Donors' characteristics and impact on outcomes in pediatric heart transplant recipients

Organ availability and acceptability limit pediatric HTx. What characteristics define an unacceptable or high‐risk pediatric donor remains unclear. The purpose of this study was to characterize a large cohort of pediatric donors and determine the donor risk factors, including cumulative risk, that affect recipient survival. Data from the PHTS, a prospective multicenter study, were used to examine the impact of donor factors on the outcomes of patients listed <18 yr of age who received a HTx between 1993 and 2009. Donor data were available for 3149 of 3156 HTx (99.8%). Donor cause of death, need for inotropes, or CPR did not affect survival outcomes (p = 0.05). Ischemic time also did not have an impact on overall recipient survival; however, longer ischemic times negatively impacted one‐yr post‐transplant survival (p < 0.0001). There was no impact of cumulative risk factors on survival (p = 0.8). Although used in a minority of cases, hormonal therapy in the donor positively impacted survival (p = 0.03). In multivariate analysis, the only donor factor associated with decreased survival was smaller donor BSA, the other factors being related to the recipient characteristics. When analyzed by recipient age, there were no donor‐related factors that affected survival for those who received a transplant at <6 months of age. Longer ischemic time (p < 0.0001) and greater age difference between the recipient and donor (p = 0.0098) were donor‐related factors impacting early‐phase survival for recipients who received a graft at ≥10 yr of age. Factors perceived to define a marginal or high‐risk pediatric heart donor including inotrope use, CPR and donor cause of death may have less impact on outcomes than previously thought. Longer ischemic times did impact one yr, but not overall survival, and this impact was much greater with older donors. Parameters for accepting a donor heart can potentially be expanded, especially in the infant age group, but strong consideration should always be given to the interaction between ischemic time and donor age.     

Low donor‐to‐recipient weight ratio does not negatively impact survival of pediatric heart transplant patients

Tang L, Du W, Delius RE, L’Ecuyer TJ, Zilberman MV. Low donor‐to‐recipient weight ratio does not negatively impact survival of pediatric heart transplant patients.
Pediatr Transplantation 2010: 14:741–745. © 2010 John Wiley & Sons A/S. Abstract: A major limitation to success in pediatric heart transplantation is donor organ shortage. While the use of allografts from donors larger than the recipient is accepted, the use of undersized donor grafts is generally discouraged. Using the UNOS database, we wanted to evaluate whether using smaller donor hearts affects the short‐ and long‐term survival of pediatric heart transplant patients. A retrospective analysis of data entered into the UNOS database from April 1994 to May 2008 was performed. Pediatric heart transplant recipients (ages 0–18 yr) with DRWR <2.0 were identified and divided into two groups: Low‐DRWR (<0.8) and Ideal‐DRWR (0.8–2.0). Patients’ demographics, pretransplant diagnoses, age at transplantation, severity of pretransplant condition, and rate of complications prior to hospital discharge after transplantation were noted. Fisher’s exact, chi‐square, and Wilcoxon rank sum tests were used to compare patients’ baseline characteristics. Kaplan–Meier curves and Cox proportional hazard regression were used to compare patients’ survival and to identify independent risk factors for outcomes. There were 3048 patients (204 with Low‐ and 2844 with Ideal‐DRWR). The Low‐ratio group patients were older (8.3 vs. 6.9 yr; p = 0.001), there was a slight male predominance in the Low‐DRWR group (p = 0.055). The Low‐DRWR group had longer transplant wait time than the Ideal‐DRWR group (97 vs. 85 days; p = 0.04). The groups did not differ in race, primary diagnoses, severity of pretransplant condition (medical urgency status, need for ventilation, inotropic support, ECMO, nitric oxide, or dialysis, the PVR for those with bi‐ventricular anatomy), or post‐transplant complications (length of stay, need for inotropic support, dialysis, and rate of infections). The Low‐DRWR patients had less episodes of acute rejection during the first‐post‐transplant month. Infants with DRWR 0.5–0.59 had lower 30‐day survival rate (p = 0.045). There was no difference in short‐ and long‐term survival between the patients with DRWR 0.6–0.79 and DRWR 0.8–2.0. Use of smaller allografts (DRWR 0.6–0.8) has no negative impact on the short‐ and long‐term survival of pediatric heart transplant patients.     

