The successful use of alemtuzumab for treatment of steroid‐refractory acute graft‐versus‐host disease in pediatric patients

SR‐aGVHD remains a significant cause of morbidity and mortality in allogeneic HCT recipients. Alemtuzumab has been used with success in adult patients but has not been studied in the pediatric setting. To estimate the effectiveness of alemtuzumab for the treatment of SR‐aGVHD in pediatric patients, we retrospectively reviewed the charts of 19 patients (median age 4 yr, range 0.5–28 years) with grades II (n = 3), III (n = 10), or IV (n = 6) SR‐aGVHD who received alemtuzumab treatment. Patients received a median dose of 0.9 mg/kg alemtuzumab (range 0.3–2 mg/kg) divided over 2–6 days. Eighty‐nine percent of patients received additional courses. A complete response, defined as GVHD of grade 0 at four wk following the first alemtuzumab course, was observed in nine patients (47%). A partial response, defined as an improvement in grade after four wk, was observed in five patients (26%). There was no response in five patients (26%). The overall response rate at four wk was 73%. Infectious complications included bacteremia (47%), presumed or documented fungal infections (21%), adenovirus viremia (52%), EBV viremia (36%), and CMV viremia (36%). We conclude that alemtuzumab is effective for SR‐aGVHD in pediatric patients with a tolerable spectrum of complications.     

Invasive pneumococcal infections in pediatric liver‐small bowel‐pancreas transplant recipients

Children undergoing LSBPTx are at increased risk of IPI due to splenectomy. We aimed to describe the clinical features and outcomes of IPI in pediatric LSBPTx recipients. Between 2008 and 2016, 122 LSBPTx children at our center were retrospectively reviewed. Nine patients had 12 episodes of IPI; the median age at first infection was 3.5 years (range: 1.5‐7.1 years). The median time from transplant to first infection was 3 years (range: 0.8‐5.8 years). Clinical presentation included as follows: pneumonia (n = 1), bacteremia/sepsis (n = 7), pneumonia with sepsis (n = 1), meningitis with sepsis (n = 2), pneumonia and meningitis with sepsis (n = 1). The overall risk for IPI was 7.4% or 0.9% per year. The mortality rate was 22%. Seven (78%) children had received at least one dose of PCV13, four (44%) patients had received 23‐valent pneumococcal polysaccharide vaccine prior to IPI. All patients were on oral penicillin prophylaxis. In conclusion, despite partial or complete pneumococcal immunization and reported antimicrobial prophylaxis, IPI in LSBPTx children can have a fatal outcome. Routine monitoring of pneumococcal serotype antibodies to determine the timing for revaccination might be warranted to ensure protective immunity in these transplant recipients.     

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.     

Non‐total body irradiation myeloablative conditioning with intravenous busulfan and cyclophosphamide in hematopoietic stem cell transplantation for malignant infantile osteopetrosis

HSCT is the only curative treatment for MIOP. We prospectively investigated the outcome of HSCT using intravenous busulfan‐based conditioning regimen from 2008 to 2013. Nineteen patients (median age = 17 months) underwent transplantation from HLA‐matched related donors (n = 14), HLA‐haploidentical related donors (n = 2), partially matched cord blood donors (n = 2), and HLA‐matched unrelated donor (n = 1). Bone marrow (n = 9), peripheral blood (n = 8), and cord blood (n = 2) were used as stem cell sources. All but one patient demonstrated primary engraftment. Two patients experienced secondary graft failure. During the follow‐up period, three patients showed mixed chimerism (45%, 45%, and 70% of donor cells were engrafted in each one of these patients) but are disease free. Two‐yr OS and DFS were 84.2% and 73.7%, respectively. Improvement of visual acuity and partial reversal of mild conductive hearing loss occurred in two and four patients, respectively. The causes of death among three patients were infection, GvHD, and disease progression. In conclusion, due to major side effects of MIOP such as visual and hearing loss, early treatment using myeloablative conditioning without irradiation HSCT is suggested. The use of an HLA‐matched related donor seems to be highly successful in this regard. Also, according to results of our study, mixed chimerism may be sufficient to resolve symptoms of disease.     

