Your search keyword '"Reaman, GH"' showing total 291 results

1. Cytogenetic studies of infant acute lymphoblastic leukemia: poor prognosis of infants with t(4;11) – a report of the Children’s Cancer Group

Author

Heerema, NA, Sather, HN, Ge, J, Arthur, DC, Hilden, JM, Trigg, ME, and Reaman, GH

Published

1999

2. Classification and Treatment of Acute Lymphoblastic Leukemia

Author

Reaman, GH, Smith, FO, Hunger, S, Conter, V, Raetz, E, Valsecchi, M, Henze, G, Hunger, SP, Raetz, EA, VALSECCHI, MARIA GRAZIA, Henze, G., Reaman, GH, Smith, FO, Hunger, S, Conter, V, Raetz, E, Valsecchi, M, Henze, G, Hunger, SP, Raetz, EA, VALSECCHI, MARIA GRAZIA, and Henze, G.

Published

2011

3. Serotype-specific immunoglobulin G antibody responses to pneumococcal polysaccharide vaccine in children with sickle cell anemia: Effects of continued penicillin prophylaxis

Author

Bjornson, AB, Falletta, JM, Verter, JI, Buchanan, GR, Miller, ST, Pegelow, CH, Iyer, RV, Johnstone, HS, DeBaun, MR, Wethers, DL, Woods, GM, Holbrook, CT, Becton, DL, Kinney, TR, Reaman, GH, Kalinyak, K, Grossman, NJ, Vichinsky, E, Reid, CD, and University of Groningen

Subjects

INFECTION, WALL POLYSACCHARIDE, STREPTOCOCCUS-PNEUMONIAE, STANDARDIZATION, OPSONIC ACTIVITY, INFLUENZAE TYPE-B, IMMUNIZATION, DISEASE, RADIOIMMUNOASSAY, SERUM

Abstract

Objectives: (1) To determine serotype-specific IgG antibody responses to reimmunization with pneumococcal polysaccharide vaccine at age 5 years ski children with sickle cell anemia and (2) to determine whether continued penicillin prophylaxis had any adverse effects on these responses. Study design: Children with sickle cell anemia, who had been treated with prophylactic penicillin for at least 2 years before their fifth birthday, were randomly selected at age 5 years to continue penicillin prophylaxis or to receive placebo treatment, These children had been immunized once or twice in early childhood with pneumococcal polysaccharide vaccine and were reimmunized at the time of randomization. Results: Serotype-specific IgG antibody responses to reimmunization varied according to pneumococcal serotype but in general were mediocre or poor; the poorest response was to serotype 6B. The antibody responses were similar in subjects with continued penicillin prophylaxis or placebo treatment, and in subjects who received one or two pneumococcal vaccinations before reimmunization. The occurrence of pneumococcal bacteremia was associated with low IgG antibody concentrations to the infecting serotype. Conclusions: Reimmunization of children with sickle cell anemia who received pneumococcal polysaccharide vaccine at age 5 years induces limited production of serotype-specific IgG antibodies, regardless of previous pneumococcal vaccine history, Continued penicillin prophylaxis does not interfere with serotype-specific IgG antibody responses to reimmunization.

Published

1996

4. A PHASE-I STUDY OF INTERLEUKIN-2 IN CHILDREN WITH CANCER

Author

ROPER, M, SMITH, MA, SONDEL, PM, GILLESPIE, A, REAMAN, GH, HAMMOND, GD, LEVITT, D, ROSOLEN, A, COLAMONICI, OR, NECKERS, LM, POPLACK, DG, and University of Groningen

Subjects

IMMUNOLOGICAL MODULATION, CELLULAR CYTO-TOXICITY, MINIMAL RESIDUAL DISEASE, TOXICITY GENERATED INVIVO, BONE-MARROW TRANSPLANTATION, HUMAN RECOMBINANT INTERLEUKIN-21, COLONY-STIMULATING FACTOR, ANTIGANGLIOSIDE GD2 ANTIBODY, HIGH-DOSE INTERLEUKIN-2, NEURO-BLASTOMA, PEDIATRIC PHASE-I TRIAL, ACTIVATED KILLER-CELLS, BIOLOGIC THERAPY, INTERLEUKIN-2

Abstract

Recombinant interleukin-2 (IL-2) produces clinical responses in approximately 20% of adult patients with renal cell carcinoma and melanoma, with both high-dose bolus and continuous infusion regimens. Because of the lower toxicity of continuous infusion, we elected to investigate in a Phase I trial a 5-day continuous infusion repeated for three weeks in children with malignancies refractory to standard therapy. Nineteen children with solid tumors and eight children with hematologic malignancies were entered into the study. The maximum tolerated dose was 3 x 10(6) U/m2/day, with dose-limiting toxicities occurring in five of seven patients treated at the 5 x 10(6) U/m2/day dose level. Dose-limiting toxicities included hypotension, hyperbilirubinemia, thrombocytopenia, pulmonary/pleural effusion, and nephrotoxicity. Serum IL-2 levels were detectable at the higher dose levels and were comparable to those observed in adult patients. Hematologic changes at the higher dose levels included rebound lymphocytosis occurring within 48 h of discontinuation of IL-2, eosinophilia, and decreased platelet counts. No objective responses to therapy were seen. We have identified a dose and schedule of administration for IL-2 in pediatric patients that can be given without intensive care unit support. Pediatric Phase II trials examining the anti-tumor activity of IL-2 given by this schedule are in progress.

Published

1992

5. Correlation of P-glycoprotein expression and function in childhood acute leukemia: a children's cancer group study

Author

Ivy, SP, primary, Olshefski, RS, additional, Taylor, BJ, additional, Patel, KM, additional, and Reaman, GH, additional

Published

1996

6. Molecular analysis of infant acute lymphoblastic leukemia: MLL gene rearrangement and reverse transcriptase-polymerase chain reaction for t(4; 11)(q21; q23)

Author

Hilden, JM, primary, Frestedt, JL, additional, Moore, RO, additional, Heerema, NA, additional, Arthur, DC, additional, Reaman, GH, additional, and Kersey, JH, additional

Published

1995

7. Cytogenetic features of infants less than 12 months of age at diagnosis of acute lymphoblastic leukemia: impact of the 11q23 breakpoint on outcome: a report of the Childrens Cancer Group

Author

Heerema, NA, primary, Arthur, DC, additional, Sather, H, additional, Albo, V, additional, Feusner, J, additional, Lange, BJ, additional, Steinherz, PG, additional, Zeltzer, P, additional, Hammond, D, additional, and Reaman, GH, additional

Published

1994

8. Extended-cycle elutriation to adjust T-cell content in HLA-disparate bone marrow transplantation

Author

Quinones, RR, primary, Gutierrez, RH, additional, Dinndorf, PA, additional, Gress, RE, additional, Ney, AB, additional, Taylor, B, additional, Karandish, S, additional, Carter, CS, additional, Luban, NL, additional, and Reaman, GH, additional

Published

1993

9. Molecular rearrangements on chromosome 11q23 predominate in infant acute lymphoblastic leukemia and are associated with specific biologic variables and poor outcome

Author

Chen, CS, primary, Sorensen, PH, additional, Domer, PH, additional, Reaman, GH, additional, Korsmeyer, SJ, additional, Heerema, NA, additional, Hammond, GD, additional, and Kersey, JH, additional

Published

1993

10. Involvement of the putative hematopoietic transcription factor SCL in T- cell acute lymphoblastic leukemia

Author

Aplan, PD, primary, Lombardi, DP, additional, Reaman, GH, additional, Sather, HN, additional, Hammond, GD, additional, and Kirsch, IR, additional

Published

1992

11. Phase I study of ch14.18 with granulocyte-macrophage colony-stimulating factor and interleukin-2 in children with neuroblastoma after autologous bone marrow transplantation or stem-cell rescue: a report from the Children's Oncology Group.

