Empowering Adolescents and Young Adults to Support, Lead, and Thrive: Development and Validation of an AYA Oncology Child Life Program.

PURPOSE: The majority of cancer treatment programs do not focus on the unique psychosocial support needs of adolescent and young adult (AYA) patients. Recognizing this disparity, a freestanding children's hospital utilized an interdisciplinary approach to bridge the gap and develop a comprehensive program to address issues specific to new diagnosis, treatment, and survivorship in AYA oncology patients. METHODS AND INTERVENTIONS: A pediatric hospital formed a multidisciplinary team to educate, engage, and empower AYAs to participate in the development of a comprehensive program. RESULTS: The program enables peer-supported social networking and empowers patients to invest in their treatment and survivorship. The number of newly diagnosed adolescent patients accessing our program has increased 40% since the program began in 2015; attendees at AYA events increased from 99 in 2015 to 1312 in 2018, as has the number of AYA events per year. Following program implementation, our NRC Picker score of 89.3% ranks above the 90th percentile of all children's hospitals (benchmark 81.2%) on questions related to "involving teens in their care". CONCLUSIONS: AYA Programs can provide age-specific spaces, empowerment events, and specific education curriculum that meet the unique needs of adolescents and young adults and may positively impact patient satisfaction.

Consensus Guideline for Use of Glucarpidase in Patients with High-Dose Methotrexate Induced Acute Kidney Injury and Delayed Methotrexate Clearance.

Acute kidney injury due to high-dose methotrexate (HDMTX) is a serious, life-threatening toxicity that can occur in pediatric and adult patients. Glucarpidase is a treatment approved by the Food and Drug Administration for high methotrexate concentrations in the context of kidney dysfunction, but the guidelines for when to use it are unclear. An expert panel was convened to provide specific, expert consensus guidelines for the use of glucarpidase in patients who develop HDMTX-induced nephrotoxicity and delayed methotrexate excretion. The guideline provides recommendations to identify the population of patients who would benefit from glucarpidase rescue by more precisely defining the absolute methotrexate concentrations associated with risk for severe or life-threatening toxicity at several time points after the start of an HDMTX infusion. For an HDMTX infusion ≤24 hours, if the 36-hour concentration is above 30 µM, 42-hour concentration is above 10 µM, or 48-hour concentration is above 5 µM and the serum creatinine is significantly elevated relative to the baseline measurement (indicative of HDMTX-induced acute kidney injury), glucarpidase may be indicated. After a 36- to 42-hour HDMTX infusion, glucarpidase may be indicated when the 48-hour methotrexate concentration is above 5 µM. Administration of glucarpidase should optimally occur within 48-60 hours from the start of the HDMTX infusion, because life-threatening toxicities may not be preventable beyond this time point. IMPLICATIONS FOR PRACTICE: Glucarpidase is a rarely used medication that is less effective when given after more than 60 hours of exposure to high-dose methotrexate, so predicting early which patients will need it is imperative. There are no currently available consensus guidelines for the use of this medication. The indication on the label does not give specific methotrexate concentrations above which it should be used. An international group of experts was convened to develop a consensus guideline that was specific and evidence-based to identify the population of patients who would benefit from glucarpidase.

Asparaginase Toxicities: Identification and Management in Patients With Acute Lymphoblastic Leukemia
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BACKGROUND: Acute lymphoblastic leukemia (ALL) is a common cancer in children, and outcomes have greatly improved because of the refinement of multiagent chemotherapy regimens that include intensified asparaginase therapy. Asparaginase, a cornerstone of modern pediatric chemotherapy regimens for ALL and asparaginase-containing protocols, is increasingly used in adolescent and adult patients historically treated with asparaginase-free regimens. 
. OBJECTIVES: This article is an overview of commonly encountered asparaginase-associated toxicities and offers recommendations for treatment management.
. METHODS: A literature review was conducted, reviewing asparaginase and common toxicities, specifically hypersensitivity, pancreatitis, thrombosis, hyperbilirubinemia, and hyperglycemia.
. FINDINGS: The rapid identification and management of common asparaginase-associated adverse events can reduce symptom severity and limit potential interruptions to therapy, possibly improving outcomes.

Dinutuximab: A Novel Immunotherapy in the Treatment of Pediatric Patients With High-Risk Neuroblastoma [Formula: see text].

Therapy combining dinutuximab with granulocyte macrophage colony stimulating factor, interleukin 2, and isotretinoin has significant side effects; however, these complications are generally predictable and can be managed proactively.

Chromosome abnormalities in advanced stage lymphoblastic lymphoma of children and adolescents: a report from CCG-E08.