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.     

Post‐transplant lymphoproliferative disorders and other malignancies after pediatric intestinal transplantation: Incidence,clinical features and outcome

PTLDs are a well‐recognized and potentially fatal complication after intestinal transplantation. We analyzed the incidence, clinical features, and outcome in a 63 intestinal transplantation series performed in our unit between October 1999 and July 2011. Types of graft included ISB (n = 23), LSB (n = 20), and MV (n = 20). Patients were categorized into three groups of immunosuppression: I (n = 43) received basiliximab, tacrolimus, and steroids; II (n = 11) thymoglobulin and tacrolimus, and III (n = 9) alemtuzumab and tacrolimus. EBV status was serially assessed. All PTLD cases were biopsied to establish histopathological diagnosis. The incidence of PTLD was 14.2% (9/63). Median onset of PTLD after transplant was four months (range: 0.5–28), within first postoperative year in 6 (66.6%) patients. Fever was the most common symptom. Graft removal was needed in four patients (44%). The patient survival rate was 66.6% (6/9). We have not found any association between PTLD and immunosuppression regimen or transplant type. However, there was a statistical association with EBV active infection.     

Health‐related quality of life in pediatric intestinal transplantation

To determine HRQOL after pediatric intestinal transplantation. Thirty‐four IT survivors from 1999 to 2012 were asked to complete age‐specific HRQOL non‐disease‐specific questionnaires: TAPQOL (0–4 yr), KINDL‐R (5–7 yr; 8–12 yr; 13–17 yr), and SF‐36v2 (>18 yr), all validated with Spanish population. Primary caregiver completed a SF‐36 questionnaire and CBI. Thirty‐one participants were included. Median age was 10.2 yr (1–29) and time after transplant 4.4 yr (0–13). Overall patient scores were 78.2 ± 10.6 (n = 8), 83.3 ± 9.7 (n = 6), 72.2 ± 9.21 (n = 6), 80.5 ± 12.4 (n = 7), and 82.2 ± 12.4 (n = 4) for each age group. Highest scores were obtained for vitality (group I), self‐esteem (group IV), and physical and social functioning and emotions (group V). Lowest scores were obtained in appetite and behavior (I), family and school (III), and chronic disease perception (III, IV). No significant differences were found between caregivers and their children. CBI showed stress in 52%. SF‐36 for caregivers was lower than general population. No significant differences were found depending on relevant clinical and sociodemographic data. HRQOL was acceptable and improved with age and time since transplantation. Parents had a slighter own QOL and worse perception of health than their children. When successful, intestinal transplantation allows a normal life in most patients and can be offered as an attractive option.     

Rare non‐Hodgkin lymphoma of childhood and adolescence: A consensus diagnostic and therapeutic approach to pediatric‐type follicular lymphoma,marginal zone lymphoma,and nonanaplastic peripheral T‐cell lymphoma

Pediatric‐type follicular (PTFL), marginal zone (MZL), and peripheral T‐cell lymphoma (PTCL) account each for <2% of childhood non‐Hodgkin lymphoma. We present clinical and histopathological features of PTFL, MZL, and few subtypes of PTCL and provide treatment recommendations. For localized PTFL and MZL, watchful waiting after complete resection is the therapy of choice. For PTCL, therapy is subtype‐dependent and ranges from a block‐like anaplastic large cell lymphoma (ALCL)‐derived and, alternatively, leukemia‐derived therapy in PTCL not otherwise specified and subcutaneous panniculitis‐like T‐cell lymphoma to a block‐like mature B‐NHL‐derived or, preferentially, ALCL‐derived treatment followed by hematopoietic stem cell transplantation in first remission in hepatosplenic and angioimmunoblastic T‐cell lymphoma.     