Author

Gilman AL, Ozkaynak MF, Matthay KK, Krailo M, Yu AL, Gan J, Sternberg A, Hank JA, Seeger R, Reaman GH, Sondel PM, Gilman, Andrew L, Ozkaynak, M Fevzi, Matthay, Katherine K, Krailo, Mark, Yu, Alice L, Gan, Jacek, Sternberg, Adam, Hank, Jacquelyn A, and Seeger, Robert

Published

2009

12. Clinical cancer advances 2007: major research advances in cancer treatment, prevention, and screening--a report from the American Society of Clinical Oncology.

Author

Gralow J, Ozols RF, Bajorin DF, Cheson BD, Sandler HM, Winer EP, Bonner J, Demetri GD, Curran W Jr, Ganz PA, Kramer BS, Kris MG, Markman M, Mayer RJ, Raghavan D, Ramsey S, Reaman GH, Sawaya R, Schuchter LM, and Sweetenham JW

Published

2008

13. A phase 2 trial of all-trans-retinoic acid in combination with interferon-alpha2a in children with recurrent neuroblastoma or Wilms tumor: A Pediatric Oncology Branch, NCI and Children's Oncology Group Study.

Author

Adamson PC, Matthay KK, O'Brien M, Reaman GH, Sato JK, Balis FM, Adamson, Peter C, Matthay, Katherine K, O'Brien, Michelle, Reaman, Gregory H, Sato, Judith K, and Balis, Frank M

Published

2007

14. Substitution of oral and intravenous thioguanine for mercaptopurine in a treatment regimen for children with standard risk acute lymphoblastic leukemia: a collaborative Children's Oncology Group/National Cancer Institute pilot trial (CCG-1942)

Author

Jacobs SS, Stork LC, Bostrom BC, Hutchinson R, Holcenberg J, Reaman GH, Erdmann G, Franklin J, Neglia JP, Steinberg SM, Balis FM, and Adamson PC

Published

2007

15. Parental alcohol consumption, cigarette smoking, and risk of infant leukemia: a Childrens Cancer Group study.

Author

Shu XO, Ross JA, Pendergrass TW, Reaman GH, Lampkin B, Robison LL, Shu, X O, Ross, J A, Pendergrass, T W, Reaman, G H, Lampkin, B, and Robison, L L

Abstract

Background: Whether parental drinking and smoking during pregnancy are associated with an increased risk of cancer in offspring is controversial. There are some indications that maternal alcohol consumption is associated with an elevated risk of acute myeloid leukemia (AML) appearing in very young children. Evidence for an association between maternal smoking during pregnancy and risk of leukemia in offspring has been inconsistent.Purpose: Using data from a Children's Cancer Group case-control study, we evaluated relationships between infant leukemia risk and parental alcohol consumption and/or cigarette smoking during pregnancy or during the month prior to it.Methods: Three hundred two leukemia cases (203 acute lymphoid leukemias [ALLs], 88 AMLs, and 11 other leukemia types) diagnosed in children at 18 months of age or younger and 558 individually matched, regional (i.e., same telephone area code and exchange number) controls were included in the analysis. Information concerning parental alcohol consumption and smoking behavior during the index pregnancy and during the month prior to it was collected by telephone interviews with the mothers of all case and control subjects and the fathers of 250 case and 361 control subjects. Odds ratios (ORs) were used to measure the risk of infant leukemia associated with parental smoking and drinking; tests for trend were used to assess dose-response relationships. The data were analyzed further after stratifying the leukemia cases according to histologic and morphologic types. Reported P values are from two-sided tests of statistical significance.Results: Maternal drinking during pregnancy (compared with not drinking) was associated with ORs of 1.43 (95%) confidence interval [CI] = 1.00-2.04) for ALL and 2.64 (95% CI = 1.36-5.06) for AML. A dose-response relationship was observed for total maternal alcohol consumption during pregnancy and risk of AML (P < .01). Alcohol-related risk appeared to be most pronounced for children who developed AML with a morphology of M1 (myeloblastic with minimal maturation) or M2 (myeloblastic with maturation (OR = 7.62; 95% CI = 2.03-28.64). Paternal alcohol consumption did not confer an increased risk of infant leukemia. Maternal smoking during pregnancy (compared with not smoking) was negatively associated with infant leukemia risk (OR = 0.66 and 95% CI = 0.46-0.94 for total leukemia; OR = 0.45 and 95% CI = 0.21-0.96 for AML), whereas paternal smoking 1 month prior to pregnancy (compared with not smoking during the same period) was related to an elevated risk of ALL (OR = 1.56; 95% CI = 1.03-2.36).Conclusions: Maternal alcohol consumption during pregnancy increases the risk of infant leukemia, especially AML. Maternal smoking, however, does not elevate risk for either AML or ALL.Implications: The data suggest that in utero exposure to alcohol may contribute to leukemogenesis involving myeloid cells. [ABSTRACT FROM AUTHOR]

Published

1996

16. How you can help meet the needs of dying children.

Author

Lewis L, Brecher M, Reaman GH, and Sahler OJ

Abstract

Medical care of a dying child is usually managed by a team of specialists. The primary care pediatrician's role is a supportive one, with emphasis on helping the entire family cope with this ordeal and its aftermath. [ABSTRACT FROM AUTHOR]

Published

2002

17. Prevention of hearing loss in children receiving cisplatin chemotherapy.

Author

Freyer DR, Sung L, and Reaman GH

Published

2009

18. Characterization of lymphoblast Fc receptor expression in acute lymphoblastic leukemia

Author

Reaman, GH, Pichler, WJ, Broder, S, and Poplack, DG

Abstract

Lymphoblasts from 18 patients with untreated acute lymphoblastic leukemia were investigated for the presence of conventional cell surface markers (spontaneous sheep red blood cell rosette formation, complement receptors, and surface immunoglobulin). The expression of Fc receptors for both IgG and IgM was investigated using indicator bovine erythrocytes coated with rabbit anti-BRBC (IgG and LgM fractions). The leukemic cells of all patients in this tudy expressed Fc receptors for both IgC and LgM. In contrast with previous reports, null (non-T non-B) lymphoblasts as well as T lymphoblasts demonstrated Fc-IgG and Fc-IgM receptors. However, these two immunologic subclasses of leukemic cells demonstrated significantly different patterns of Fc receptor distribution. These data suggest that expression of Fc receptors is an early event in cellular differentiation in this lymphoid malignancy.

Published

1979

19. Immunoglobulin and T cell receptor gene configuration in acute lymphoblastic leukemia of infancy

Author

Felix, CA, Reaman, GH, Korsmeyer, SJ, Hollis, GF, Dinndorf, PA, Wright, JJ, and Kirsch, IR

Abstract

We examined immunoglobulin (Ig) heavy chain, K light chain, and T cell receptor (TCR) gamma and beta gene configuration in the leukemic cells from a series of infants aged less than 1 year with acute lymphoblastic leukemia (ALL). Each of these 11 cases demonstrated leukemic cell surface antigens that have been correlated with a B cell precursor phenotype. Of the 11, lymphoblasts of 4 retained the germline configuration of both Ig and TCR loci, whereas 7 had rearranged the Ig heavy chain gene. Two of these seven showed light chain gene rearrangement. TCB beta chain rearrangement had occurred in only one of the 11 patients' tumors. No TCR gamma chain rearrangements were identified. These results are in contrast to earlier studies of B cell precursor ALL in children in which Ig heavy chain gene rearrangements were evident in every case and approximately 40% showed Ig light chain rearrangement as well. In addition, 45% of cases of B cell precursor ALL of children had rearranged their gamma TCR genes, and 20% had rearranged beta. These data suggest that ALL in infancy represents an earlier stage of B cell development than is found in B cell precursor ALL of children. ALL in the infant age group has been associated with the worst prognosis of all patients with ALL. This study suggests that the disease in infants differs not only clinically, but also at the molecular genetic level, from the disease in children.