Empiric switch from calcineurin inhibitor to sirolimus‐based immunosuppression in pediatric heart transplantation recipients

Sirolimus is used in heart transplant patients with CAV and CNI‐induced nephropathy. However, little is known regarding the tolerability, rejection rate, and effect on renal function when used empirically in children. We describe our experience with the empiric use of a sirolimus‐based immunosuppressive regimen in pediatric heart transplantation recipients. We reviewed records of patients in whom conversion was attempted to a CNI‐free sirolimus‐based regimen. Rejection episodes and measures of renal function were recorded. We attempted to convert 20 patients, of which 16 were successful. In total, six of 20 patients (30%) experienced adverse effects. Of the 16 converted, four patients converted to sirolimus due to CNI‐induced disease (three nephropathy, one CAV), while 12 patients (mean age 5.5 yr, range 0.1–21 yr; 33% female; 33% with a history of congenital heart disease) were empirically switched to sirolimus at a mean of 2.3 yr after transplant. Follow‐up was available for a mean of 2.5 yr after conversion (range 0.5–8.3 yr). The rate of rejection while taking CNIs was 0.18 rejection episodes per patient‐year (total of five episodes), compared with 0.03 rejection episodes per patient‐year (total of one episode) while on sirolimus. Renal function, in terms of GFR, significantly improved after sirolimus conversion at latest follow‐up (from 86 ± 37 mL/min to 130 ± 49 mL/min, p = 0.02). Here, we demonstrate the potential benefit of empiric use of sirolimus in pediatric heart transplant patients in a CNI‐free regimen. Larger and longer studies are needed to further clarify risks of rejection and adverse effect profiles.     

Using pediatric liver grafts (≤6 yr) for adult recipients: A considerable option?

In LT, the common policy is to allocate pediatric liver grafts to pediatric recipients. Pediatric organs are also offered to adults if there is no pediatric recipient. However, they are rarely accepted for adult recipients. So far, there is no information available reporting outcome of LT in adult recipients using pediatric livers from donors ≤6 yr. In this study, we included nine adult recipients (seven females and two males) who received grafts from children ≤6 yr from January 2008 to December 2013. We evaluated the graft quality, the GBWR and analyzed the recipients’ perioperative course. Laboratory samples and graft perfusion were analyzed. Nine adults with a median age of 49 yr (range: 25–65) and a median weight of 60 kg (range: 48–64) underwent LT with a pediatric donor graft. Median donor age was five yr (range: 3–6). Median GBWR was 1.02 (range: 0.86–1.45). After a median follow‐up of 3.9 yr (range: 11 months–6.6 yr), patient survival was 100%; graft survival was 89%. One patient needed re‐transplantation on the second postoperative day due to PNF. Eight recipients were discharged from the ICU after 2–9 days with a regular graft function. Doppler scans revealed regular flow patterns at any time. Only if denied for pediatric recipients, the use of pediatric livers from donors ≤6 yr for adult recipients is a considerable option.     

Impact of center volume and the adoption of laparoscopic donor nephrectomy on outcomes in pediatric kidney transplantation

Reports for pediatric kidney transplant recipients suggested better outcomes for ODN compared to LDN. Contemporary outcomes stratified by donor type and center volume have not been evaluated in a national dataset. UNOS data (2000‐2014) were analyzed for pediatric living donor kidney transplant recipients. The primary outcome was GF; secondary outcomes were DGF, rejection, and patient survival. Live donor nephrectomies for pediatric recipients decreased 30% and transitioned from ODN to LDN. GF rates did not differ for ODN vs LDN (P = .24). GF was lowest at high volume centers (P < .01). Donor operative approach did not contribute to GF. LDN was associated with less rejection than ODN (OR 0.66, CI 0.5‐0.87, P < .01). Analysis of the 0‐ to 5‐yr recipient group showed no effect of ODN vs LDN on GF or rejection. For the contemporary era, there was no association between DGF and LDN in the 0‐ to 5‐yr group (OR 1.12, CI 0.67‐1.89, P = .67). Outcomes of kidney transplants in pediatric recipients following LDN have improved since its introduction and LDN should be the approach for live donor nephrectomy regardless of recipient age. The association between case volume and improved outcomes highlights future challenges in organ transplantation.     