Long‐term outcomes of liver transplantation for hepatoblastoma: A single‐center 14‐year experience

HB is the most common primary liver tumor in children. Complete tumor excision, either by partial resection or by total hepatectomy and liver transplantation, in combination with chemotherapy provides the best chance for cure. We performed a retrospective analysis of patients who underwent liver transplantation for HB and herein present our 14‐year single‐institution experience. Twenty‐five patients underwent liver transplantation for HB at a median age of 26 months (IQR: 15‐44). Graft survival was 96%, 87%, and 80% at 1, 3, and 5 years, respectively. There were four patient deaths, three of them due to disease recurrence within the first year post‐transplant. Ten‐year overall survival was 84%. Three recipients initially presented with pulmonary metastases and underwent resection of metastatic disease, of which two are alive at 3.9 years. Of three patients who underwent salvage transplants, two are alive at 1.5 years after transplant. Non‐survivors were associated with lower median alpha fetoprotein value at presentation compared to survivors (21 707 vs 343 214; P = .04). In conclusion, the overall long‐term outcome of primary liver transplantation for HB is excellent. Tumor recurrence was the highest contributor to mortality. Even patients with completely treated pulmonary metastases prior to transplant demonstrated a favorable survival.     

Matched related donor hematopoietic stem cell transplantation results in a long‐term follow‐up of a pediatric acquired severe aplastic anemia subset: A stem cell source perspective

HSCT has substantially improved pediatric acquired SAA patients' outcomes. Retrospectively, we attempted to assess the outcome of MRD HSCT in 65 pediatric patients referred to a single center from 1992 to 2012. We were particularly interested to find out whether source of SC (PB, n = 40 and BM, n = 25) significantly impacts EFS and GVHD incidence. With a median follow‐up of 45 months, total EFS was 87.7%; EFS for PB and BM groups was 87.5% and 88%, respectively. Acute GVHD (grades 3–4) occurred in 13 patients (PB, n = 10 [25%] and BM, n = 3 [12%]), acute GVHD (grades 2–4) occurred in 24 (PB, n = 16 [40%] and BM, n = 8 [32%]). Extensive chronic GVHD occurred in five patients (PB, n = 3 [7.5%] and BM, n = 2 [8%]). Cox regression revealed that elapsed time of <10 months between diagnosis and HSCT is associated with improved survival (hazard ratio, 95% CI = 1.204, 1.010–1.434, p = 0.038). SC source did not significantly affect EFS, incidence of acute GVHD (grades 3–4), or extensive chronic GVHD (p = 0.938, 0.121, and 0.487, respectively). Based on our findings, pediatric acquired SAA patients are benefitted most if MRD‐HSCT is carried out early in disease process and SC source does not affect outcome of MRD‐HSCT in these patients.     

Impact of melphalan dose during reduced‐intensity conditioning on engraftment of cord blood transplantation for chronic Epstein‐Barr virus‐associated T or NK cell lymphoproliferative diseases

The rejection rate in cord blood transplants for chronic Epstein‐Bar virus‐associated T or natural killer cell lymphoproliferative diseases using our standard reduced‐intensity conditioning “LPAM140 regimen,” which includes fludarabine, melphalan (LPAM), etoposide, and antithymocyte globulin, has been high. To ensure better engraftment, we increased the LPAM dose to 210 mg/m² (“LPAM210 regimen”). Patient data (n = 22; LPAM140, n = 7; LPAM210, n = 15) were analyzed retrospectively. The engraftment rate after the LPAM210 regimen (100.0%) was significantly higher than that after the LPAM140 regimen (57.1%; P = .002). Fludarabine combined with melphalan (210 mg/m²) had a favorable impact on engraftment.     