Published

1987

20. Acute lymphoblastic leukemia in infants: evidence for B cell origin of disease by use of monoclonal antibody phenotyping

Author

Dinndorf, PA and Reaman, GH

Abstract

Since the prognosis of infants with acute lymphoblastic leukemia (ALL) is so poor, it has been suggested that these leukemias may not be lymphoid in origin, but may originate from stem cell, myeloid, or megakaryocytic progenitors. Alternately it has been hypothesized that these leukemias originate in lymphoid cells at the earliest stages of B cell development. Another possibility is that these leukemias may be of more than one lineage. Therefore we examined leukemic blasts from 12 infants with ALL using monoclonal antibodies to myeloid and lymphoid differentiation antigens. The majority of specimens expressed HLA/DR and reacted with B4 (CD19) but failed to react with stem cell, myeloid, megakaryocytic, or T cell associated antibodies. These results support the speculation that the majority of these leukemias arise in cells at the earliest stages of B cell commitment, and are not of a myeloid or biphenotypic nature.

Published

1986

21. Radiographic manifestations of Burkitt's lymphoma in American patients

Author

Dunnick, NR, primary, Reaman, GH, additional, Head, GL, additional, Shawker, TH, additional, and Ziegler, JL, additional

Published

1979

22. Purine nucleoside phosphorylase activity in acute lymphoblastic leukemia

Author

Blatt, J, primary, Reaman, GH, additional, Levin, N, additional, and Poplack, DG, additional

Published

1980

23. Lymphoblast purine pathway enzymes in B-cell acute lymphoblastic leukemia

Author

Reaman, GH, primary, Blatt, J, additional, and Poplack, DG, additional

Published

1981

24. What price cure?

Author

Billett AL, Reaman GH, Billett, Amy Louise, and Reaman, Gregory H

Published

2011

25. Osteosarcoma: the same old drugs or more?

Author

Bielack SS, Marina N, Ferrari S, Helman LJ, Smeland S, Whelan JS, and Reaman GH

Published

2008

26. What, why, and when we image: considerations for diagnostic imaging and clinical research in the Children's Oncology Group.

Author

Reaman GH and Reaman, Gregory H

Abstract

Success in improving treatment outcomes in childhood cancer has been achieved almost exclusively through multicenter and multidisciplinary clinical and applied research over several decades. While biologically rational as well as empirical approaches have led to combination chemotherapy and multimodality approaches to therapy, which have given rise to evidence-based practice standards, similar scientific rigor has not always been as evidently applied to modalities utilized to assess initial disease burden and, more important, response to investigational approaches to therapy. As the empirical approach to therapeutic advances has likely maximized its benefit, future progress will require translation of biologic discovery most notably from the areas of genomics and proteomics. Hence, attempts to improve efficacy of therapy will require a parallel effort to minimize collateral damage of future therapeutic approaches, and such a parallel approach will mandate the continued dependence on advances in diagnostic imaging for improvements in staging methodologies to best define risk groups for risk-adjusted therapy. In addition, anatomic and functional assessment of response and surveillance for disease recurrence will require improved understanding of the biology as well as natural history of individual diseases, which one hopes will better inform investigators in designing trials. Clinical and research expertise is urgently needed in the selection of specific imaging studies and frequencies that best assess a response as well as to define disease-free intervals. Despite limited resources to develop sufficient infrastructure, emphasis on enabling early assessment of new technology to minimize risks associated with treatment advances and with those critical diagnostic and staging procedures must continue to be a focus of pediatric cancer clinical research. [ABSTRACT FROM AUTHOR]

Published

2009

27. Classification and Treatment of Acute Lymphoblastic Leukemia

Author

Elizabeth A. Raetz, Stephen P. Hunger, Guenter Henze, Maria Grazia Valsecchi, Valentino Conter, Reaman, GH, Smith, FO, Hunger, S, Conter, V, Raetz, E, Valsecchi, M, and Henze, G

Subjects

End results, Pediatrics, medicine.medical_specialty, business.industry, Lymphoblastic Leukemia, Incidence (epidemiology), medicine.medical_treatment, Cancer, Hematopoietic stem cell transplantation, medicine.disease, Acute Lymphoblastic Leukemia, Minimal residual disease, Pediatric malignancy, Epidemiology, medicine, business

Abstract

Acute lymphoblastic leukemia (ALL) is the most common pediatric malignancy and accounts for 25% of cancers that occur before 15 years of age and 19% among persons less than 20 years of age (Ries et al. 1999). Based on the most recent estimates from the Surveillance, Epidemiology and End Results (SEER) Program of the National Cancer Institute (NCI), there are about 3,000 cases of ALL diagnosed in the United States each year among persons less than 20 years of age. The incidence peaks at 80–90 cases/million at 2–3 years of age, begins to drop abruptly at age 5–6 years reaching a rate of about 20 cases/million at 8–11 years of age, and then gradually decreases to an annual rate of about 10 cases/million by 20 years of age.

Published

2011

28. Pediatric Cancer Drug Development: Leveraging Insights in Cancer Biology and the Evolving Regulatory Landscape to Address Challenges and Guide Further Progress.

Author

Charlab R, Leong R, Shord SS, and Reaman GH

Subjects

Child, Humans, Biology, Drug Development, Medical Oncology, Clinical Trials as Topic, Antineoplastic Agents therapeutic use, Neoplasms drug therapy, Neoplasms genetics

Abstract

The discovery and development of anticancer drugs for pediatric patients have historically languished when compared to both past and recent activity in drug development for adult patients, notably the dramatic spike of targeted and immune-oncology therapies. The reasons for this difference are multifactorial. Recent changes in the regulatory landscape surrounding pediatric cancer drug development and the understanding that some pediatric cancers are driven by genetic perturbations that also drive disparate adult cancers afford new opportunities. The unique cancer-initiating events and dependencies of many pediatric cancers, however, require additional pediatric-specific strategies. Research efforts to unravel the underlying biology of pediatric cancers, innovative clinical trial designs, model-informed drug development, extrapolation from adult data, addressing the unique considerations in pediatric patients, and use of pediatric appropriate formulations, should all be considered for efficient development and dosage optimization of anticancer drugs for pediatric patients., (Published by Cold Spring Harbor Laboratory Press.)

Published

2024

29. Review of Racial and Ethnic Representation of Participants Enrolled in Pediatric Clinical Trials of Oncology Drugs Conducted Through FDA Written Requests.

Author

Fashoyin-Aje LA, Akalu AY, Boehmer J, Pazdur R, Donoghue M, and Reaman GH

Subjects

Child, Female, Humans, Male, Hispanic or Latino, Minority Groups, United States, United States Food and Drug Administration, Clinical Trials as Topic, Ethnicity, Neoplasms drug therapy