Impact of donor–recipient sex match on long‐term survival after heart transplantation in children: An analysis of 5797 pediatric heart transplants

The effect of donor–recipient sex matching on long‐term survival in pediatric heart transplantation is not well known. Adult data have shown worse survival when male recipients receive a sex‐mismatched heart, with conflicting results in female recipients. We analyzed 5795 heart transplant recipients ≤18 yr in the Scientific Registry of Transplant Recipients (1990–2012). Recipients were stratified based on donor and recipient sex, creating four groups: MM (N = 1888), FM (N = 1384), FF (N = 1082), and MF (N = 1441). Males receiving sex‐matched donor hearts had increased unadjusted allograft survival at five yr (73.2 vs. 71%, p = 0.01). However, this survival advantage disappeared with longer follow‐up and when adjusted for additional risk factors by multivariable Cox regression analysis. In contrast, for females, receiving a sex‐mismatched heart was associated with an 18% higher risk of allograft loss over time compared to receiving a sex‐matched heart (HR 1.18, 95% CI: 1.00–1.38) and a 26% higher risk compared to sex‐matched male recipients (HR 1.26, 95% CI: 1.10–1.45). Females who receive a heart from a male donor appear to have a distinct long‐term survival disadvantage compared to all other groups.     

Laparoscopic donor nephrectomy for the pediatric recipient population: Risk factors for adverse outcomes

Kidney transplantation is the optimal treatment of ESRD in children. Some studies have reported inferior outcomes in recipients of LDN allografts who are ≤5 yr of age. We performed a retrospective review of pediatric recipient outcomes of 110 LDN allografts at our institution and examined predictors of adverse outcomes. Subgroup analysis was performed by dividing recipients into three age categories: 0–5 yr, 6–17 yr, and ≥18 yr. There was no significant difference between incidences of DGF or ARE between groups. Kaplan–Meier analysis demonstrated 100% allograft survival in 0‐ to 5‐yr‐old recipients, nearly reaching statistical significance (p = 0.07) for outcome superior to that of the two older age groups. Pretransplant HD was associated with increased risk of DGF (p = 0.05). Significant risk factors for ARE were recipient weight >15 kg (p = 0.033) and multiple renal arteries (p = 0.047). Previous ARE was associated with an increased risk of allograft failure (p = 0.02). LDN is not associated with increased risk of DGF, ARE, or allograft failure in the youngest recipients. These findings support an aggressive pursuit of preemptive transplantation even in the youngest pediatric allograft recipients.     

Post‐transplant lymphoproliferative disorder: No relationship to recombinant human growth hormone use in Australian and New Zealand pediatric kidney transplant recipients

PTLD is a potentially life‐limiting complication of pediatric transplantation. Previous registry‐based studies in renal transplantation have suggested a link between rhGH use and PTLD. In this study, demographic and transplant data on those aged <18 yr and transplanted between 1991 and 2008 were collected from the ANZDATA Registry. Associations between gender, age at time of transplant, recipient CMV and EBV status, use of monoclonal antibody therapy, and use of rhGH were studied as potential predictors of PTLD. Among 650 transplants, there were 20 cases (3.1%) of PTLD, with half presenting within two yr post‐transplant. Eight patients exposed to rhGH at any time developed PTLD, and this association was not statistically significant (RR = 1.5[0.6–3.4], p = 0.36). On multivariate analysis, there were no significant predictors for PTLD. In this study, previously identified potential risk factors were not identified as significant predictors for the development of PTLD. Although limited sample size may affect our ability to infer safety, this large retrospective cohort study does not suggest an increased risk of PTLD in pediatric kidney transplant recipients who received rhGH treatment.     