Outcome of liver re‐transplantation in children—Impact and special analysis of early re‐transplantation

In case of graft failure, re‐LTX is the only life‐saving option but it has been associated with inferior results. This study analyzes the outcome following pediatric re‐LTX with a main focus on the timely relation between initial transplant and re‐LTX. All pediatric LTX at our institution between 2000 and 2010 divided into patients with primary LTX and patients undergoing re‐LTX early (≤30 days) or late (>30 days) after previous LTX were analyzed. Two hundred and ninety‐eight primary LTX(79%), 33 early (9%), and 46 late (12%) re‐LTX were performed. Patient/graft survival was significantly worse for children undergoing early re‐LTX compared to primary LTX and late re‐LTX (p = 0.024/0.001 and p = 0.015/0.03). One‐/five‐yr graft survival rates were 66%/49% for early re‐LTX compared to 86%/76% for late re‐LTX and 90%/74% for primary LTX. The inferior results in children undergoing early re‐LTX were due to events occurring in the first six months with similar survival thereafter. No difference in outcome was evident after adjustment of the groups for high‐urgency status. Outcome was excellent for primary LTX and late re‐LTX, supporting late re‐LTX in children. Early re‐LTX takes an elevated risk of early graft loss and patient death; however, beyond the early postoperative period, the outcome was comparable.     

The value of 18F‐FDG PET in pediatric patients with post‐transplant lymphoproliferative disorder at initial diagnosis

PTLD is a serious complication of both solid organ and BMT. This study assessed whether ¹⁸F‐FDG PET, when added to CT scan, had additional value in the initial evaluation of PTLD in pediatric patients and whether PET/CT at baseline can reliably guide biopsy. This retrospective study evaluated 34 consecutive pediatric patients (14 female), aged 3.5–17.0 yr (mean age: 9.9 yr, s.d.: 4.9 yr), who had undergone ¹⁸F‐FDG PET/CT from May 2007 to December 2014 at initial diagnosis of PTLD following heart (n = 13), lung (n = 8), kidney (n = 4), liver (n = 3), liver and bowel (n = 3), and bone marrow (n = 3) transplantation. PTLD was diagnosed histopathologically in 33 patients and was based on clinical findings, elevated EBV, and imaging and follow‐up results in one patient. On lesion‐based analysis, ¹⁸F‐FDG PET showed more lesions than conventional CT scan (168 vs. 134), but CT revealed 22 lesions negative on PET. On per patient analysis, PET detected more lesions in 13 patients, CT identified more abnormalities in seven, and both showed the same number of lesions in 14. Adding ¹⁸F‐FDG PET to CT scans upstaged the disease in seven patients (20.5%). A combination of ¹⁸F‐FDG PET and CT was also useful in guiding biopsy, being positive in 36 of 39 samples (92.3%). These findings indicated that ¹⁸F‐FDG PET and CT are complementary at initial staging of pediatric PTLD and that ¹⁸F‐FDG PET/CT scanning can guide biopsies.     

Hematopoietic stem cell transplantation for children with primary immunodeficiency diseases: Single center experience in Jordan

HSCT can be curative for many PID. Little is known about the outcome of HSCT for patients with PID in the developing countries. We retrospectively reviewed all children with PID who received HSCT at KHCC in Jordan between August 2003 and October 2011. Twenty‐eight patients were identified. The median age was 16 months (3 months–17 yr). Patients' diagnoses were SCID (n = 16), CHS (n = 3), HLH (n = 3), WAS (n = 2), Griscelli syndrome (n = 1), ALPS (n = 1), Omenn's syndrome (n = 1), and DiGeorge syndrome (n = 1). Seventeen patients received HLA‐matched related HSCT, eight received maternal un‐manipulated haploidentical HSCT, and three received unrelated cord blood transplantation. Nine patients (32%) developed BCGosis secondary to reactivation of pretransplant vaccination. Three died while still receiving anti‐tuberculosis drugs, one still on treatment, and all others have recovered. Six patients had graft failure; four of them received no conditioning regimens. At a median follow up of 32 months (range 1‐67), 21 patients are alive, with overall survival of 72%. We conclude that HSCT for PID patients can be performed with a good outcome in developing countries; however, delayed diagnosis or referral and BCG reactivation are unique challenges.     

