Literature DB >> 32430502

Secondary myelodysplastic syndrome and leukemia in acquired aplastic anemia and paroxysmal nocturnal hemoglobinuria.

Lova Sun1, Daria V Babushok1,2.   

Abstract

Acquired aplastic anemia (AA) and paroxysmal nocturnal hemoglobinuria (PNH) are pathogenically related nonmalignant bone marrow failure disorders linked to T-cell-mediated autoimmunity; they are associated with an increased risk of secondary myelodysplastic syndrome (MDS) and acute myeloid leukemia (AML). Approximately 15% to 20% of AA patients and 2% to 6% of PNH patients go on to develop secondary MDS/AML by 10 years of follow-up. Factors determining an individual patient's risk of malignant transformation remain poorly defined. Recent studies identified nearly ubiquitous clonal hematopoiesis (CH) in AA patients. Similarly, CH with additional, non-PIGA, somatic alterations occurs in the majority of patients with PNH. Factors associated with progression to secondary MDS/AML include longer duration of disease, increased telomere attrition, presence of adverse prognostic mutations, and multiple mutations, particularly when occurring early in the disease course and at a high allelic burden. Here, we will review the prevalence and characteristics of somatic alterations in AA and PNH and will explore their prognostic significance and mechanisms of clonal selection. We will then discuss the available data on post-AA and post-PNH progression to secondary MDS/AML and provide practical guidance for approaching patients with PNH and AA who have CH.
© 2020 by The American Society of Hematology.

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Year:  2020        PMID: 32430502      PMCID: PMC7332901          DOI: 10.1182/blood.2019000940

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  145 in total

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Journal:  Blood       Date:  2007-05-15       Impact factor: 22.113

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Journal:  Blood       Date:  2017-02-23       Impact factor: 22.113

5.  Increased glycosylphosphatidylinositol-anchored protein-deficient granulocytes define a benign subset of bone marrow failures in patients with trisomy 8.

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Journal:  Arch Intern Med       Date:  1981-03
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Review 2.  When does a PNH clone have clinical significance?

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Journal:  Hematology Am Soc Hematol Educ Program       Date:  2021-12-10

3.  Molecular landscape of immune pressure and escape in aplastic anemia.

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Journal:  Leukemia       Date:  2022-10-17       Impact factor: 12.883

Review 4.  Platelet Versus Megakaryocyte: Who Is the Real Bandleader of Thromboinflammation in Sepsis?

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Journal:  Cells       Date:  2022-04-30       Impact factor: 7.666

5.  CCR5 maintains macrophages in the bone marrow and drives hematopoietic failure in a mouse model of severe aplastic anemia.

Authors:  Allison N Seyfried; Amanda McCabe; Julianne N P Smith; Laura M Calvi; Katherine C MacNamara
Journal:  Leukemia       Date:  2021-03-20       Impact factor: 12.883

6.  HLA associations, somatic loss of HLA expression, and clinical outcomes in immune aplastic anemia.

Authors:  Yoshitaka Zaimoku; Bhavisha A Patel; Sharon D Adams; Ruba Shalhoub; Emma M Groarke; Audrey Ai Chin Lee; Sachiko Kajigaya; Xingmin Feng; Olga Julia Rios; Holly Eager; Lemlem Alemu; Diego Quinones Raffo; Colin O Wu; Willy A Flegel; Neal S Young
Journal:  Blood       Date:  2021-12-30       Impact factor: 25.476

Review 7.  VEXAS syndrome.

Authors:  Peter C Grayson; Bhavisha A Patel; Neal S Young
Journal:  Blood       Date:  2021-07-01       Impact factor: 25.476

8.  A Deep Learning Model for the Automatic Recognition of Aplastic Anemia, Myelodysplastic Syndromes, and Acute Myeloid Leukemia Based on Bone Marrow Smear.

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Journal:  Front Oncol       Date:  2022-04-14       Impact factor: 5.738

9.  Occurrence of a paroxysmal nocturnal hemoglobinuria clone in an essential thrombocythemia: a link between PIGV and MPL.

Authors:  Alexej Knaus; François Vergez; Cédric Garcia; Hartmut Engels; Hela Hundertmark; David Ribes; Laetitia Largeaud; Suzanne Tavitian; Bernard Payrastre; Peter Krawitz; Stanislas Faguer; Agnes Ribes
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  9 in total

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