Abstract

Importance: The Best Pharmaceuticals for Children Act states that in issuing a written request (WR), the US Food and Drug Administration (FDA) shall consider the adequate representation (eg, proportionate to the disease population) of children from racial and ethnic minority populations. If the terms of the WR are fulfilled, the FDA may grant an additional 6 months of exclusivity for any unexpired patents and exclusivities attached to approved indications., Objective: To report on the race and ethnicity of participants enrolled in pediatric studies conducted in response to WRs for which pediatric exclusivity was granted between 2001 and 2021., Design, Setting, and Participants: This retrospective review examines pediatric exclusivity request submissions for oncologic drugs that received pediatric exclusivity between December 2001 and January 2021 based on fulfillment of the requirements of a WR that were identified using the FDA's Document Archiving Reporting and Regulatory Tracking System. Demographic data were manually abstracted from supporting study reports, and data were pooled across submissions for the analysis. Data were analyzed throughout 2022 and 2023., Main Outcomes and Measures: Representation by race, sex, and ethnicity in pediatric studies conducted in response to WRs., Results: A total of 22 pediatric exclusivity requests were identified, comprising 40 studies and 2025 patients. Most trials (26 [65%]) in the analysis were cooperative group studies. Representation by race was as follows: American Indian/Alaska Native (13 [0.6%]), African American/Black (228 [11.3%]), Asian (92 [4.6%]), Native Hawaiian/other Pacific Islander (33 [1.6%]), White (1303 [64.3%]), other (194 [9.6%]), and unknown/not reported (162 [8.0%]). Representation by sex was female individuals (41.2%) and male individuals (58.8%). Ethnicity was as follows: Hispanic (226 [5.7%]), non-Hispanic (910 [22.5%]), unknown/not reported ethnicity (2800 [69.1%]), and other ethnicity (114 [2.8%])., Conclusions and Relevance: The study results suggest that overall, representation of participants of racial and ethnic minority groups in studies supporting pediatric exclusivity requests appear comparable with the racial distribution of childhood cancers in the US based on data from the National Childhood Cancer Registry Explorer. However, fewer Hispanic participants were enrolled in the trials we reviewed (8%) compared with the representation of Hispanic patients in the National Childhood Cancer Registry (28%). This discrepancy may be partially explained by the large proportion of participants with unknown information regarding ethnicity. Further research into the reasons for the large proportion of participants with missing ethnicity information is needed.

Published

2024

30. Childhood cancer data initiative: Status report.

Author

Jagu S, Mardis ER, Wedekind MF, Widemann BC, Kingery RK, Gonzalez SL, Shern JF, and Reaman GH

Subjects

Humans, Child, Ecosystem, Medical Oncology, Neoplasms therapy

Abstract

In March 2023, over 800 researchers, clinicians, patients, survivors, and advocates from the pediatric oncology community met to discuss the progress of the National Cancer Institute's Childhood Cancer Data Initiative. We present here the status of the initiative's efforts in building its data ecosystem and updates on key programs, especially the Molecular Characterization Initiative and the planned Coordinated National Initiative for Rare Cancers in Children and Young Adults. These activities aim to improve access to childhood cancer data, foster collaborations, facilitate integrative data analysis, and expand access to molecular characterization, ultimately leading to the development of innovative therapeutic approaches., (© 2023 Wiley Periodicals LLC. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published

2024

31. KMT2A partner genes in infant acute lymphoblastic leukemia have prognostic significance and correlate with age, white blood cell count, sex, and central nervous system involvement: a Children's Oncology Group P9407 trial study.

Author

Robinson BW, Kairalla JA, Devidas M, Carroll AJ, Harvey RC, Heerema NA, Willman CL, Ball AR, Woods EC, Ballantyne NC, Urtishak KA, Behm FG, Reaman GH, Hilden JM, Camitta BM, Winick NJ, Pullen J, Carroll WL, Hunger SP, Dreyer ZE, and Felix CA

Subjects

Humans, Infant, Child, Prognosis, Myeloid-Lymphoid Leukemia Protein genetics, Leukocyte Count, Central Nervous System, Precursor Cell Lymphoblastic Leukemia-Lymphoma diagnosis, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics

Published

2023

32. The Childhood Cancer Data Initiative: Using the Power of Data to Learn From and Improve Outcomes for Every Child and Young Adult With Pediatric Cancer.

Author

Flores-Toro JA, Jagu S, Armstrong GT, Arons DF, Aune GJ, Chanock SJ, Hawkins DS, Heath A, Helman LJ, Janeway KA, Levine JE, Miller E, Penberthy L, Roberts CWM, Shalley ER, Shern JF, Smith MA, Staudt LM, Volchenboum SL, Zhang J, Zenklusen JC, Lowy DR, Sharpless NE, Guidry Auvil JM, Kerlavage AR, Widemann BC, Reaman GH, Kibbe WA, and Doroshow JH

Subjects

Adolescent, United States epidemiology, Humans, Child, Young Adult, Ecosystem, Data Collection, National Cancer Institute (U.S.), Neoplasms therapy

Abstract

Data-driven basic, translational, and clinical research has resulted in improved outcomes for children, adolescents, and young adults (AYAs) with pediatric cancers. However, challenges in sharing data between institutions, particularly in research, prevent addressing substantial unmet needs in children and AYA patients diagnosed with certain pediatric cancers. Systematically collecting and sharing data from every child and AYA can enable greater understanding of pediatric cancers, improve survivorship, and accelerate development of new and more effective therapies. To accomplish this goal, the Childhood Cancer Data Initiative (CCDI) was launched in 2019 at the National Cancer Institute. CCDI is a collaborative community endeavor supported by a 10-year, $50-million (in US dollars) annual federal investment. CCDI aims to learn from every patient diagnosed with a pediatric cancer by designing and building a data ecosystem that facilitates data collection, sharing, and analysis for researchers, clinicians, and patients across the cancer community. For example, CCDI's Molecular Characterization Initiative provides comprehensive clinical molecular characterization for children and AYAs with newly diagnosed cancers. Through these efforts, the CCDI strives to provide clinical benefit to patients and improvements in diagnosis and care through data-focused research support and to build expandable, sustainable data resources and workflows to advance research well past the planned 10 years of the initiative. Importantly, if CCDI demonstrates the success of this model for pediatric cancers, similar approaches can be applied to adults, transforming both clinical research and treatment to improve outcomes for all patients with cancer.

Published

2023

33. Clinical trials for paediatric cancers under new legislation in the USA.

Author

Hwang TJ, Reaman GH, and Bourgeois FT

Subjects

Child, Humans, United States, European Union, Legislation, Drug, Neoplasms therapy

Abstract

Competing Interests: We declare no competing interests.

Published

2023

34. Fine-Tuning the Relevance of Molecular Targets to Pediatric Cancer: Addressing Additional Layers of Complexity.

Author

Charlab R, Burckart GJ, and Reaman GH

Subjects

Child, Humans, Mutation, Neoplasms drug therapy, Neoplasms genetics

Abstract

The Research to Accelerate Cures and Equity (RACE) for Children Act requires an assessment of molecular targets relevant to pediatric cancer. Due to the biological complexity, candidate molecular targets have been primarily evaluated based on single features such as the presence of mutations or deregulated expression. As the understanding of tumor biology evolves, the relevance of certain molecular targets may need to be assessed at isoform and/or mutation variant level to optimize tailored therapeutic interventions., (Published 2022. This article is a U.S. Government work and is in the public domain in the USA.)

Published

2023

35. Rare FGFR Oncogenic Alterations in Sequenced Pediatric Solid and Brain Tumors Suggest FGFR Is a Relevant Molecular Target in Childhood Cancer.

