Common genetic variants in prostate cancer risk prediction - Results from the NCI breast and prostate cancer cohort consortium (BPC3)

Sara Lindström; Fredrick R. Schumacher; David Cox; Ruth C. Travis; Demetrius Albanes; Naomi E. Allen; Gerald Andriole; Sonja I. Berndt; Heiner Boeing; H. Bas Bueno-de-Mesquita; E. David Crawford; W. Ryan Diver; J. Michael Gaziano; Graham G. Giles; Edward Giovannucci; Carlos A. Gonzalez; Brian Henderson; David J. Hunter; Mattias Johansson; Laurence N. Kolonel; Jing Ma; Loïc Le Marchand; Valeria Pala; Meir Stampfer; Daniel O. Stram; Michael J. Thun; Anne Tjonneland; Dimitrios Trichopoulos; Jarmo Virtamo; Stephanie J. Weinstein; Walter C. Willett; Meredith Yeager; Richard B. Hayes; Gianluca Severi; Christopher A. Haiman; Stephen J. Chanock; Peter Kraft

doi:10.1158/1055-9965.EPI-11-1038

Common genetic variants in prostate cancer risk prediction - Results from the NCI breast and prostate cancer cohort consortium (BPC3)

Sara Lindström, Fredrick R. Schumacher, David Cox, Ruth C. Travis, Demetrius Albanes, Naomi E. Allen, Gerald Andriole, Sonja I. Berndt, Heiner Boeing, H. Bas Bueno-de-Mesquita, E. David Crawford, W. Ryan Diver, J. Michael Gaziano, Graham G. Giles, Edward Giovannucci, Carlos A. Gonzalez, Brian Henderson, David J. Hunter, Mattias Johansson, Laurence N. KolonelJing Ma, Loïc Le Marchand, Valeria Pala, Meir Stampfer, Daniel O. Stram, Michael J. Thun, Anne Tjonneland, Dimitrios Trichopoulos, Jarmo Virtamo, Stephanie J. Weinstein, Walter C. Willett, Meredith Yeager, Richard B. Hayes, Gianluca Severi, Christopher A. Haiman, Stephen J. Chanock, Peter Kraft

Research output: Contribution to journal › Article › peer-review

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Abstract

Background: One of the goals of personalized medicine is to generate individual risk profiles that could identify individuals in the population that exhibit high risk. The discovery of more than two-dozen independent single-nucleotide polymorphism markers in prostate cancer has raised the possibility for such risk stratification. In this study, we evaluated the discriminative and predictive ability for prostate cancer risk models incorporating 25 common prostate cancer genetic markers, family history of prostate cancer, and age. Methods: We fit a series of risk models and estimated their performance in 7,509 prostate cancer cases and 7,652 controls within the National Cancer Institute Breast and Prostate Cancer Cohort Consortium (BPC3). We also calculated absolute risks based on SEER incidence data. Results: The best risk model (C-statistic = 0.642) included individual genetic markers and family history of prostate cancer. We observed a decreasing trend in discriminative ability with advancing age (P = 0.009), with highest accuracy in men younger than 60 years (C-statistic = 0.679). The absolute ten-year risk for 50-year-old men with a family history ranged from 1.6% (10th percentile of genetic risk) to 6.7% (90th percentile of genetic risk). For men without family history, the risk ranged from 0.8% (10th percentile) to 3.4% (90th percentile). Conclusions: Our results indicate that incorporating genetic information and family history in prostate cancer risk models can be particularly useful for identifying younger men that might benefit from prostate-specific antigen screening. Impact: Although adding genetic risk markers improves model performance, the clinical utility of these genetic risk models is limited.

