Literature DB >> 33206937

A validated pediatric disease risk index for allogeneic hematopoietic cell transplantation.

Muna Qayed1,2, Kwang Woo Ahn3,4, Carrie L Kitko5, Mariam H Johnson3, Nirali N Shah6, Christopher Dvorak7, Karin Mellgren8, Brian D Friend9, Michael R Verneris10, Wing Leung11, Jacek Toporski12, John Levine13, Joseph Chewning14, Alan Wayne15, Urvi Kapoor16, Brandon Triplett17, Kirk R Schultz18, Gregory A Yanik19, Mary Eapen3,20.   

Abstract

A disease risk index (DRI) that was developed for adults with hematologic malignancy who were undergoing hematopoietic cell transplantation is also being used to stratify children and adolescents by disease risk. Therefore, to develop and validate a DRI that can be used to stratify those with AML and ALL by their disease risk, we analyzed 2569 patients aged <18 years with acute myeloid (AML; n = 1224) or lymphoblastic (ALL; n = 1345) leukemia who underwent hematopoietic cell transplantation. Training and validation subsets for each disease were generated randomly with 1:1 assignment to the subsets, and separate prognostic models were derived for each disease. For AML, 4 risk groups were identified based on age, cytogenetic risk, and disease status, including minimal residual disease status at transplantation. The 5-year leukemia-free survival for low (0 points), intermediate (2, 3, 5), high (7, 8), and very high (>8) risk groups was 78%, 53%, 40%, and 25%, respectively (P < .0001). For ALL, 3 risk groups were identified based on age and disease status, including minimal residual disease status at transplantation. The 5-year leukemia-free survival for low (0 points), intermediate (2-4), and high (≥5) risk groups was 68%, 51%, and 33%, respectively (P < .0001). We confirmed that the risk groups could be applied to overall survival, with 5-year survival ranging from 80% to 33% and 73% to 42% for AML and ALL, respectively (P < .0001). This validated pediatric DRI, which includes age and residual disease status, can be used to facilitate prognostication and stratification of children with AML and ALL for allogeneic transplantation.

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Year:  2021        PMID: 33206937      PMCID: PMC7918183          DOI: 10.1182/blood.2020009342

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   25.476


  37 in total

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Authors:  Michael R Loken; Todd A Alonzo; Laura Pardo; Robert B Gerbing; Susana C Raimondi; Betsy A Hirsch; Phoenix A Ho; Janet Franklin; Todd M Cooper; Alan S Gamis; Soheil Meshinchi
Journal:  Blood       Date:  2012-05-30       Impact factor: 22.113

2.  Consistent estimation of the expected Brier score in general survival models with right-censored event times.

Authors:  Thomas A Gerds; Martin Schumacher
Journal:  Biom J       Date:  2006-12       Impact factor: 2.207

3.  Treatment strategy and long-term results in paediatric patients treated in consecutive UK AML trials.

Authors:  B E S Gibson; K Wheatley; I M Hann; R F Stevens; D Webb; R K Hills; S S N De Graaf; C J Harrison
Journal:  Leukemia       Date:  2005-12       Impact factor: 11.528

4.  High incidence of t(7;12)(q36;p13) in infant AML but not in infant ALL, with a dismal outcome and ectopic expression of HLXB9.

Authors:  Anne R M von Bergh; Ellen van Drunen; Elisabeth R van Wering; Laura J C M van Zutven; Ina Hainmann; Gudmar Lönnerholm; Jules P Meijerink; Rob Pieters; H Berna Beverloo
Journal:  Genes Chromosomes Cancer       Date:  2006-08       Impact factor: 5.006

5.  Prognostic effect of chromosomal abnormalities in childhood B-cell precursor acute lymphoblastic leukaemia: results from the UK Medical Research Council ALL97/99 randomised trial.

Authors:  Anthony V Moorman; Hannah M Ensor; Sue M Richards; Lucy Chilton; Claire Schwab; Sally E Kinsey; Ajay Vora; Chris D Mitchell; Christine J Harrison
Journal:  Lancet Oncol       Date:  2010-04-19       Impact factor: 41.316

6.  More precisely defining risk peri-HCT in pediatric ALL: pre- vs post-MRD measures, serial positivity, and risk modeling.