Defibrotide for the treatment of hepatic veno‐occlusive disease/sinusoidal obstruction syndrome following nontransplant‐associated chemotherapy: Final results from a post hoc analysis of data from an expanded‐access program

1 Background

Hepatic veno‐occlusive disease/sinusoidal obstruction syndrome (VOD/SOS) is a potentially fatal complication of conditioning for hematopoietic stem cell transplantation (HSCT) but can occur after nontransplant‐associated chemotherapy. Following HSCT, VOD/SOS with multi‐organ dysfunction (MOD) may be associated with >80% mortality. Defibrotide is approved to treat severe hepatic VOD/SOS post‐HSCT in patients aged >1 month in the European Union and hepatic VOD/SOS with renal or pulmonary dysfunction post‐HSCT in the United States. Prior to US approval, defibrotide was available to treat VOD/SOS through an expanded‐access treatment (T‐IND) program. A post hoc analysis of nontransplant‐associated VOD/SOS patients treated with defibrotide initiated within 30 days of starting chemotherapy and followed for 70 days is presented.

2 Procedure

Patients were diagnosed by Baltimore or modified Seattle criteria or biopsy, and received defibrotide 25 mg/kg/day in four divided doses (≥21 days recommended).

3 Results

Of the 1,154 patients in the T‐IND, 137 had nontransplant‐associated VOD/SOS, 82 of whom developed VOD/SOS within 30 days of starting chemotherapy. Of them, 66 (80.5%) were aged ≤16 years. Across all the 82 patients, Kaplan–Meier estimated day +70 survival was 74.1%, 65.8% in patients with MOD (n = 38), and 81.3% in patients without MOD (n = 44). By age group, Kaplan–Meier estimated day +70 survival was 80.1% in pediatric patients (n = 66) and 50.0% in adults (n = 16). Treatment‐related adverse events occurred in 26.8%.

4 Conclusions

In this post hoc analysis of 82 patients initiating defibrotide within 30 days of starting chemotherapy, Kaplan–Meier estimated survival was 74.1% at 70 days after defibrotide initiation. Safety profile was consistent with prior defibrotide studies.     

Non‐immediate‐reading skin tests and prolonged challenges in non‐immediate hypersensitivity to beta‐lactams in children

Background

A minority of children reporting non‐immediate reactions to beta‐lactams (BLs) are allergic. Allergy workup usually includes late‐reading (48‐72 hours) skin tests (ST) and short (1‐3 days) drug provocation tests (DPT), regardless of the chronology of the index reaction. The sensitivity of hyper‐late‐reading (≥6‐7 days) ST and of prolonged DPT for the diagnosis of non‐immediate hypersensitivity to BLs is yet to be determined.

Objectives

To establish the diagnostic values of late‐reading ST and hyper‐late‐reading ST and of prolonged DPT in children reporting non‐immediate reactions to BLs.

Methods

Prospective assessment of children reporting non‐immediate reactions to BLs with late‐ and additional hyper‐late‐reading intradermal (ID) and patch tests, and if negative, with prolonged DPT.

Results

Five hundred and fifty children reporting reactions to a single or several BLs (674 suspected BLs) were included. Non‐immediate hypersensitivity to BLs was diagnosed in 63 children (11.5%), reporting 66 reactions (9.8%), based on responses in ST (n = 17, 25.8%: 5 to ID, 8 to patch tests, and 4 to both tests), DPT (n = 43, 65.2%), and clinical history (n = 6, 9.1%), including 3/9 children with severe cutaneous adverse reactions. Skin test positivity was observed after the 6‐7th day in 14/17 children, and DPT positivity after a median time of 3 days. No severe reaction was observed after ST or during prolonged DPT.

Conclusion

Additional hyper‐late‐reading of ST enhanced their positivity. However, their overall sensitivity remained weak, especially in non‐severe cases. Prolonged DPT are safe and may improve the performance of DPT in the diagnosis of non‐immediate hypersensitivity to BLs.     

