.0%) and by adding bronchoalveolar lavage and/or lung biopsy in 7 episodes with diagnostic yield (77.8%, P = .001). Thus, a specific diagnosis was obtained in 63.3% of the episodes. Aetiology identification and treatment modification after diagnosis did not decrease mortality (P = .057, P = .481). However, the number of organ dysfunctions at the beginning of PI was higher in the mortality group, compared to the survivor group (1.7 ± 1.2 vs 0.32 ± 0.59; P = .001). Hepatic dysfunction (OR, 11.145; 95% CI, 1.23 to 101.29; P = .032) and neutropaenia (OR, 10.558; 95% CI, 1.07 to 104.65; P = .044) were independently associated with risk of mortality. Therefore, hepatic dysfunction and neutropaenia are independent early predictors of mortality in HSCT recipients with PCs.     

Cytomegalovirus,adenovirus, and polyomavirus co‐infection among pediatric recipients of allogeneic stem cell transplantation: Characteristics and outcome

Watcharananan SP, Kiertiburanakul S, Piyatuctsanawong W, Anurathapan U, Sungkanuparph S, Pakakasama S, Chantratita W, Hongeng S. Cytomegalovirus, adenovirus, and polyomavirus co‐infection among pediatric recipients of allogeneic stem cell transplantation: Characteristics and outcome.
Pediatr Transplantation 2010: 14:675–681. © 2010 John Wiley & Sons A/S. Abstract: ADV and PMV infection have increasingly been documented as significant complications following allo‐HSCT. Despite increasing recognition, characteristics and outcome of CMV, ADV, and PMV viral co‐infection remain obscured. In this study, a retrospective quantitative PCR analysis of ADV, PMV (BKV and JCV) was performed from pediatric patients’ stored blood samples previously tested for CMV viremia after allo‐HSCT. Clinical and virological characteristics and outcome among patients with and without viral co‐infection were analyzed and compared. From 2001 to 2006, 219 blood samples from 69 patients were studied. Viral DNA was present in 119 samples (52.9%).The proportion of viremia was highest for BKV (30.6%), followed by CMV (20.9%), ADV (9.1%), and JCV (0.5%). Viral co‐infection occurred in 17 patients (24.6%), with CMV/BKV as the most common type (11.6%), followed by CMV/ADV (4.3%) and ADV/BKV (2.9%). From multivariate analysis, factors associated with viral co‐infection were acute GVHD (OR 4.57; 95% CI 1.9–10.96, p = 0.001), level of blood CMV viral load (OR 1.53; 95% CI 1.24–1.89, p < 0.001), and level of blood ADV viral load (OR 1.56; 95% CI 1.05–2.32, p = 0.027). Higher probability of developing viral disease was strongly associated with more types of virus detected in blood (p < 0.001). Significant difference in the causes of death was observed among patients with and without viral co‐infection (p = 0.014). Infection (87.5%) was the major cause of death of patients with viral co‐infection, whereas relapse of hematologic disease (70%) was the major cause of death of patients with mono‐viral infection. Viral co‐infection is a common and significant infectious complication in pediatric recipients of allo‐HSCT. Blood monitoring of CMV, ADV, and BKV is suggested among pediatric patients who develop GvHD or who have rising of CMV or ADV viremia following allo‐HSCT.     

A systematic review of acute kidney injury in pediatric allogeneic hematopoietic stem cell recipients

The process of allogeneic HSCT in children is associated with frequent AKI and mortality, but the epidemiology is not widely reported. The aim of this review was to summarize the available evidence on incidence, risk factors, timing, and prognosis of AKI in children following HSCT. We systematically reviewed all observational studies reporting incidence and outcomes of AKI in pediatric allogenic HSCT recipients. The minimum criteria for AKI were defined as an increase in sCr  ≥ x1.5 or urine output ≤0.5 mL/kg/min over six h. Medline and Embase were searched until March 2014. From 993 electronic records, five were eligible for inclusion (n = 571 patients). The average incidence of AKI within the first 100 days following HSCT was 21.7% (range 11–42%), and the average time of onset was 4–6 wk post‐transplant. Risk factors for AKI included cyclosporine toxicity, amphotericin B and foscarnet, SOS, and having a mismatched donor. There were conflicting reports on whether AKI was associated with the development of CKD. AKI is a common and potentially life‐threatening complication following HSCT in children. Further quality observational studies are needed to accurately determine the epidemiology and prognosis of AKI in this population.     