The use of advanced-age donor hearts adversely affects survival in pediatric heart transplantation

There is a limited supply of adequate donor hearts for cardiac transplantation. The safety of using advanced-age donor hearts has been debated in adult transplantation but has not been studied previously in pediatric recipients. In this retrospective study, survival of 79 pediatric heart transplant recipients was reviewed. Pediatric recipient groups were stratified based on donor age (group 1 donor age > 40 yr, n = 5; group 2 donor age < or = 40 yr, n = 74). Survival of 267 adolescent (ages 11-17) heart transplant recipients in the United Network for Organ Sharing (UNOS) database was also reviewed. Patients were likewise divided into two groups based on donor age (> 40 yr, n = 12; < or = 40 yr, n = 255). Survival at one yr was 20% in group 1 vs. 78% in group 2 (p < 0.005). Cause of death in all group 1 patients was graft failure secondary to acute rejection. Analysis of risk of death was only significantly attributable to the age of the donor. The increased risk attributable to advanced donor age was also supported by the UNOS data. The UNOS one and two-year Kaplan-Meier survival curves were significantly lower in adolescent patients who received donor hearts > 40 yr of age. One-year survival was 58% (older donors) vs. 85% (younger donors, p < 0.005) and two-year survival was 44% (older donors) vs. 79% (younger donors, p < 0.005). Advanced-age donor hearts should be contraindicated in pediatric transplantation with the exception of critically ill patients who may not be able to wait for a younger heart.     

Case-control study of risk factors for the development of post-transplant lymphoproliferative disease in a pediatric heart transplant cohort

PTLD is an important complication following heart transplantation. To better define the risk factors of PTLD in children, we performed a case-control study. All pediatric cardiac transplant recipients who developed their first episode of PTLD were matched by age (+/-1 yr) and time since transplant (+/-1 yr) with those who did not. PTLD occurred in nine of 95 cardiac transplant recipients (9%), 0.3-7.8 yr following cardiac transplantation (median = 2.5 yr). Patients were 0.1-16.4 yr (median = 3.7) at transplantation. Biopsies revealed polymorphic B cell hyperplasia (three), polymorphic B cell lymphoma (one), monomorphic diffuse large cell B cell lymphoma (three) and monomorphic Burkitt's-like lymphoma (two). Patients who developed PTLD were at no greater risk of death (p = 0.31). Recipient EBV seronegativity at time of transplant (p = 0.08), EBV seroconversion (p = 0.013) and recipient CMV seronegativity (p = 0.015) were associated with the development of PTLD by conditional logistic regression; sex, race, donor age, recipient diagnosis, donor CMV seropositivity, recipient treatment for CMV infection, EBV seropositivity at the time of PTLD diagnosis, and number of rejection episodes, treated rejection episodes, and lympholytics used were not. There was no significant association between PTLD and death in our recipients. EBV seroconversion and recipient CMV seronegativity were associated with the development of PTLD.     

Size‐reduced lung transplantation in children – an option worth to consider!

Benden C, Inci I, Weder W, Boehler A. Size‐reduced lung transplantation in children – an option worth to consider!
Pediatr Transplantation 2010: 14:529–533. © 2009 John Wiley & Sons A/S. Abstract: Lung transplantation is an accepted therapy for pediatric end‐stage lung disease. However, there is a shortage of suitable donor organs. Therefore, the use of downsized lung allografts seems a valuable option. We report our experience of downsized pediatric lung transplantation in comparison with standard full‐size pediatric lung transplantation over one decade. Pediatric recipients undergoing downsized or standard lung transplantation were included (January 1997–December 2006). We compared pretransplant clinical data and surgical and post‐operative complications and post‐transplant outcome. Ten pediatric lung transplants were performed (median patient age 15.6 yr [12.3–17.8]). Nine of 10 patients had CF. Five patients underwent standard full‐size lung transplantation; five had downsized lung transplants. “Downsized” recipients had significantly lower median height and weight Z‐scores. Donor/recipient length difference was significantly greater in the “Downsized” Group (p < 0.05). All patients had comparable post‐transplant functional outcome without additional surgical complications or morbidities in “downsized” recipients. Median post‐transplant survival was 65 months (5–77) in the “Standard” Group compared to 86 months (64–121) in the “Downsized” Group (p = 0.1). Our data suggest that downsized lung transplantation in pediatric recipients may have post‐transplant outcomes comparable to full‐size lung transplantation without significant complications.     