Comparison of outcomes after HLA‐matched unrelated and αβ T‐cell‐depleted haploidentical hematopoietic stem cell transplantation for children with high‐risk acute leukemia

T‐cell‐depleted HAPLO HSCT is an option to treat children with high‐risk acute leukemia lacking an HLA‐identical donor. We reviewed the outcome of children with acute leukemia after HAPLO (n = 21) and HLA‐MUD (n = 32) transplantation. The proportion of patients with ≥CR2 was significantly higher in HAPLO transplantation than MUD transplantation. Patients with MUD transplantation were significantly higher ABO incompatible than patients with HAPLO transplantation. There was no difference between the 2 groups in terms of engraftment, aGvHD and cGvHD, VOD, hemorrhagic cystitis, infections, and relapse. The 5‐year OS of MUD transplantation and HAPLO transplantation groups was found 65.8% and 71.1%, respectively (log‐rank 0.51). The 5‐year RFS was 80.7% for MUD transplantation group and 86.9% for HAPLO transplantation group (log‐rank 0.48). There was no statistically significant difference between 2 groups according to TRM (25% MUD transplantation vs 16.3% HAPLO transplantation, log‐rank 0.48). These data suggest that survival for patients with high‐risk acute leukemia after HAPLO transplantation with ex vivo ɑβ⁺ T‐cell depletion is comparable with MUD transplantation.     

Health‐related quality of life among siblings of kidney transplant recipients

Studies are increasingly recognizing health‐related quality of life (HRQOL) as a key pediatric outcome in both clinical and research settings and an essential health outcome measure to assess the effectiveness of medical treatment. However, it has not yet been studied among the healthy siblings of kidney transplant recipients. The aim of this study, therefore, is to examine HRQOL among this population. We asked the following three groups to complete a validated measure of HRQOL among children (KIDSCREEN‐52 ) : siblings of children who had received kidney transplants (n = 50), kidney transplant recipients (n = 43), and a healthy control group (n = 84). We found that siblings of kidney transplant patients exhibited lower scores for financial resources and autonomy than kidney transplant recipients. They also served lower on physical well‐being, financial resources, autonomy, and parent relations/home life than the control group. However, they scored higher on social acceptance than kidney transplant recipients. Our study underscores the importance of assessing HRQOL in families including a child diagnosed with a chronic illness. Siblings require social and psychological support to promote coping and adaptation.     

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

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

Dose‐escalation is needed for gross disease in high‐risk neuroblastoma

1 Background

Locoregional failure is common after subtotal resection in high‐risk neuroblastoma. Although a dose of 21 Gy radiation therapy (RT) is standard for treatment of high‐risk neuroblastoma after gross total resection, the dose needed for local control of patients with gross residual disease at the time of RT is unknown. We sought to evaluate local control after 21–36 Gy RT in patients with high‐risk neuroblastoma undergoing subtotal resection.

2 Methods

All patients with high‐risk neuroblastoma who received RT to their primary site from 2000 to 2016 were reviewed. Of the 331 patients who received consolidative RT to their primary site, 19 (5.7%) underwent subtotal resection and were included in our analysis. Local failure (LF) was correlated with biologic prognostic factors and dose of RT.

3 Results

Median follow‐up among surviving patients was 6.0 years. Median RT dose was 25 Gy (range, 21 Gy–36 Gy). The 5‐year cumulative incidence of LF among all patients was 17.2%. LF at 5 years was 30% in those who received <30 Gy versus 0% in those who received 30–36 Gy (P = 0.12). There was a trend towards improved local control in patients with tumor size ≤10 cm at diagnosis (P = 0.12). The 5‐year event‐free and overall survival were 44.9% and 68.7%, respectively.

4 Conclusion

After subtotal resection, patients who received less than 30 Gy had poor local control. Doses of 30–36 Gy are likely needed for optimal control of gross residual disease at the time of consolidative RT in high‐risk neuroblastoma.