The incidence of autoimmune hemolytic anemia in pediatric hematopoietic stem cell recipients post‐first and post‐second hematopoietic stem cell transplant

The reported incidence of post‐allogeneic HSCT AIHA was between 4.4% and 6% following a single transplant. Cord blood transplantation, T‐cell depletion, and chronic GvHD are significantly associated with post‐transplant AIHA. During an 11‐yr period, data for 500 pediatric HSCT recipients were eligible for evaluation of the incidence of AIHA post‐first and post‐second transplants. Demographic, transplant, and post‐transplant‐related variables were analyzed. Twelve of 500 (2.4%) recipients at a median of 273 days and seven of 72 (9.7%) recipients at a median of 157 days developed AIHA post‐first and post‐second HSCT, respectively. Post‐first HSCT, none of the MRD recipients developed AIHA (0/175 MRD vs. 12/325 other donors, p = 0.04). Four of 12 required a second HSCT to control the AIHA. After the second HSCT, MUD was significantly associated with the development of AIHA. No other variables were associated with the post‐second transplant AIHA. The incidence of AIHA post‐first and post‐second HSCT was less than the reported. The increased incidence of AIHA among recipients of second HSCT is most likely due to the profound immune dysregulation. A much larger, prospective study would be needed to evaluate the incidence, complications, and management of post‐transplant AIHA.     

Extracorporeal membrane oxygenation use in the first 24 hours following pediatric heart transplantation: Incidence,risk factors,and outcomes

Primary graft dysfunction following HTx is associated with significant morbidity and mortality. This study aimed to assess the incidence of, risk factors for, and outcomes of children requiring ECMO within 24 hours of HTx. This study utilized a linked PHIS/SRTR database of pediatric HTx recipients (2002‐2016). Post‐HTx ECMO was identified using inpatient billing data. Logistic regression assessed risk factors for post‐HTx ECMO. Kaplan‐Meier analyses assessed in‐hospital mortality and post‐discharge survival. A total of 2820 patients were included with 224 (7.9%) requiring ECMO. Independent risk factors for post‐HTx ECMO include age <1 year (aOR: 2.2, 95% CI: 1.3‐3.7, P = 0.006) or 1‐5 years (aOR: 2.1, 95% CI: 1.3‐3.4, P = 0.002), and ECMO support at HTx (aOR: 27.4, 95% CI: 15.2‐49.6, P < 0.001). Survival to discharge decreased with increasing duration of post‐HTx ECMO support; 89% for 1‐3 days, 79.1% for 4‐6 days, 63.2% for 7‐9 days, and 18.8% for ≥10 days. There was no difference in long‐term survival for patients requiring post‐HTx ECMO who survived to hospital discharge (P = 0.434). There are identifiable risk factors associated with the need for ECMO in the post‐HTx period. Length of time on ECMO post‐HTx is strongly associated with the risk of in‐hospital mortality. Patients who require ECMO early post‐HTx and survive to discharge have comparable outcomes to patients who did not require ECMO.     

Is ABO mismatch another risk factor for allogeneic hematopoietic stem cell transplantation in pediatric thalassemic patients?

The ABO incompatibility between donor and recipient is not considered a barrier to successful allogeneic HSCT. Nevertheless, conflicting data still exist about the influence of ABO incompatibility on transplant outcome in pediatric patients with thalassemia. Fifty‐one children with beta‐thalassemia major who underwent allogeneic HSCT were enrolled this study. Twenty‐three of them (45%) received an ABO‐incompatible transplant [minor ABO mismatch: six (26%), major ABO mismatch: fourteen (61%), and bidirectional mismatch: three (13%)]. In this study, ABO incompatibility did not significantly impair GVHD, VOD, neutrophil and platelet engraftment, TRM, OS and TFS. Particularly in major and bidirectional ABO‐mismatched patients, a delayed erythroid recovery was recorded as compared to the group receiving an ABO‐compatible graft (median time, 31 and 38 days vs. 19.5 days; p: 0.02 and p: 0.03). Median time to red cell transfusion independence was significantly longer in major ABO‐incompatible patients (median time, 87 days vs. 32 days; p: 0.001). Therefore, whenever feasible, major ABO‐mismatched donors should be avoided in HSCT recipients, to prevent delayed erythroid recovery with prolonged RBC transfusion needs and impaired quality of life.     

Treatment‐related mortality in relapsed childhood acute lymphoblastic leukemia

1 Background

Treatment of relapsed childhood acute lymphoblastic leukemia (ALL) is particularly challenging due to the high treatment intensity needed to induce and sustain a second remission. To improve results, it is important to understand how treatment‐related toxicity impacts survival.

