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Implementation of Germline Testing for Prostate Cancer: Philadelphia Prostate Cancer Consensus Conference 2019.

Publication ,  Journal Article
Giri, VN; Knudsen, KE; Kelly, WK; Cheng, HH; Cooney, KA; Cookson, MS; Dahut, W; Weissman, S; Soule, HR; Petrylak, DP; Dicker, AP; Toland, AE ...
Published in: J Clin Oncol
August 20, 2020

PURPOSE: Germline testing (GT) is a central feature of prostate cancer (PCA) treatment, management, and hereditary cancer assessment. Critical needs include optimized multigene testing strategies that incorporate evolving genetic data, consistency in GT indications and management, and alternate genetic evaluation models that address the rising demand for genetic services. METHODS: A multidisciplinary consensus conference that included experts, stakeholders, and national organization leaders was convened in response to current practice challenges and to develop a genetic implementation framework. Evidence review informed questions using the modified Delphi model. The final framework included criteria with strong (> 75%) agreement (Recommend) or moderate (50% to 74%) agreement (Consider). RESULTS: Large germline panels and somatic testing were recommended for metastatic PCA. Reflex testing-initial testing of priority genes followed by expanded testing-was suggested for multiple scenarios. Metastatic disease or family history suggestive of hereditary PCA was recommended for GT. Additional family history and pathologic criteria garnered moderate consensus. Priority genes to test for metastatic disease treatment included BRCA2, BRCA1, and mismatch repair genes, with broader testing, such as ATM, for clinical trial eligibility. BRCA2 was recommended for active surveillance discussions. Screening starting at age 40 years or 10 years before the youngest PCA diagnosis in a family was recommended for BRCA2 carriers, with consideration in HOXB13, BRCA1, ATM, and mismatch repair carriers. Collaborative (point-of-care) evaluation models between health care and genetic providers was endorsed to address the genetic counseling shortage. The genetic evaluation framework included optimal pretest informed consent, post-test discussion, cascade testing, and technology-based approaches. CONCLUSION: This multidisciplinary, consensus-driven PCA genetic implementation framework provides novel guidance to clinicians and patients tailored to the precision era. Multiple research, education, and policy needs remain of importance.

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Published In

J Clin Oncol

DOI

EISSN

1527-7755

Publication Date

August 20, 2020

Volume

38

Issue

24

Start / End Page

2798 / 2811

Location

United States

Related Subject Headings

  • Prostatic Neoplasms
  • Oncology & Carcinogenesis
  • Male
  • Humans
  • History, 20th Century
  • Germ-Line Mutation
  • Genetic Testing
  • 3211 Oncology and carcinogenesis
  • 1112 Oncology and Carcinogenesis
  • 1103 Clinical Sciences
 

Citation

APA
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ICMJE
MLA
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Giri, V. N., Knudsen, K. E., Kelly, W. K., Cheng, H. H., Cooney, K. A., Cookson, M. S., … Gomella, L. G. (2020). Implementation of Germline Testing for Prostate Cancer: Philadelphia Prostate Cancer Consensus Conference 2019. J Clin Oncol, 38(24), 2798–2811. https://doi.org/10.1200/JCO.20.00046
Giri, Veda N., Karen E. Knudsen, William K. Kelly, Heather H. Cheng, Kathleen A. Cooney, Michael S. Cookson, William Dahut, et al. “Implementation of Germline Testing for Prostate Cancer: Philadelphia Prostate Cancer Consensus Conference 2019.J Clin Oncol 38, no. 24 (August 20, 2020): 2798–2811. https://doi.org/10.1200/JCO.20.00046.
Giri VN, Knudsen KE, Kelly WK, Cheng HH, Cooney KA, Cookson MS, et al. Implementation of Germline Testing for Prostate Cancer: Philadelphia Prostate Cancer Consensus Conference 2019. J Clin Oncol. 2020 Aug 20;38(24):2798–811.
Giri, Veda N., et al. “Implementation of Germline Testing for Prostate Cancer: Philadelphia Prostate Cancer Consensus Conference 2019.J Clin Oncol, vol. 38, no. 24, Aug. 2020, pp. 2798–811. Pubmed, doi:10.1200/JCO.20.00046.
Giri VN, Knudsen KE, Kelly WK, Cheng HH, Cooney KA, Cookson MS, Dahut W, Weissman S, Soule HR, Petrylak DP, Dicker AP, AlDubayan SH, Toland AE, Pritchard CC, Pettaway CA, Daly MB, Mohler JL, Parsons JK, Carroll PR, Pilarski R, Blanco A, Woodson A, Rahm A, Taplin M-E, Polascik TJ, Helfand BT, Hyatt C, Morgans AK, Feng F, Mullane M, Powers J, Concepcion R, Lin DW, Wender R, Mark JR, Costello A, Burnett AL, Sartor O, Isaacs WB, Xu J, Weitzel J, Andriole GL, Beltran H, Briganti A, Byrne L, Calvaresi A, Chandrasekar T, Chen DYT, Den RB, Dobi A, Crawford ED, Eastham J, Eggener S, Freedman ML, Garnick M, Gomella PT, Handley N, Hurwitz MD, Izes J, Karnes RJ, Lallas C, Languino L, Loeb S, Lopez AM, Loughlin KR, Lu-Yao G, Malkowicz SB, Mann M, Mille P, Miner MM, Morgan T, Moreno J, Mucci L, Myers RE, Nielsen SM, O’Neil B, Pinover W, Pinto P, Poage W, Raj GV, Rebbeck TR, Ryan C, Sandler H, Schiewer M, Scott EMD, Szymaniak B, Tester W, Trabulsi EJ, Vapiwala N, Yu EY, Zeigler-Johnson C, Gomella LG. Implementation of Germline Testing for Prostate Cancer: Philadelphia Prostate Cancer Consensus Conference 2019. J Clin Oncol. 2020 Aug 20;38(24):2798–2811.

Published In

J Clin Oncol

DOI

EISSN

1527-7755

Publication Date

August 20, 2020

Volume

38

Issue

24

Start / End Page

2798 / 2811

Location

United States

Related Subject Headings

  • Prostatic Neoplasms
  • Oncology & Carcinogenesis
  • Male
  • Humans
  • History, 20th Century
  • Germ-Line Mutation
  • Genetic Testing
  • 3211 Oncology and carcinogenesis
  • 1112 Oncology and Carcinogenesis
  • 1103 Clinical Sciences