Mortality after pediatric kidney transplantation in England – a population‐based cohort study

The aim of this study was to explore mortality after pediatric kidney transplantation in England over the last decade. We used data from HES to select all kidney transplant procedures performed in England between April 2001 and March 2012. Data linkage analysis was performed with the ONS to identify all deaths occurring among this study cohort. Data for 1189 pediatric recipients were compared to 17 914 adult recipients (number of deaths, 33 vs. 2052, respectively, p < 0.001), with median follow‐up 4.4 yr (interquartile range 2.2–7.3 yr). There was no difference in mortality within the pediatric cohort; age 0–1 (n = 25, patient survival 100.0%), age 2–5 (n = 198, patient survival 96.0%), age 6–12 (n = 359, patient survival 97.5%), and age 13–18 (n = 607, patient survival 97.4%), respectively (p = 0.567). The most common causes of death were renal (n = 8, 24.2%), infection (n = 6, 18.2%), and malignancy (n = 5, 15.2%). All deaths from malignancy were secondary to PTLD. In a fully adjusted Cox regression model, only white ethnicity was significantly associated with risk of pediatric mortality post‐kidney transplantation (hazard ratio 2.7, 95% confidence interval [1.0–7.3], p = 0.047). To conclude, this population‐based cohort study confirms low mortality after pediatric kidney transplantation with short follow‐up.     

Donation after cardiac death kidneys are suitable for pediatric recipients

Despite the high number of children listed for kidney transplantation and shortage of deceased organ donors, there is reluctance to utilize DCD kidneys in pediatric recipients. We examined outcomes in pediatric kidney transplant patients who received a DCD kidney allograft. UNOS database was queried to examine outcomes in all pediatric kidney transplant recipients from 1994 to 2017. Pediatric status was defined as <18 years at the time of transplantation. Recipients were divided by DBD or DCD allograft status. Donor and recipient demographic data were examined. Patient and allograft survival was calculated, and Kaplan‐Meier survival curves were generated. A P‐value of <0.05 was considered to be significant. A total of 286 pediatric kidney transplant recipients received a DCD allograft. The donors in the DCD group were significantly younger than those in the DBD group (21.7 vs 23.3 years), with a higher KDPI (26.5% vs 22.9%). In the DCD group, the average age at transplant was younger (11.6 vs 12.9 years), with no difference in cold ischemia time or length of stay between the two groups. Rates of delayed graft function were higher in the DCD group, but despite this, there were no significant differences in allograft or patient survival between the groups. There is no difference in allograft survival in pediatric kidney transplant recipients who receive a DCD kidney allograft. DCD kidney allografts are suitable for transplantation in pediatric patients and can greatly expand the donor pool.     

Lymphocele after pediatric kidney transplantation: Incidence and risk factors

Lymphocele is a well‐known postoperative complication after kidney transplantation. The aim of this study was to analyze time trend incidence, risk factors, and outcome of post‐transplant lymphocele in a large pediatric cohort. This is a retrospective single institution review of 241 pediatric kidney transplants performed from 2000 to 2013. Etiology of end‐stage renal disease, recipient age and gender, transplant year, BMI percentile for age, type of dialysis, living/non‐living related donor, acute rejection, and multiple transplantations were analyzed in association with lymphocele formation. Fourteen of 241 (5.81%) children developed a postoperative lymphocele. There has been a reduction in the incidence of lymphocele after 2006 (3.22% vs. 8.55%, p < 0.05). Significant risk factors for lymphocele were older age (≥11 yr), transplant before 2006, male gender, BMI percentile for age ≥95%, and multiple transplantations (p < 0.05). The one‐yr graft survival was significantly reduced in the group with lymphocele compared with control (81.2% vs. 92.51%, p < 0.04). This is the first pediatric report showing the following risk factors associated with post‐transplant lymphocele: age ≥11 yr, male gender, BMI for age ≥95%, and multiple transplantations. A lymphocele can contribute to graft loss in the first‐year post‐transplant.     