Authors:  Peter Bader; Emilia Salzmann-Manrique; Adriana Balduzzi; Jean-Hugues Dalle; Ann E Woolfrey; Merav Bar; Michael R Verneris; Michael J Borowitz; Nirali N Shah; Nathan Gossai; Peter J Shaw; Allen R Chen; Kirk R Schultz; Hermann Kreyenberg; Lucia Di Maio; Gianni Cazzaniga; Cornelia Eckert; Vincent H J van der Velden; Rosemary Sutton; Arjan Lankester; Christina Peters; Thomas E Klingebiel; Andre M Willasch; Stephan A Grupp; Michael A Pulsipher
Journal:  Blood Adv       Date:  2019-11-12

Review 7.  How I treat pediatric acute myeloid leukemia.

Authors:  Jeffrey E Rubnitz
Journal:  Blood       Date:  2012-05-07       Impact factor: 22.113

8.  Novel prognostic subgroups in childhood 11q23/MLL-rearranged acute myeloid leukemia: results of an international retrospective study.

Authors:  Brian V Balgobind; Susana C Raimondi; Jochen Harbott; Martin Zimmermann; Todd A Alonzo; Anne Auvrignon; H Berna Beverloo; Myron Chang; Ursula Creutzig; Michael N Dworzak; Erik Forestier; Brenda Gibson; Henrik Hasle; Christine J Harrison; Nyla A Heerema; Gertjan J L Kaspers; Anna Leszl; Nathalia Litvinko; Luca Lo Nigro; Akira Morimoto; Christine Perot; Rob Pieters; Dirk Reinhardt; Jeffrey E Rubnitz; Franklin O Smith; Jan Stary; Irina Stasevich; Sabine Strehl; Takashi Taga; Daisuke Tomizawa; David Webb; Zuzana Zemanova; C Michel Zwaan; Marry M van den Heuvel-Eibrink
Journal:  Blood       Date:  2009-06-15       Impact factor: 22.113

9.  Comparison of total body irradiation versus non-total body irradiation containing regimens for de novo acute myeloid leukemia in children.

Authors:  Christopher E Dandoy; Stella M Davies; Kwang Woo Ahn; Yizeng He; Anders E Kolb; John Levine; Stephanie Bo-Subait; Hisham Abdel-Azim; Neel Bhatt; Joseph Chewing; Shahinaz Gadalla; Nicholas Gloude; Robert Hayashi; Nahal R Lalefar; Jason Law; Margaret MacMillan; Tracy O'Brien; Timothy Prestidge; Akshay Sharma; Peter Shaw; Lena Winestone; Mary Eapen
Journal:  Haematologica       Date:  2021-07-01       Impact factor: 9.941

10.  Systematic chemical and molecular profiling of MLL-rearranged infant acute lymphoblastic leukemia reveals efficacy of romidepsin.

Authors:  M N Cruickshank; J Ford; L C Cheung; J Heng; S Singh; J Wells; T W Failes; G M Arndt; N Smithers; R K Prinjha; D Anderson; K W Carter; A M Gout; T Lassmann; J O'Reilly; C H Cole; R S Kotecha; U R Kees
Journal:  Leukemia       Date:  2016-06-13       Impact factor: 11.528
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  2 in total

Review 1.  Extracorporeal membrane oxygenation in children receiving haematopoietic cell transplantation and immune effector cell therapy: an international and multidisciplinary consensus statement.

Authors:  Matteo Di Nardo; Ali H Ahmad; Pietro Merli; Matthew S Zinter; Leslie E Lehman; Courtney M Rowan; Marie E Steiner; Sangeeta Hingorani; Joseph R Angelo; Hisham Abdel-Azim; Sajad J Khazal; Basirat Shoberu; Jennifer McArthur; Rajinder Bajwa; Saad Ghafoor; Samir H Shah; Hitesh Sandhu; Karen Moody; Brandon D Brown; Maria E Mireles; Diana Steppan; Taylor Olson; Lakshmi Raman; Brian Bridges; Christine N Duncan; Sung Won Choi; Rita Swinford; Matt Paden; James D Fortenberry; Giles Peek; Pierre Tissieres; Daniele De Luca; Franco Locatelli; Selim Corbacioglu; Martin Kneyber; Alessio Franceschini; Simon Nadel; Matthias Kumpf; Alessandra Loreti; Roelie Wösten-Van Asperen; Orsola Gawronski; Joe Brierley; Graeme MacLaren; Kris M Mahadeo
Journal:  Lancet Child Adolesc Health       Date:  2021-12-09

2.  Pediatric males receiving hematopoietic stem cell transplant lose their male disadvantage in disease risk after the procedure: A retrospective observational study.

Authors:  Laura De Nardi; Roberto Simeone; Lucio Torelli; Alessandra Maestro; Davide Zanon; Egidio Barbi; Natalia Maximova
Journal:  Int J Cancer       Date:  2022-03-05       Impact factor: 7.316
  2 in total

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