2 Procedure

In this retrospective population‐based study, we described the causes of death and estimated the risk for treatment‐related mortality in patients with first relapse of childhood ALL in the Nordic Society of Paediatric Haematology and Oncology ALL‐92 and ALL‐2000 trials.

3 Results

Among the 483 patients who received relapse treatment with curative intent, we identified 52 patients (10.8%) who died of treatment‐related causes. Twelve of these died before achieving second remission and 40 died in second remission. Infections were the cause of death in 38 patients (73.1%), predominantly bacterial infections during the chemotherapy phases of the relapse treatment. Viral infections were more common following hematopoietic stem cell transplantation (HSCT) in second remission. Independent risk factors for treatment‐related mortality were as follows: high‐risk stratification at relapse (hazard ratio [HR] 2.2; 95% confidence interval [CI] 1.3–3.9; P < 0.01), unfavorable cytogenetic aberrations (HR 3.4; 95% CI 1.3–9.2; P = 0.01), and HSCT (HR 4.64; 95% CI 2.17–9.92; P < 0.001). In contrast to previous findings, we did not observe any statistically significant sex or age differences. Interestingly, none of the 17 patients with Down syndrome died of treatment‐related causes.

4 Conclusions

Fatal treatment complications contribute significantly to the poor overall survival after relapse. Implementation of novel therapies with reduced toxicity and aggressive supportive care management are important to improve survival in relapsed childhood ALL.     

High incidence of BK virus‐associated hemorrhagic cystitis in children after second or third allogeneic hematopoietic stem cell transplantation

BKV‐HC is a serious complication of allogeneic HSCT. To characterize the incidence, risk factors, and clinical outcomes of post‐HSCT BKV‐HC, we retrospectively analyzed 112 patients who underwent one or more allogeneic HSCTs at our hospital between 2001 and 2017. Twenty underwent second or third HSCT thereafter. Ten patients developed BKV‐HC at a median of 30 days after HSCT. The 100‐day cumulative incidences of grade 0‐4 and grade 2‐4 BKV‐HC were 7.8% and 6.2%, respectively. HSCTs performed in 2011‐2017 associated with significantly higher 100‐day cumulative incidence of grade 2‐4 BKV‐HC (14.0%) than HSCTs performed in 2001‐2010 (1.3%, P = 0.004). On multivariate analysis, second or third HSCT was the only independent significant risk factor for development of grade 2‐4 BKV‐HC (P = 0.015). Serial PCR monitoring of urine and blood BKV load did not predict BKV‐HC. The recent increase in the incidence of BKV‐HC may reflect recent innovations in transplant technologies that facilitate second or third HSCT, which are known to cause prolonged immune deficiency. If safe and effective treatment or prophylaxis becomes available, it could be used to target the high‐risk patients for BKV‐HC.     

The challenge of long‐term follow‐up of survivors of childhood acute leukemia after hematopoietic stem cell transplantation in resource‐limited countries: A single‐center report from Brazil

With the number of long‐term HSCT survivors steadily increasing, attention needs to be focused on the late complications and quality of life. We therefore analyzed the outcome of 101 pediatric patients (<18 years old at the time of HSCT) transplanted for acute leukemia between 1981 and 2015 at Complexo Hospital de Clínicas, Federal University of Paraná, Brazil, and who survived at least two years after HSCT. The median follow‐up was 5.9 years (2.0‐29.0); median age at follow‐up was 17.5 years (2.98‐39.0). The 5‐year cumulative incidence of relapse was 27.5% (95% CI 18.6%‐36.4%). Two‐year cumulative incidence of chronic GVHD was 21.8% (95% CI 13.7%‐29.8%). Of the 101 patients, 72 patients (71.3%) presented with late effects. Those surviving longer after HSCT experienced more complications. Patients who received TBI‐based regimen developed more late effects (P = .013) and more endocrinological complications (P = .024). Endocrinological complications were the most common late sequelae found in this study. For childhood survivors, quality of life was not influenced by age (at HSCT or at last visit), time from HSCT, gender, donor, or GVHD. For survivors that no longer were children, only age at last visit impacted financial domain measures, irrespective of gender, donor, or GVHD. The current study confirms the high burden late complications after pediatric HSCT have on the survivors and underlines the importance of extended follow‐up.     