Author

Lazo De La Vega L, Comeau H, Sallan S, Al-Ibraheemi A, Gupta H, Li YY, Tsai HK, Kang W, Ward A, Church AJ, Kim A, Pinto NR, Macy ME, Maese LD, Sabnis AJ, Cherniack AD, Lindeman NI, Anderson ME, Cooney TM, Yeo KK, Reaman GH, DuBois SG, Collins NB, Johnson BE, Janeway KA, and Forrest SJ

Subjects

Child, Humans, Base Sequence, Carcinogenesis, Microtubule-Associated Proteins, Oncogenes, Protein Kinase Inhibitors, Brain Neoplasms genetics, Glioma

Abstract

Purpose: Multiple FGFR inhibitors are currently in clinical trials enrolling adults with different solid tumors, while very few enroll pediatric patients. We determined the types and frequency of FGFR alterations ( FGFR1-4 ) in pediatric cancers to inform future clinical trial design., Methods: Tumors with FGFR alterations were identified from two large cohorts of pediatric solid tumors subjected to targeted DNA sequencing: The Dana-Farber/Boston Children's Profile Study (n = 888) and the multi-institution GAIN/iCAT2 (Genomic Assessment Improves Novel Therapy) Study (n = 571). Data from the combined patient population of 1,395 cases (64 patients were enrolled in both studies) were reviewed and cases in which an FGFR alteration was identified by OncoPanel sequencing were further assessed., Results: We identified 41 patients with tumors harboring an oncogenic FGFR alteration. Median age at diagnosis was 8 years (range, 6 months-26 years). Diagnoses included 11 rhabdomyosarcomas, nine low-grade gliomas, and 17 other tumor types. Alterations included gain-of-function sequence variants (n = 19), amplifications (n = 10), oncogenic fusions ( FGFR3 :: TACC3 [n = 3], FGFR1 :: TACC1 [n = 1], FGFR1 :: EBF2 [n = 1], FGFR1 :: CLIP2 [n = 1], and FGFR2 :: CTNNA3 [n = 1]), pathogenic-leaning variants of uncertain significance (n = 4), and amplification in combination with a pathogenic-leaning variant of uncertain significance (n = 1). Two novel FGFR1 fusions in two different patients were identified in this cohort, one of whom showed a response to an FGFR inhibitor., Conclusion: In summary, activating FGFR alterations were found in approximately 3% (41/1,395) of pediatric solid tumors, identifying a population of children with cancer who may be eligible and good candidates for trials evaluating FGFR-targeted therapy. Importantly, the genomic and clinical data from this study can help inform drug development in accordance with the Research to Accelerate Cures and Equity for Children Act.

Published

2022

36. Patient-Reported Outcomes in Pediatric Cancer Registration Trials: A US Food and Drug Administration Perspective.

Author

Murugappan MN, King-Kallimanis BL, Reaman GH, Bhatnagar V, Horodniceanu EG, Bouchkouj N, and Kluetz PG

Subjects

Child, Clinical Trials, Phase I as Topic, Clinical Trials, Phase II as Topic, Humans, Patient Reported Outcome Measures, Prospective Studies, United States epidemiology, United States Food and Drug Administration, Antineoplastic Agents adverse effects, Neoplasms epidemiology

Abstract

Pediatric patient-reported outcome (PRO) data can help inform the US Food and Drug Administration's (FDA's) benefit-risk assessment of cancer therapeutics by quantifying symptom and functional outcomes from the patient's perspective., This study assessed use of PROs in commercial pediatric oncology trials submitted to the FDA for regulatory review. FDA databases were searched to identify pediatric oncology product applications approved between 1997 and 2020. Sponsor-submitted documents were reviewed to determine whether PRO data were collected, which instruments were used, and the quality of collected data (ie, sample size, completion rates, and use of fit-for-purpose instruments). The role of PROs in each trial (endpoint hierarchy) was also recorded in addition to whether any PRO endpoints were included in product labeling., We reviewed 17 pediatric oncology applications, 4 of which included PRO data: denosumab, tisagenlecleucel, larotrectinib, and selumetinib. In these 4 instances, PROs served as exploratory endpoints and were not incorporated in product labeling. Trials that collected PRO data were phase II or phase I/II single-arm studies with sample sizes of 28 to 88 patients. Symptomatic adverse events (AEs) were characterized using clinician-reported Common Terminology Criteria for Adverse Events (CTCAE) without additional patient self-report., PROs were infrequently used in pediatric cancer registration trials. When PROs were used, PRO data were limited by lack of a clear research objective and corresponding prospective statistical analysis plan. Contemporary PRO symptom libraries, such as the National Cancer Institute's Pediatric PRO-CTCAE, may provide an opportunity to better evaluate the occurrence and impact of symptomatic AEs, from the patient's perspective, in pediatric oncology trials., (Published by Oxford University Press 2021. This work is written by US Government employees and is in the public domain in the US.)

Published

2022

37. The FDA Oncology Center of Excellence Scientific Collaborative: Charting a Course for Applied Regulatory Science Research in Oncology.

Author

Schneider JA, Gong Y, Goldberg KB, Kluetz PG, Theoret MR, Amiri-Kordestani L, Beaver JA, Fashoyin-Aje L, Gormley NJ, Jaigirdar AA, Lemery SJ, Mishra-Kalyani PS, Reaman GH, Rivera DR, Rubinstein WS, Singh H, Sridhara R, and Pazdur R

Subjects

Humans, Medical Oncology, Research Report

Abstract

The FDA Oncology Center of Excellence (OCE) is a leader within the agency in scientific outreach activities and regulatory science research. On the basis of analysis of scientific workshops, internal meetings, and publications, the OCE identified nine scientific priority areas and one cross-cutting area of high interest for collaboration with external researchers. This article describes the process for identifying these scientific interest areas and highlights funded and unfunded opportunities for external researchers to work with FDA staff on critical regulatory science challenges., (©2021 American Association for Cancer Research.)

Published

2021

38. FDA Approval Summary: Selumetinib for Plexiform Neurofibroma.

Author

Casey D, Demko S, Sinha A, Mishra-Kalyani PS, Shen YL, Khasar S, Goheer MA, Helms WS, Pan L, Xu Y, Fan J, Leong R, Liu J, Yang Y, Windsor K, Ou M, Stephens O, Oh B, Reaman GH, Nair A, Shord SS, Bhatnagar V, Daniels SR, Sickafuse S, Goldberg KB, Theoret MR, Pazdur R, and Singh H

Subjects

Adolescent, Child, Child, Preschool, Female, Humans, Male, United States, Benzimidazoles therapeutic use, Drug Approval, Neurofibroma, Plexiform drug therapy

Abstract

On April 10, 2020, the FDA approved selumetinib (KOSELUGO, AstraZeneca) for the treatment of pediatric patients 2 years of age and older with neurofibromatosis type 1 who have symptomatic, inoperable plexiform neurofibromas. Approval was based on demonstration of a durable overall response rate per Response Evaluation in Neurofibromatosis and Schwannomatosis criteria and supported by observed clinical improvements in plexiform neurofibroma-related symptoms and functional impairments in 50 pediatric patients with inoperable plexiform neurofibromas in a single-arm, multicenter trial. The overall reponse rate per NCI investigator assessment was 66% (95% confidence interval, 51-79) with at least 12 months of follow-up. The median duration of response was not reached, and 82% of responding patients experienced duration of response ≥12 months. Clinical outcome assessment endpoints provided supportive efficacy data. Risks of selumetinib are consistent with MAPK (MEK) inhibitor class effects, including ocular, cardiac, musculoskeletal, gastrointestinal, and dermatologic toxicities. Safety was assessed across a pooled database of 74 pediatric patients with plexiform neurofibromas and supported by adult and pediatric selumetinib clinical trial data in cancer indications. The benefit-risk assessment for selumetinib in patients with inoperable plexiform neurofibromas was considered favorable., (©2021 American Association for Cancer Research.)