Clinical predictors of autoimmune and severe atopic disease in pediatric heart transplant recipients

Autoimmune and allergic diseases cause morbidity and diminished quality of life in pediatric organ transplant recipients. We hypothesize that younger age at transplantation and immunosuppression regimen play a role in the development of immune‐mediated disease following heart transplant. A single institution retrospective review identified all patients undergoing heart transplant at ≤18 yr of age from 1987 to 2010 who survived ≥1 yr. Using medical record and database review, patients were evaluated for development of autoimmune or severe allergic disease. Of 129 patients who met criteria, seven patients (5.4%) with autoimmune or severe atopic disease were identified. Immune‐mediated diseases included inflammatory bowel disease (n = 3), eosinophilic esophagitis/colitis (n = 4), and chronic bullous disease of childhood (n = 1). Patients <1 yr of age at transplant were at greater risk of developing autoimmune disease than patients 1–18 yr at transplant (OR = 9.3, 95% CI 1.1–79.2, p = 0.02). All affected patients underwent thymectomy at <1 yr of age (7/71 vs. 0/58, p = 0.02). In our experience, heart transplantation in infancy is associated with the development of immune‐mediated gastrointestinal and dermatologic diseases. Further study is needed to determine risk factors for the development of immune‐mediated disease to identify best practices to decrease incidence.     

Transplantation of adult‐sized kidneys in low‐weight pediatric recipients achieves short‐term outcomes comparable to size‐matched grafts

Goldsmith PJ, Asthana S, Fitzpatrick M, Finlay E, Attia MS, Menon KV, Pollard SG, Ridgway DM, Ahmad N. Transplantation of adult‐sized kidneys in low‐weight pediatric recipients achieves short‐term outcomes comparable to size‐matched grafts.
Pediatr Transplantation 2010: 14:919–924. © 2010 John Wiley & Sons A/S. Abstract: Low‐weight pediatric recipients are disadvantaged by scarcity of size‐matched donors. ASK have been successfully used for pediatric recipients. We report the results of renal transplantation using ASK in low‐weight pediatric recipients and compare outcomes in weight‐matched and unmatched donor–recipient pairs. The outcomes of renal transplants using ASK grafts in low‐weight (<20 kg) recipients from a single center over a 10‐yr period were reviewed. Two groups, comprising recipients of grafts from weight‐matched and mismatched donors, were compared. Primary outcome was one‐yr graft survival. Secondary outcomes were one‐ and two‐yr calculated eGFR, changes in recipient body weight, perioperative cardiovascular stability, rates of AR and DGF. Twenty‐three low‐weight recipients were transplanted. Eleven received ASK grafts from high‐weight donors and 12 grafts from low‐weight donors. One patient in each group had early graft loss. No significant difference was observed in rates of DGF, AR, one‐yr graft or patient survival and perioperative cardiovascular parameters. ASK with considerable donor:recipient weight discrepancies can be safely transplanted into small pediatric recipients with comparable outcomes to grafts with less weight discrepancy.     

Immune cell function assay in pediatric heart transplant recipients

The ImmuKnow^® ICFA reports ex vivo CD4 lymphocyte activation to quantify immunosuppression. Limited organ and age‐specific data exist for pediatric heart transplant recipients. We sought to examine their normative values and ICFA's association with rejection/infection. A total of 380 ICFAs from 58 heart transplant recipients (6.5/recipient) were studied retrospectively. The median age at the time of their first ICFA was 5.3 yr (IQR 2.4–12.1 yr). ICFA levels during immunologic stability (n = 311) were a median of 305 (IQR: 172–483) and mean of 353 (s.d. ± 224) ng ATP/mL. ICFA levels trended lower with advancing age. ICFA levels during immunologic stability increased over time from transplant after the first six months but were not correlated with calcineurin inhibitor levels or the type used. There is no association between ICFA values during stability and rejection (median 368 ATP ng/mL; IQR 153–527) or infection (median 293 ATP ng/mL; IQR 198–432). In contrast to the manufacturer's suggested ranges, the immunologic stable ranges in pediatric cardiac recipients were very different. ICFA values during immunologic stability are related to time from transplant in pediatric heart recipients. ICFA's ability to discriminate rejection or infection from immunologic stability was not demonstrated.     

