Courtney D DiNardo1, Sarah A Bannon2, Mark Routbort3, Anna Franklin4, Maureen Mork2, Mary Armanios5, Emily M Mace6, Jordan S Orange6, Meselle Jeff-Eke7, Jane E Churpek7, Koichi Takahashi8, Jeffrey L Jorgensen3, Guillermo Garcia-Manero8, Steve Kornblau8, Alison Bertuch9, Hannah Cheung10, Kapil Bhalla8, Andrew Futreal10, Lucy A Godley7, Keyur P Patel3. 1. Department of Leukemia, University of Texas MD Anderson Cancer Center, Houston, TX. Electronic address: cdinardo@mdanderson.org. 2. Department of Clinical Cancer Genetics, University of Texas MD Anderson Cancer Center, Houston, TX. 3. Department of Hematopathology, University of Texas MD Anderson Cancer Center, Houston, TX. 4. Department of Pediatrics, University of Texas MD Anderson Cancer Center, Houston, TX. 5. Department of Oncology and the Sidney Kimmel Comprehensive Cancer Center, Johns Hopkins University School of Medicine, Baltimore, MD. 6. Center for Human Immunobiology, Texas Children's Hospital, Baylor College of Medicine, Houston, TX. 7. Section of Hematology/Oncology, Department of Medicine, Comprehensive Cancer Research Center, University of Chicago, Chicago, IL. 8. Department of Leukemia, University of Texas MD Anderson Cancer Center, Houston, TX. 9. Department of Pediatrics, Texas Children's Cancer & Hematology Center, Baylor College of Medicine, Houston, TX. 10. Department of Genomic Medicine, University of Texas MD Anderson Cancer Center, Houston, TX.
Abstract
INTRODUCTION: Although multiple predispositions to hematologic malignancies exist, evaluations for hereditary cancer syndromes (HCS) are underperformed by most hematologist/oncologists. Criteria for initiating HCS evaluation are poorly defined, and results of genetic testing for hereditary hematologic malignancies have not been systematically reported. PATIENTS AND METHODS: From April 2014 to August 2015, 67 patients were referred to the Hereditary Hematologic Malignancy Clinic (HHMC). Referral reasons included (1) bone marrow failure or myelodysplastic syndrome in patients ≤ 50 years, (2) evaluation for germ-line inheritance of identified RUNX1, GATA2, or CEBPA mutations on targeted next-generation sequencing panels, and (3) strong personal and/or family history of malignancy. Cultured skin fibroblasts were utilized for germ-line DNA in all patients with hematologic malignancy. RESULTS: Eight patients (12%) were clinically diagnosed with a HCS: 4 patients with RUNX1-related familial platelet disorder (FPD)/acute myeloid leukemia (AML), and 1 patient each with dyskeratosis congenita, Fanconi anemia, germ-line DDX41, and Li-Fraumeni syndrome (LFS). Two patients with concern for FPD/AML and LFS, respectively, had RUNX1 and TP53 variants of unknown significance. Additionally, 4 patients with prior HCS diagnosis (1 LFS, 3 FPD/AML) were referred for further evaluation and surveillance. CONCLUSION: In this HHMC-referred hematologic malignancy cohort, HCS was confirmed in 12 patients (18%). HCS identification provides insight for improved and individualized treatment, as well as screening/surveillance opportunities for family members. The HHMC has facilitated HCS diagnosis; with increased clinical awareness of hematologic malignancy predisposition syndromes, more patients who may benefit from evaluation can be identified. Mutation panels intended for prognostication may provide increased clinical suspicion for germ-line testing.
INTRODUCTION: Although multiple predispositions to hematologic malignancies exist, evaluations for hereditary cancer syndromes (HCS) are underperformed by most hematologist/oncologists. Criteria for initiating HCS evaluation are poorly defined, and results of genetic testing for hereditary hematologic malignancies have not been systematically reported. PATIENTS AND METHODS: From April 2014 to August 2015, 67 patients were referred to the Hereditary Hematologic Malignancy Clinic (HHMC). Referral reasons included (1) bone marrow failure or myelodysplastic syndrome in patients ≤ 50 years, (2) evaluation for germ-line inheritance of identified RUNX1, GATA2, or CEBPA mutations on targeted next-generation sequencing panels, and (3) strong personal and/or family history of malignancy. Cultured skin fibroblasts were utilized for germ-line DNA in all patients with hematologic malignancy. RESULTS: Eight patients (12%) were clinically diagnosed with a HCS: 4 patients with RUNX1-related familial platelet disorder (FPD)/acute myeloid leukemia (AML), and 1 patient each with dyskeratosis congenita, Fanconi anemia, germ-line DDX41, and Li-Fraumeni syndrome (LFS). Two patients with concern for FPD/AML and LFS, respectively, had RUNX1 and TP53 variants of unknown significance. Additionally, 4 patients with prior HCS diagnosis (1 LFS, 3 FPD/AML) were referred for further evaluation and surveillance. CONCLUSION: In this HHMC-referred hematologic malignancy cohort, HCS was confirmed in 12 patients (18%). HCS identification provides insight for improved and individualized treatment, as well as screening/surveillance opportunities for family members. The HHMC has facilitated HCS diagnosis; with increased clinical awareness of hematologic malignancy predisposition syndromes, more patients who may benefit from evaluation can be identified. Mutation panels intended for prognostication may provide increased clinical suspicion for germ-line testing.
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