Among pediatric non-Hodgkin lymphomas, one of the most frequent types is lymphoblastic lymphoma (LBL). Specific chromosome abnormalities are associated with prognosis in childhood acute lymphoblastic leukemia, but have not been evaluated for prognostic value in pediatric LBL. For the Children's Cancer Group protocol CCG-E-08 Etiologic Study of Non-Hodgkin Lymphoma in Childhood, 13 patients were enrolled with cytogenetic analysis of LBL and on treatment protocol CCG-502. Pathology material and karyotypes at initial diagnosis were given central review. The patients were aged 6-13 years (median 9 years), with a male-to-female ratio of 12:1. All patients had advanced disease. Disease relapsed in six patients (event-free survival 54% +/- 14%, median 10.8 years). Chromosome abnormalities were identified in 11 (85%), and translocations at 14q11.2 likely involving the T-cell receptor alpha/delta locus (TCR A/D) occurred in 4 (31%). For patients with relapse, four had translocations t(1;14)(p32;q11.2), t(8;14)(q24.1;q11.2), t(11;14)(p13;q11.2), or t(9;17)(q34;q23), involving breakpoints in the regions of TAL1, MYC, LMO2, and NOTCH1, respectively. Pediatric advanced LBLs have a high frequency of chromosome abnormalities; in this limited study, these often involved translocations at 14q11.2, the site of TCR A/D. Translocations possibly involving TAL1, MYC, LMO2, or NOTCH1 may have contributed to poor outcome. Further studies are warranted in larger cohorts of children and adolescents with LBL to evaluate the prognostic significance.

Chromosome abnormalities may correlate with prognosis in Burkitt/Burkitt-like lymphomas of children and adolescents: a report from Children's Cancer Group Study CCG-E08.

Among pediatric non-Hodgkin lymphomas, the most frequent type is small noncleaved-cell lymphoma (including Burkitt and Burkitt-like). Specific chromosome abnormalities are associated with prognosis in childhood acute lymphoblastic leukemia (ALL); however, chromosome abnormalities have not been evaluated for prognostic value in pediatric Burkitt and Burkitt-like lymphomas. For Children's Cancer Group protocol CCG-E-08 Etiologic Study of Non-Hodgkin Lymphoma in Childhood, 19 patients were enrolled with cytogenetic analysis of Burkitt or Burkitt-like lymphoma and simultaneously enrolled on treatment protocols CCG-503 or CCG-552. Pathology material and karyotypes at initial diagnosis underwent central review. Demographics included an age range of 2 to 14 years (median 8 years) and a male:female ratio of 14:5. All patients had advanced disease (stages III and IV, or ALL). Disease relapsed in five patients (event-free survival 74%, median follow-up 10.4 years). Chromosome abnormalities were identified in 18 patients (95%) including t(8;14)(q24.1;q32) in 12 (63%); t(8;22)(q24.1;q11.2) in 1 (5%); partial duplication of 1q in 7 (37%); and 13q32 abnormalities in 2 (11%). In patients who had relapses, in addition to the t(8;14)(q24. ;q32), two had abnormalities of 13q32 and two had partial duplication of 1q. CMYC translocations were absent in Burkitt-like lymphomas from all three patients. Burkitt and Burkitt-like lymphomas in children have a high frequency of chromosome abnormalities. Burkitt lymphoma abnormalities often involve CMYC translocations, usually a t(8;14)(q24.1;q32). Additional chromosome abnormalities that involved 13q32 and partial duplication of 1q were associated with poor prognosis. Burkitt-like lymphomas were not associated with CMYC translocations. Further studies are warranted in larger cohorts of children and adolescents with Burkitt and Burkitt-like lymphomas.

Assessing immunoglobulin heavy chain rearrangements in pediatric CD20-positive and CD20-negative classic Hodgkin's disease.

Approximately 15% of all cases of childhood classical Hodgkin's disease (HD) express CD20, a B-cell marker associated with immunoglobulin heavy chain rearrangements. Immunoglobulin heavy chain rearrangements in Reed-Sternberg cells could be used to assess minimal residual disease (MRD), as was shown with immunoglobulin heavy chain patient-specific primers (PSPs) in non-Hodgkin's lymphoma. The aim of this study was to analyze pediatric HD for future design of immunoglobulin heavy chain PSP for MRD detection. DNA was extracted from paraffin-embedded tissue from unstained slides of 8 pediatric CD20+ nodular sclerosis HD cases and 10 CD20-nodular sclerosis HD cases. Immunoglobulin heavy chain polymerase chain reaction and sequencing were performed on 16 of 18 cases, which had adequate DNA for further analysis. Sequence analysis from 3 cases (19% of HD cases) demonstrated unique V(D)J regions, which could potentially be used to design PSP. Unique PSPs could be used to assess MRD in advanced-stage HD specimens. Future studies should focus on improved detection and analysis of more cases to identify appropriate specimens in assessing clinical implications of MRD detection.