Comparison of survival outcome between donor types or stem cell sources for childhood acute myeloid leukemia after allogenic hematopoietic stem cell transplantation: A multicenter retrospective study of Study Alliance of Yeungnam Pediatric Hematology‐oncology

We compared transplant outcomes between donor types and stem cell sources for childhood acute myeloid leukemia (AML). The medical records of children with AML in the Yeungnam region of Korea from January 2000 to June 2017 were reviewed. In all, 76 children with AML (male‐to‐female ratio = 46:30) received allogenic hematopoietic stem cell transplantation (allo‐HSCT). In total, 29 patients received HSCT from either a matched‐related donor or a mismatched‐related donor, 32 patients received an unrelated donor, and 15 patients received umbilical cord blood. In term of stem cell sources, bone marrow was used in 15 patients and peripheral blood in 46 patients. For all HSCT cases, the 5‐year overall survival (OS) was 73.1% (95% CI: 62.7‐83.5) and the 5‐year event‐free survival (EFS) was 66.1% (95% CI: 54.5‐77.7). There was no statistical difference in 5‐year OS according to the donor types or stem cell sources (P = .869 and P = .911). There was no statistical difference in 5‐year EFS between donor types or stem cell sources (P = .526 and P = .478). For all HSCT cases, the 5‐year relapse rate was 16.1% (95% CI: 7.3‐24.9) and the 5‐year non‐relapse mortality (NRM) was 13.3% (95% CI: 5.1‐21.5). There was no statistical difference in the 5‐year relapse rate according to the donor types or stem cell sources (P = .971 and P = .965). There was no statistical difference in the 5‐year NRM between donor types or stem cell sources (P = .461 and P = .470).     

Measles,mumps, rubella (vaccine) and varicella vaccines in pediatric liver transplant: An initial analysis of post‐transplant immunity

Varicella and measles infection represents a significant source of morbidity and mortality for pediatric LT recipients. We evaluated the prevalence and correlates of post‐transplant immunity in pediatric LT recipients previously immunized against measles (n = 72) and varicella (n = 67). Sixteen of seventy‐two (22%) patients were measles non‐immune, and 42/67 (63%) were varicella non‐immune after LT. Median time from LT to titers for measles and varicella was 4.0 and 3.3 years, respectively. In the measles cohort, non‐immune patients received fewer pretransplant vaccine doses (P = 0.026) and were younger at both time of vaccination (P = 0.006) and LT (P = 0.004) compared with immune patients. Upon multivariable analysis, weight > 10 kg at LT (OR 5.91, 95% CI 1.27‐27.41) and technical variant graft (OR 0.07, 95% CI 0.01‐0.37) were independently, significantly associated with measles immunity. In the varicella cohort, non‐immune patients received fewer pretransplant vaccine doses (P = 0.028), were younger at transplant (P = 0.022), and had less time lapse between their last vaccine and transplant (P = 0.012) compared with immune patients. Upon multivariate analysis, time > 1 year from last vaccine to LT was independently, significantly associated with varicella immunity (OR 3.78, CI 1.30‐11.01). This study demonstrates that non‐immunity to measles and varicella is a prevalent problem after liver transplantation in children and identifies 3 unique risk factors for non‐immunity in this high‐risk population.     

Donor‐to‐recipient weight ratio is a risk factor for hepatic artery thrombosis after whole‐liver transplantation in children under 25 kg

Hepatic artery thrombosis (HAT) following pediatric liver transplantation increases morbidity and risk of graft failure. We performed a retrospective chart review of all patients who underwent deceased‐donor liver transplantation from August 2002 to July 2016. Multi‐organ transplant recipients were excluded. We examined the incidence of HAT at our institution and sought to identify associated donor or recipient risk factors. A total of 127 deceased‐donor liver transplant patients with a median age of 1.7 years (IQR 0.67‐6.7) were identified. Of those, 14 developed HAT, all weighing under 25 kg. Among 100 patients under 25 kg, whole‐liver graft recipients had an odds ratio of 3.98 (95% confidence interval [CI]: 1.03, 15.34; P = .045) for developing HAT compared with split‐liver graft recipients. Within the whole‐liver recipient group under 25 kg, 11 patients developed HAT with a median donor‐to‐recipient ratio (DRWR) of 0.9 (IQR: 0.7‐1.2) compared with a median DRWR of 1.4 (IQR: 1.1‐1.9) for those who did not develop HAT. Multivariate analysis showed DRWR to be an independent risk factor for HAT in patients weighing under 25 kg who received whole organ grafts, with an odds ratio of 3.89 (95% CI: 1.43, 10.54; P = .008) for each 0.5 unit decrease in DRWR. Our results suggest that in recipients under 25 kg 1) split‐liver grafts may have a lower rate of HAT and 2) selecting whole organ donors with a higher DRWR may decrease the incidence of HAT.     