Published

2021

39. A review of the experience with pediatric written requests issued for oncology drug products.

Author

Akalu AY, Meng X, Reaman GH, Ma L, Yuan W, and Ye J

Subjects

Child, Clinical Trials as Topic statistics & numerical data, Humans, United States, United States Food and Drug Administration, Antineoplastic Agents therapeutic use, Drug Approval legislation & jurisprudence, Drug Evaluation methods, Neoplasms drug therapy

Abstract

Background: Pediatric anticancer drug development has numerous challenges. The Pediatric Research Equity Act (PREA) and the Best Pharmaceuticals for Children Act (BPCA) were passed to address pediatric drug development deficiencies in general. Until recently, the requirements for pediatric evaluation of most oncology products developed for adult cancers have been waived. Because children typically do not have the same type of cancers, which occur commonly in adults, or the indication or drug had been granted an orphan designation, PREA therefore has had no impact. Pediatric studies for labeling updates are largely done through BPCA by a written request (WR) issued by the Food and Drug Administration (FDA). Because the cancers that occur in pediatric and adult populations do not share the same etiology or natural history, there are limited opportunities to extrapolate adult efficacy and safety to the pediatric population. The characteristics of individual pediatric studies included in WRs have varied greatly over time., Procedure: In this study, we searched WRs that were issued by the FDA since 2001. We found 40 such requests issued for oncology drugs and biologics, which had been accepted by sponsors., Results: Clinical trials included in 23 of the WRs have been concluded, 19 have resulted in exclusivity, and three drugs that were studied have been approved for use in pediatric populations. Herein, we present the spectrum of WRs from a regulatory, study design, dosing, formulation, analysis plan, evidentiary standard of efficacy, and safety perspective., Conclusions: This provides information on requests issued in the past nearly 20 years and studies that are completed. As WRs have provided the only regulatory mechanism to assure pediatric cancer drug development, this can potentially provide insight on how pediatric cancer drug development may change in the future., (© 2020 Wiley Periodicals LLC.)

Published

2021

40. Fusion Oncoproteins in Childhood Cancers: Potential Role in Targeted Therapy.

Author

Angione SDA, Akalu AY, Gartrell J, Fletcher EP, Burckart GJ, Reaman GH, Leong R, and Stewart CF

Abstract

Cancer remains the leading cause of death from disease in children. Historically, in contrast to their adult counterparts, the causes of pediatric malignancies have remained largely unknown, with most pediatric cancers displaying low mutational burdens. Research related to molecular genetics in pediatric cancers is advancing our understanding of potential drivers of tumorigenesis and opening new opportunities for targeted therapies. One such area is fusion oncoproteins, which are a product of chromosomal rearrangements resulting in the fusion of different genes. They have been identified as oncogenic drivers in several sarcomas and leukemias. Continued advancement in the understanding of the biology of fusion oncoproteins will contribute to the discovery and development of new therapies for childhood cancers. Here we review the current scientific knowledge on fusion oncoproteins, focusing on pediatric sarcomas and hematologic cancers, and highlight the challenges and current efforts in developing drugs to target fusion oncoproteins., Competing Interests: Disclosures. The author(s) declare no conflicts or financial interest in any product or service mentioned in the manuscript, including grants, equipment, medications, employment, gifts, and honoraria., (Copyright. Pediatric Pharmacy Association. All rights reserved. For permissions, email: mhelms@pediatricpharmacy.org 2021.)

Published

2021

41. Novel Therapeutic Interventions Early in the Disease Trajectory: Drug Development Beyond the Refractory Setting.

Author

Hafez N, Rugo HS, Tempero MA, Fox E, Reaman GH, Lyerly HK, Walker D, and LoRusso PM

Subjects

Antineoplastic Combined Chemotherapy Protocols pharmacology, Chemotherapy, Adjuvant methods, Drug Resistance, Neoplasm genetics, Humans, Molecular Targeted Therapy methods, Neoadjuvant Therapy methods, Neoplasm Staging, Neoplasms diagnosis, Neoplasms genetics, Neoplasms mortality, Progression-Free Survival, Randomized Controlled Trials as Topic, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Biomarkers, Tumor genetics, Drug Development methods, Neoplasms therapy, Precision Medicine methods

Abstract

The 2019 Accelerating Anticancer Agent Development Workshop assembled a panel of experts for an in-depth discussion session to present "novel therapeutic interventions early in the disease trajectory." The panel reviewed the limitations of evaluating investigational cancer therapeutics solely in advanced metastatic and relapsed/refractory disease settings, and recommended strategies for drug evaluation earlier in the disease course, including in the first line in combination with standard chemotherapy, and in the maintenance and neoadjuvant disease settings. Advantages of earlier drug evaluation were discussed, including expanding the population of evaluable patients, earlier response assessment via surrogate endpoints, earlier clinical benefit in the disease course, tailoring of therapies based on response, and furthering our understanding of biomarker-driven therapies., (©2020 American Association for Cancer Research.)

Published

2020

42. The RACE to Develop New Targeted Therapies for Children With CNS Tumors.

Author

Fletcher EP, Burckart GJ, Robinson GW, Reaman GH, and Stewart CF

Subjects

Adolescent, Age Factors, Antineoplastic Agents adverse effects, Biomarkers, Tumor genetics, Biomarkers, Tumor metabolism, Central Nervous System Neoplasms genetics, Central Nervous System Neoplasms metabolism, Child, Child, Preschool, Drug Approval, Humans, Molecular Diagnostic Techniques, Molecular Targeted Therapy, Precision Medicine, Prognosis, United States, United States Food and Drug Administration, Antineoplastic Agents therapeutic use, Central Nervous System Neoplasms drug therapy

Published

2020

43. Plasma asparaginase activity and asparagine depletion in acute lymphoblastic leukemia patients treated with pegaspargase on Children's Oncology Group AALL07P4 .

Author

Schore RJ, Devidas M, Bleyer A, Reaman GH, Winick N, Loh ML, Raetz EA, Carroll WL, Hunger SP, and Angiolillo AL

Subjects

Adolescent, Adult, Antineoplastic Agents pharmacokinetics, Asparaginase therapeutic use, Asparagine deficiency, Child, Child, Preschool, Female, Follow-Up Studies, Humans, Infant, Male, Precursor Cell Lymphoblastic Leukemia-Lymphoma blood, Precursor Cell Lymphoblastic Leukemia-Lymphoma cerebrospinal fluid, Precursor Cell Lymphoblastic Leukemia-Lymphoma pathology, Prognosis, Tissue Distribution, Young Adult, Antineoplastic Agents therapeutic use, Asparaginase blood, Asparagine cerebrospinal fluid, Biomarkers, Tumor analysis, Polyethylene Glycols therapeutic use, Precursor Cell Lymphoblastic Leukemia-Lymphoma drug therapy

Abstract

The efficacy of asparaginase in acute lymphoblastic leukemia (ALL) is dependent on depletion of asparagine, an essential amino acid for ALL cells. The target level of plasma asparaginase activity to achieve asparagine depletion has been between 0.05 and 0.4 IU/mL. COG AALL07P4 examined the asparaginase activity and plasma and CSF asparagine concentration of pegaspargase when given intravenously in the treatment of NCI high risk ALL. Matched plasma asparaginase/asparagine levels of the clearance of 54 doses of pegaspargase given in induction or consolidation demonstrated that all patients who had a plasma asparaginase level >0.02 IU/mL had undetectable plasma asparagine. No difference was observed in CSF asparagine levels associated with matched plasma asparaginase levels of 0.02-0.049 versus 0.05-0.22 IU/mL ( p  = .25). Our data suggest that a plasma asparaginase activity level of 0.02 IU/mL can effectively deplete plasma asparagine. The data also indicate that the 95% CI for plasma asparagine depletion after a pegaspargase dose is 22-29 days. Clinical trial registration: clinicaltrials.gov identifier NCT00671034.