Donor–recipient height ratio and outcomes in pediatric heart transplantation

Height matching in pediatric HTx has been proposed as a superior method of evaluating graft size, but no studies have examined survival advantage for height‐matched donor–recipient pairs. We hypothesized that in pediatric patients with DCM, an oversized donor improves survival and aimed to define the optimal height ratio in this patient group. Pediatric primary HTx recipients with DCM between 10/89 and 09/12 were identified in the OPTN database. Patients were stratified into three donor–recipient height and weight ratio categories. One‐ and five‐yr survival was compared using Kaplan–Meier analysis and HRs were computed. A total of 2133 children with DCM who underwent HTx during the study period were included. Unadjusted one‐yr survival was worse for DRHR <0.87 (HR, 2.15 [95% CL, 1.30, 3.53]; p < 0.01). This difference was not present at five yr post‐HTx or when stratified by weight. After adjustment for other risk factors affecting transplant survival, height matching was no longer significant. Although height matching appears to predict short‐term survival better than weight in pediatric HTx recipients with DCM, other factors play a more important role as height matching loses significance in multivariate analysis.     

Percutaneous coronary intervention using drug‐eluting stents in pediatric heart transplant recipients

Abstract: PCI has been used for palliation of CAV in adults, but there are limited data available in children. We sought to evaluate our experience with PCIs for CAV in pediatric heart transplant recipients. Retrospective review of the medical records of all four patients who were diagnosed with CAV, including demographic data and catheterization reports was performed. Of the 149 pediatric heart transplant recipients followed at our institution, 10 were identified with CAV. Four of these 10 underwent 12 PCI procedures for CAV. One donor heart had documented coronary artery disease. Two patients had significant risk factors for coronary artery disease including morbid obesity, hyperlipidemia, and systemic hypertension. PCI involved deployment of bare metal stents (n = 2), paclitaxel‐eluting stent (n = 6), and sirolimus‐eluting stents (n = 4) with procedural success in all and no early or late mortality. One procedure was complicated by coronary dissection that was successfully treated with stent placement. One patient has been re‐transplanted while the other three are not candidates for re‐transplantation and have remained asymptomatic as palliation with PCI. PCI using coronary stents is a safe and effective palliative measure for CAV in pediatric heart transplant recipients.     

Alemtuzumab with corticosteroid minimization for pediatric deceased donor renal transplantation: A seven‐yr experience

Alemtuzumab is a monoclonal antibody targeting CD52 receptors on B and T lymphocytes and is an effective induction agent in pediatric renal transplantation. We report a seven‐yr experience using alemtuzumab induction and steroid‐free protocol in the pediatric population as safe and effective. Twenty‐one pediatric deceased donor renal transplants were performed at a single academic institution. All received induction with single‐dose alemtuzumab and were maintained on a steroid‐free protocol using TAC and MMF immunosuppression. There were 15 males and six females in the study whose ages ranged from one to 19 yr. The average follow‐up was 32 months (range from 12 to 78.2 months and median 33.7 ± 23.7 months). All patients had immediate graft function. Graft survival was 95%, and patient survival was 100%. Mean 12 and 36 months eGFR were 63.33 ± 21.01 and 59.90 ± 15.27 mL/min/1.73m², respectively. Three patients developed acute T‐cell‐mediated rejection due to non‐adherence while no recipients developed cytomegalovirus infection, PTLD, or polyoma BK viral nephropathy. Steroid avoidance with single‐dose alemtuzumab induction provides adequate and safe immunosuppression in pediatric deceased donor renal transplant recipients receiving TAC and low‐dose MMF maintenance therapy.