Educational and learning morbidity in pediatric heart transplant recipients: A pediatric heart transplant society study

Educational development is an important component of quality of life for children with heart transplant. Aims include determining prevalence of and risk factors for modified education placement in a large representative sample of pediatric heart transplant recipients. Participants included 1495 patients (age 6‐18 years) from the PHTS database. Data on education placement and clinical predictors were collected at listing and at 1 and 3 years post‐transplant. At listing, 88% of patients were in typical education placement, while 12% were in modified education. Males (P = .02), those with CHD (P < .0001), those with non‐private insurance (P < .0001), and those with longer hospital stay (P = .001) were more likely to be in a modified education placement at time of listing. Age, race, listing status, mechanical support, and waitlist time were not significantly associated with placement. The prevalence of typical education placement was similar (87% at 1‐year and 86% at 3‐year) post‐transplant. Predictors of modified education placement at 3‐year follow‐up included placement at listing (OR = 12.9 [95% CI 7.6‐21.9], P < .0001), non‐private insurance (OR = 2.0 [95% CI 1.3‐3.2], P = .001), CHD (OR = 1.8 [95% CI 1.1‐2.7, P = .01), history of post‐transplant infection (OR = 1.9 [95% CI 1.2‐2.9, P = .007), and number of post‐transplant infections (OR = 1.3 [95% CI 1.1‐1.5, P = .002). Among pediatric heart transplant recipients, males, those with non‐private insurance, those with CHD, and those who experience post‐transplant infections are at greatest risk for modified academic placement, which persists for several years post‐transplant and deserves targeted intervention.     

Hemophagocytic lymphohistiocytosis is a sign of poor outcome in pediatric Epstein‐Barr virus‐associated post‐transplant lymphoproliferative disease after allogeneic hematopoietic stem cell transplantation

EBV‐related PTLD developing after HSCT is a potentially life‐threatening disease. HLH is uncommon after allogeneic HSCT. Data on outcome of patients with PTLD and concomitant HLH after allogeneic HSCT are limited. In this retrospective study, we collected demographic, clinical, laboratory, and outcome data for 408 patients who underwent allogeneic HSCT from 2006 to 2015. Graft source included CB (n = 135; 33.1%), PBSCs (n = 34; 8.3%), and BM (n = 239; 58.6%). Eight out of 408 patients (2%) developed EBV‐PTLD with a median age at HSCT of 5.9 years (range: 2.3‐17.3). All eight patients received ATG as part of the conditioning regimen. Graft source was PBSC in three patients (37.5%), BM in four patients (50%), and CB in one patient (12.5%). Donors were matched unrelated in five patients (62.5%) and matched sibling in three patients (37.5%). Seven out of eight patients developed EBV‐PTLD within the first 100‐day post‐HSCT. Lymph node biopsy revealed early lesions in three patients, polymorphic in three patients, and monomorphic PTLD in two patients. Three patients (37.5%) died within 1 month of EBV‐PTLD diagnosis. All deceased patients developed HLH manifestations with two of them meeting HLH diagnostic criteria and one having an incomplete workup. PTLD after allogeneic HSCT with manifestations of HLH is associated with high mortality. Early identification and treatment of EBV‐PTLD seems imperative to control the disease, especially if signs of HLH are evolving.     

The impact of alternative donor types on viral infections in pediatric hematopoietic stem cell transplantation

Viral infections remain one of the most important complications following allogeneic HSCT. Few reports compare virus infection between different donor types in pediatric patients. We retrospectively analyzed viral infections and the outcome of one hundred and seventy‐one pediatric patients (median 7.38 years) who underwent allogeneic HSCT from matched related donor (MRD, n = 71), 10 of 10 HLA allele‐matched unrelated donors (MUD1; n = 29), 9 of 10 HLA allele‐matched unrelated donors (MUD2; n = 40), and haploidentical donors (n = 31). PCR screening for BK virus, adenovirus, Epstein‐Barr virus, parvovirus B19, human herpesvirus 6, and CMV were performed routinely weekly. Infections between 0‐30, 31‐100, and 101 days‐2 years were identified separately. BK virus and CMV reactivations were significantly low in MRD transplant patients (P = .046 and P < .0001, respectively), but incidences of all virus infections between MUD1, MUD2, and haplo‐HSCT were found statistically not different. The OS was found to be affected by having one or multiple virus infection (P = .04 and P = .0008). Despite antiviral prophylaxis and treatments, post‐transplant viral infections are associated with reduced overall survival. Haplo‐HSCT is comparable with MUD transplantation in the setting of viral infections. A larger study group and prospective studies are needed to confirm this observation.