Published

2019

44. Challenges with Novel Clinical Trial Designs: Master Protocols.

Author

Cecchini M, Rubin EH, Blumenthal GM, Ayalew K, Burris HA, Russell-Einhorn M, Dillon H, Lyerly HK, Reaman GH, Boerner S, and LoRusso PM

Subjects

Humans, Antineoplastic Protocols, Clinical Trials as Topic, Research Design

Abstract

The 2018 Accelerating Anticancer Agent Development (AAADV) Workshop assembled a panel of experts for an in-depth discussion session to present "Challenges with Novel Clinical Trial Designs." This panel offered assessments of the challenges faced by industry, the FDA, investigators, institutional review boards, and patients. The panel focused on master protocols, which include umbrella trials, platform trials, and basket trials. Umbrella trials and platform trials share many commonalities, whereas basket trials are more distinct. Umbrella and platform trials are generally designed with multiple arms where patients of the same histology or other unifying characteristics are enrolled into different arms and multiple investigational agents are evaluated in a single protocol. In contrast, basket studies generally enroll patients with different tumor types based on the presence of a specific mutation or biomarker regardless of histology; these trials may include expansion cohorts. These novel designs offer the promise of expedited drug assessment and approval, but they also place new challenges on all the stakeholders involved in the drug development process. Only by identifying the challenges of these complex, innovative clinical trial designs and highlighting challenges from each perspective can we begin to address these challenges. The 2018 AAADV Workshop convened a panel of experts from relevant disciplines to highlight the challenges that are created by master protocols, and, where appropriate, offer strategies to address these challenges., (©2019 American Association for Cancer Research.)

Published

2019

45. The Role of Minimal Residual Disease Testing in Myeloma Treatment Selection and Drug Development: Current Value and Future Applications.

Author

Anderson KC, Auclair D, Kelloff GJ, Sigman CC, Avet-Loiseau H, Farrell AT, Gormley NJ, Kumar SK, Landgren O, Munshi NC, Cavo M, Davies FE, Di Bacco A, Dickey JS, Gutman SI, Higley HR, Hussein MA, Jessup JM, Kirsch IR, Little RF, Loberg RD, Lohr JG, Mukundan L, Omel JL, Pugh TJ, Reaman GH, Robbins MD, Sasser AK, Valente N, and Zamagni E

Subjects

Biomarkers, Tumor genetics, Bone Marrow drug effects, Bone Marrow pathology, Disease-Free Survival, High-Throughput Nucleotide Sequencing methods, Humans, Multiple Myeloma complications, Multiple Myeloma genetics, Neoplasm, Residual chemically induced, Neoplasm, Residual genetics, Patient Selection, Prognosis, Circulating Tumor DNA blood, Multiple Myeloma blood, Multiple Myeloma drug therapy, Neoplasm, Residual blood

Abstract

Treatment of myeloma has benefited from the introduction of more effective and better tolerated agents, improvements in supportive care, better understanding of disease biology, revision of diagnostic criteria, and new sensitive and specific tools for disease prognostication and management. Assessment of minimal residual disease (MRD) in response to therapy is one of these tools, as longer progression-free survival (PFS) is seen consistently among patients who have achieved MRD negativity. Current therapies lead to unprecedented frequency and depth of response, and next-generation flow and sequencing methods to measure MRD in bone marrow are in use and being developed with sensitivities in the range of 10 -5 to 10 -6 cells. These technologies may be combined with functional imaging to detect MRD outside of bone marrow. Moreover, immune profiling methods are being developed to better understand the immune environment in myeloma and response to immunomodulatory agents while methods for molecular profiling of myeloma cells and circulating DNA in blood are also emerging. With the continued development and standardization of these methodologies, MRD has high potential for use in gaining new drug approvals in myeloma. The FDA has outlined two pathways by which MRD could be qualified as a surrogate endpoint for clinical studies directed at obtaining accelerated approval for new myeloma drugs. Most importantly, better understanding of MRD should also contribute to better treatment monitoring. Potentially, MRD status could be used as a prognostic factor for making treatment decisions and for informing timing of therapeutic interventions. Clin Cancer Res; 23(15); 3980-93. ©2017 AACR ., (©2017 American Association for Cancer Research.)

Published

2017

46. Association of Minimal Residual Disease With Clinical Outcome in Pediatric and Adult Acute Lymphoblastic Leukemia: A Meta-analysis.

Author

Berry DA, Zhou S, Higley H, Mukundan L, Fu S, Reaman GH, Wood BL, Kelloff GJ, Jessup JM, and Radich JP

Subjects

Adult, Child, Humans, Precursor Cell Lymphoblastic Leukemia-Lymphoma therapy, Prognosis, Survival Analysis, Treatment Outcome, Neoplasm, Residual pathology, Precursor Cell Lymphoblastic Leukemia-Lymphoma pathology

Abstract

Importance: Minimal residual disease (MRD) refers to the presence of disease in cases deemed to be in complete remission by conventional pathologic analysis. Assessing the association of MRD status following induction therapy in patients with acute lymphoblastic leukemia (ALL) with relapse and mortality may improve the efficiency of clinical trials and accelerate drug development., Objective: To quantify the relationships between event-free survival (EFS) and overall survival (OS) with MRD status in pediatric and adult ALL using publications of clinical trials and other databases., Data Sources: Clinical studies in ALL identified via searches of PubMed, MEDLINE, and clinicaltrials.gov., Study Selection: Our search and study screening process adhered to the PRISMA Guidelines. Studies that addressed EFS or OS by MRD status in patients with ALL were included; reviews, abstracts, and studies with fewer than 30 patients or insufficient MRD description were excluded., Data Extraction and Synthesis: Study sample size, patient age, follow-up time, timing of MRD assessment (postinduction or consolidation), MRD detection method, phenotype/genotype (B cell, T cell, Philadelphia chromosome), and EFS and OS. Searches of PubMed and MEDLINE identified 566 articles. A parallel search on clinicaltrials.gov found 67 closed trials and 62 open trials as of 2014. Merging results of 2 independent searches and applying exclusions gave 39 publications in 3 arms of patient populations (adult, pediatric, and mixed). We performed separate meta-analyses for each of these 3 subpopulations., Results: The 39 publications comprised 13 637 patients: 16 adult studies (2076 patients), 20 pediatric (11 249 patients), and 3 mixed (312 patients). The EFS hazard ratio (HR) for achieving MRD negativity is 0.23 (95% Bayesian credible interval [BCI] 0.18-0.28) for pediatric patients and 0.28 (95% BCI, 0.24-0.33) for adults. The respective HRs in OS are 0.28 (95% BCI, 0.19-0.41) and 0.28 (95% BCI, 0.20-0.39). The effect was similar across all subgroups and covariates., Conclusions and Relevance: The value of having achieved MRD negativity is substantial in both pediatric and adult patients with ALL. These results are consistent across therapies, methods of and times of MRD assessment, cutoff levels, and disease subtypes. Minimal residual disease status warrants consideration as an early measure of disease response for evaluating new therapies, improving the efficiency of clinical trials, accelerating drug development, and for regulatory approval. A caveat is that an accelerated approval of a particular new drug using an intermediate end point, such as MRD, would require confirmation using traditional efficacy end points.

Published

2017

47. Enrolling Adolescents in Disease/Target-Appropriate Adult Oncology Clinical Trials of Investigational Agents.

Author

Chuk MK, Mulugeta Y, Roth-Cline M, Mehrotra N, and Reaman GH

Subjects

Adolescent, Adult, Age Factors, Humans, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Clinical Trials as Topic ethics, Clinical Trials as Topic standards, Drugs, Investigational pharmacology, Drugs, Investigational therapeutic use, Patient Selection ethics

Abstract

The enrollment of adolescents with cancer in clinical trials is much lower than that of younger pediatric patients. For adolescents with "adult-type" cancers, lack of access to relevant trials is cited as one of the reasons for this discrepancy. Adolescents are generally not eligible for enrollment in adult oncology trials, and initial pediatric trials for many drugs are conducted years later, often after the drug is approved. As a result, accrual of adolescents to these trials may be slow due to off-label use, prospectively collected safety and efficacy data are lacking at the time of initial approval, and, most importantly, these adolescents have delayed access to effective therapies. To facilitate earlier access to investigational and approved drugs for adolescent patients with cancer, and because drug exposure is most often similar in adolescents and adults, we recommend the inclusion of adolescents (ages 12-17) in disease- and target-appropriate adult oncology trials. This approach requires careful monitoring for any differential safety signals, appropriate pharmacokinetic evaluations, and ensuring that ethical requirements are met. Inclusion of adolescents in adult oncology trials will require the cooperation of investigators, cooperative groups, industry, institutional review boards, and regulatory agencies to overcome real and perceived barriers. Clin Cancer Res; 23(1); 9-12. ©2016 AACR., (©2016 American Association for Cancer Research.)

