1. Inherited Mutations in Men Undergoing Multigene Panel Testing for Prostate Cancer: Emerging Implications for Personalized Prostate Cancer Genetic Evaluation
- Author
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Edouard J. Trabulsi, Adam P. Dicker, Laura Gross, Susan Montgomery, David Y.T. Chen, Colette Hyatt, Costas D. Lallas, Ruth Bingler, Elias Obeid, Mary B. Daly, Veda N. Giri, Andrea Forman, Sarah E. Hegarty, Leonard G. Gomella, Stephanie Winheld, William Kevin Kelly, Brian A Allen, and Lisa Bealin
- Subjects
0301 basic medicine ,Oncology ,Cancer Research ,Mutation ,medicine.medical_specialty ,Mutation rate ,business.industry ,Genetic counseling ,Medical record ,Bioinformatics ,medicine.disease_cause ,medicine.disease ,03 medical and health sciences ,Prostate cancer ,030104 developmental biology ,0302 clinical medicine ,Breast cancer ,030220 oncology & carcinogenesis ,Internal medicine ,Cancer screening ,Original Reports ,Medicine ,Family history ,business - Abstract
Purpose Multigene panels are commercially available for the evaluation of prostate cancer (PCA) predisposition, which necessitates tailored genetic counseling (GC) for men. Here we describe emerging results of Genetic Evaluation of Men, prospective multigene testing study in PCA to inform personalized genetic counseling, with emerging implications for referrals, cancer screening, and precision therapy. Patients and Methods Eligibility criteria for men affected by or at high risk for PCA encompass age, race, family history (FH), and PCA stage/grade. Detailed demographic, clinical, and FH data were obtained from participants and medical records. Multigene testing was conducted after GC. Mutation rates were summarized by eligibility criteria and compared across FH data. The 95% CI of mutation prevalence was constructed by using Poisson distribution. Results Of 200 men enrolled, 62.5% had PCA. Eleven (5.5%; 95% CI, 3.0% to 9.9%) had mutations; 63.6% of mutations were in DNA repair genes. FH of breast cancer was significantly associated with mutation status ( P = .004), and FH that met criteria for hereditary breast and ovarian cancer syndrome was significantly associated with PCA (odds ratio, 2.33; 95% CI, 1.05 to 5.18). Variants of uncertain significance were reported in 70 men (35.0%). Among mutation carriers, 45.5% had personal/FH concordant with the gene. A tailored GC model was developed based on emerging findings. Conclusion Multigene testing for PCA identifies mutations mostly in DNA repair genes, with implications for precision therapy. The study highlights the importance of comprehensive genetic evaluation for PCA beyond metastatic disease, including early-stage disease with strong FH. Detailed FH is important for referrals of men for genetic evaluation. The results inform precision GC and cancer screening for men and their male and female blood relatives.
- Published
- 2021