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Key clinical point: Evolutionary Action score (EAp53), a mutation-dependent, stable predictive biomarker, can help identify prognostic subsets within TP53-mutated myelodysplastic syndrome (MDS).
Major finding: High (more than 52) vs. low (52 or lesser) EAp53 score predicted worse overall survival (10 vs. 47.8 months; P = .01). Frequency of TP53 mutations (P = .027) and multi-allelic TP53 alterations (P = .0087) was higher in high-EAp53-MDS, whereas cytogenetic abnormalities (P = .019), complex karyotype (P = .0241), and monosomal karyotype (P = .0043) were lower in low-EAp53-MDS.
Study details: Findings are from a retrospective study of 270 patients with newly diagnosed MDS or oligoblastic acute myeloid leukemia (AML; less than 30% blasts) with 1 or more missense TP53 mutation.
Disclosures: This study was partly supported by institutional start-up funds, research grant awarded to the lead author, University of Texas MD Anderson Cancer Center Support grant, and generous philanthropic donations to the University of Texas MD Anderson MDS/AML Moon Shot Program. Some of the authors declared advisory roles with; consultancies with; research support, honoraria, personal fees, and/or equity ownership from various pharmaceutical companies.
Source: Kanagal-Shamanna R et al. Blood Cancer J. 2021 Mar 6. doi: 10.1038/s41408-021-00446-y.
Key clinical point: Evolutionary Action score (EAp53), a mutation-dependent, stable predictive biomarker, can help identify prognostic subsets within TP53-mutated myelodysplastic syndrome (MDS).
Major finding: High (more than 52) vs. low (52 or lesser) EAp53 score predicted worse overall survival (10 vs. 47.8 months; P = .01). Frequency of TP53 mutations (P = .027) and multi-allelic TP53 alterations (P = .0087) was higher in high-EAp53-MDS, whereas cytogenetic abnormalities (P = .019), complex karyotype (P = .0241), and monosomal karyotype (P = .0043) were lower in low-EAp53-MDS.
Study details: Findings are from a retrospective study of 270 patients with newly diagnosed MDS or oligoblastic acute myeloid leukemia (AML; less than 30% blasts) with 1 or more missense TP53 mutation.
Disclosures: This study was partly supported by institutional start-up funds, research grant awarded to the lead author, University of Texas MD Anderson Cancer Center Support grant, and generous philanthropic donations to the University of Texas MD Anderson MDS/AML Moon Shot Program. Some of the authors declared advisory roles with; consultancies with; research support, honoraria, personal fees, and/or equity ownership from various pharmaceutical companies.
Source: Kanagal-Shamanna R et al. Blood Cancer J. 2021 Mar 6. doi: 10.1038/s41408-021-00446-y.
Key clinical point: Evolutionary Action score (EAp53), a mutation-dependent, stable predictive biomarker, can help identify prognostic subsets within TP53-mutated myelodysplastic syndrome (MDS).
Major finding: High (more than 52) vs. low (52 or lesser) EAp53 score predicted worse overall survival (10 vs. 47.8 months; P = .01). Frequency of TP53 mutations (P = .027) and multi-allelic TP53 alterations (P = .0087) was higher in high-EAp53-MDS, whereas cytogenetic abnormalities (P = .019), complex karyotype (P = .0241), and monosomal karyotype (P = .0043) were lower in low-EAp53-MDS.
Study details: Findings are from a retrospective study of 270 patients with newly diagnosed MDS or oligoblastic acute myeloid leukemia (AML; less than 30% blasts) with 1 or more missense TP53 mutation.
Disclosures: This study was partly supported by institutional start-up funds, research grant awarded to the lead author, University of Texas MD Anderson Cancer Center Support grant, and generous philanthropic donations to the University of Texas MD Anderson MDS/AML Moon Shot Program. Some of the authors declared advisory roles with; consultancies with; research support, honoraria, personal fees, and/or equity ownership from various pharmaceutical companies.
Source: Kanagal-Shamanna R et al. Blood Cancer J. 2021 Mar 6. doi: 10.1038/s41408-021-00446-y.