Published

2017

48. Regulatory perspective on minimal residual disease flow cytometry testing in multiple myeloma.

Author

Gormley NJ, Turley DM, Dickey JS, Farrell AT, Reaman GH, Stafford E, Carrington L, and Marti GE

Subjects

Antigens, CD genetics, Antigens, CD immunology, Biomarkers, Pharmacological analysis, Device Approval legislation & jurisprudence, Gene Expression, Humans, Immunophenotyping, Multiple Myeloma drug therapy, Multiple Myeloma immunology, Multiple Myeloma mortality, Neoplasm, Residual drug therapy, Neoplasm, Residual immunology, Neoplasm, Residual mortality, Plasma Cells drug effects, Plasma Cells immunology, Plasma Cells pathology, Prognosis, Remission Induction, Survival Analysis, United States, United States Food and Drug Administration, Antigens, CD analysis, Antineoplastic Agents therapeutic use, Drug Approval legislation & jurisprudence, Flow Cytometry standards, Multiple Myeloma diagnosis, Neoplasm, Residual diagnosis

Abstract

The FDA has co-sponsored three workshops to address minimal residual disease (MRD) detection in acute lymphocytic leukemia (ALL), chronic lymphocytic leukemia (CLL), and acute myeloid leukemia (AML) as well as an FDA-NCI roundtable symposium on MRD detection and its use as a response biomarker in Multiple Myeloma (MM). As clinical outcomes in MM continue to improve with the introduction of new therapeutics, consideration of biomarkers and their development as validated surrogate endpoints that can be used in the place of traditional clinical trial endpoints of progression-free survival (PFS) will be fundamental to expeditious drug development. This article will describe the FDA drug approval process, the regulatory framework through which a biomarker can be used as a surrogate endpoint for drug approval, and how MRD detection in MM fits within this context. In parallel, this article will also describe the FDA current device clearance process with emphasis on the analytical development as it might apply to an in vitro diagnostic assay for the detection of MRD in MM. It is anticipated that this Special Issue may possibly represent how MRD might serve as a drug development tool in hematological malignancies., (© 2015 International Clinical Cytometry Society.)

Published

2016

49. Intensified chemotherapy without SCT in infant ALL: results from COG P9407 (Cohort 3).

Author

Dreyer ZE, Hilden JM, Jones TL, Devidas M, Winick NJ, Willman CL, Harvey RC, Chen IM, Behm FG, Pullen J, Wood BL, Carroll AJ, Heerema NA, Felix CA, Robinson B, Reaman GH, Salzer WL, Hunger SP, Carroll WL, and Camitta BM

Subjects

Age Factors, Disease-Free Survival, Female, Follow-Up Studies, Gene Rearrangement, Histone-Lysine N-Methyltransferase, Humans, Infant, Infant, Newborn, Male, Myeloid-Lymphoid Leukemia Protein genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Recurrence, Risk Factors, Stem Cell Transplantation, Survival Rate, Antineoplastic Combined Chemotherapy Protocols administration & dosage, Precursor Cell Lymphoblastic Leukemia-Lymphoma mortality

Abstract

Background: Infants with acute lymphoblastic leukemia (ALL) present with aggressive disease and a poor prognosis. Early relapse within 6-9 months of diagnosis is common. Approximately 75% of infants have MLL-rearranged (MLL-R) ALL with event free survival (EFS) ranging from 20% to 30%. Children's Oncology Group (COG) P9407 used shortened (46 weeks), intensified therapy to address early relapse and poor EFS., Procedure: P9407 therapy was modified three times for induction toxicity resulting in three cohorts of therapy. One hundred forty-seven infants were enrolled in the third cohort., Results: We report an overall 5-year EFS and OS of 42.3 ± 6% and 52.9 ± 6.5% respectively. Poor prognostic factors included age ≤90 days at diagnosis, MLL-R ALL and white cell count ≥50,000/μl. For infants ≤90 days of age, the 5-year EFS was 15.5 ± 10.1% and 48.5 ± 6.7% for those >90 days (P < 0.0001). Among infants >90 days of age, 5-year EFS rates were 43.8 ± 8% for MLL-R versus 69.1 ± 13.6% for MLL-germline ALL (P < 0.0001)., Conclusions: Age ≤90 days at diagnosis was the most important prognostic factor. Despite shortened therapy with early intensification, EFS remained less than 50% overall in MLL-R ALL., Competing Interests: The following authors have nothing to disclose: ZoAnn E. Dreyer, Joanne M. Hilden, Meenakshi Devidas, Cheryl L. Willman, I-Ming Chen, Brent L. Wood, Andrew J. Carroll, Nyla A. Heerema, Blaine Robinson, Stephen P. Hunger, Fred G. Behm, William L. Carroll, Bruce M. Camitta, Jeanette Pullen, Tamekia L. Jones, Gregory H. Reaman, Wanda L. Salzer, Naomi J. Winick, Richard C. Harvey. Carolyn A. Felix has the following disclosure: Carolyn A. Felix owns the following patent: Methods and Kits for Analysis of Chromosomal Rearrangements Associated with Leukemia – US Patent #6,368,791 (issued April 9, 2002)., (© 2014 Wiley Periodicals, Inc.)

Published

2015

50. CD22ΔE12 as a molecular target for corrective repair using RNA trans-splicing: anti-leukemic activity of a rationally designed RNA trans-splicing molecule.

Author

Uckun FM, Qazi S, Ma H, Reaman GH, and Mitchell LG

Subjects

Adult, Animals, Base Sequence, Child, Exons, Gene Expression Profiling, Humans, Mice, Mice, Inbred NOD, Mice, SCID, Molecular Sequence Data, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, RNA, Neoplasm genetics, RNA, Neoplasm metabolism, Real-Time Polymerase Chain Reaction, Sequence Deletion, Transfection, Tumor Cells, Cultured, Tumor Stem Cell Assay, Xenograft Model Antitumor Assays, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma genetics, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma therapy, Sialic Acid Binding Ig-like Lectin 2 genetics, Targeted Gene Repair methods, Trans-Splicing

Abstract

Our recent studies have demonstrated that the CD22 exon 12 deletion (CD22ΔE12) is a characteristic genetic defect of therapy-refractory clones in pediatric B-precursor acute lymphoblastic leukemia (BPL) and implicated the CD22ΔE12 genetic defect in the aggressive biology of relapsed or therapy-refractory pediatric BPL. The purpose of the present study was to further evaluate the biologic significance of the CD22ΔE12 molecular lesion and determine if it could serve as a molecular target for corrective repair using RNA trans-splicing therapy. We show that both pediatric and adult B-lineage lymphoid malignancies are characterized by a very high incidence of the CD22ΔE12 genetic defect. We provide experimental evidence that the correction of the CD22ΔE12 genetic defect in human CD22ΔE12(+) BPL cells using a rationally designed CD22 RNA trans-splicing molecule (RTM) caused a pronounced reduction of their clonogenicity. The RTM-mediated correction replaced the downstream mutation-rich segment of Intron 12 and remaining segments of the mutant CD22 pre-mRNA with wildtype CD22 exons 10-14, thereby preventing the generation of the cis-spliced aberrant CD22ΔE12 product. The anti-leukemic activity of this RTM against BPL xenograft clones derived from CD22ΔE12(+) leukemia patients provides the preclinical proof-of-concept that correcting the CD22ΔE12 defect with rationally designed CD22 RTMs may provide the foundation for therapeutic innovations that are needed for successful treatment of high-risk and relapsed BPL patients.

Published

2015