Original language	English (US)
Pages (from-to)	437-444
Number of pages	8
Journal	Cancer Epidemiology Biomarkers and Prevention
Volume	21
Issue number	3
DOIs	https://doi.org/10.1158/1055-9965.EPI-11-1038
State	Published - Mar 2012
Externally published	Yes

ASJC Scopus subject areas

General Medicine

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Lindström, S., Schumacher, F. R., Cox, D., Travis, R. C., Albanes, D., Allen, N. E., Andriole, G., Berndt, S. I., Boeing, H., Bueno-de-Mesquita, H. B., Crawford, E. D., Diver, W. R., Gaziano, J. M., Giles, G. G., Giovannucci, E., Gonzalez, C. A., Henderson, B., Hunter, D. J., Johansson, M., ... Kraft, P. (2012). Common genetic variants in prostate cancer risk prediction - Results from the NCI breast and prostate cancer cohort consortium (BPC3). Cancer Epidemiology Biomarkers and Prevention, 21(3), 437-444. https://doi.org/10.1158/1055-9965.EPI-11-1038

Lindström, S, Schumacher, FR, Cox, D, Travis, RC, Albanes, D, Allen, NE, Andriole, G, Berndt, SI, Boeing, H, Bueno-de-Mesquita, HB, Crawford, ED, Diver, WR, Gaziano, JM, Giles, GG, Giovannucci, E, Gonzalez, CA, Henderson, B, Hunter, DJ, Johansson, M, Kolonel, LN, Ma, J, Marchand, LL, Pala, V, Stampfer, M, Stram, DO, Thun, MJ, Tjonneland, A, Trichopoulos, D, Virtamo, J, Weinstein, SJ, Willett, WC, Yeager, M, Hayes, RB, Severi, G, Haiman, CA, Chanock, SJ & Kraft, P 2012, 'Common genetic variants in prostate cancer risk prediction - Results from the NCI breast and prostate cancer cohort consortium (BPC3)', Cancer Epidemiology Biomarkers and Prevention, vol. 21, no. 3, pp. 437-444. https://doi.org/10.1158/1055-9965.EPI-11-1038

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title = "Common genetic variants in prostate cancer risk prediction - Results from the NCI breast and prostate cancer cohort consortium (BPC3)",

abstract = "Background: One of the goals of personalized medicine is to generate individual risk profiles that could identify individuals in the population that exhibit high risk. The discovery of more than two-dozen independent single-nucleotide polymorphism markers in prostate cancer has raised the possibility for such risk stratification. In this study, we evaluated the discriminative and predictive ability for prostate cancer risk models incorporating 25 common prostate cancer genetic markers, family history of prostate cancer, and age. Methods: We fit a series of risk models and estimated their performance in 7,509 prostate cancer cases and 7,652 controls within the National Cancer Institute Breast and Prostate Cancer Cohort Consortium (BPC3). We also calculated absolute risks based on SEER incidence data. Results: The best risk model (C-statistic = 0.642) included individual genetic markers and family history of prostate cancer. We observed a decreasing trend in discriminative ability with advancing age (P = 0.009), with highest accuracy in men younger than 60 years (C-statistic = 0.679). The absolute ten-year risk for 50-year-old men with a family history ranged from 1.6% (10th percentile of genetic risk) to 6.7% (90th percentile of genetic risk). For men without family history, the risk ranged from 0.8% (10th percentile) to 3.4% (90th percentile). Conclusions: Our results indicate that incorporating genetic information and family history in prostate cancer risk models can be particularly useful for identifying younger men that might benefit from prostate-specific antigen screening. Impact: Although adding genetic risk markers improves model performance, the clinical utility of these genetic risk models is limited.",

author = "Sara Lindstr{\"o}m and Schumacher, {Fredrick R.} and David Cox and Travis, {Ruth C.} and Demetrius Albanes and Allen, {Naomi E.} and Gerald Andriole and Berndt, {Sonja I.} and Heiner Boeing and Bueno-de-Mesquita, {H. Bas} and Crawford, {E. David} and Diver, {W. Ryan} and Gaziano, {J. Michael} and Giles, {Graham G.} and Edward Giovannucci and Gonzalez, {Carlos A.} and Brian Henderson and Hunter, {David J.} and Mattias Johansson and Kolonel, {Laurence N.} and Jing Ma and Marchand, {Lo{\"i}c Le} and Valeria Pala and Meir Stampfer and Stram, {Daniel O.} and Thun, {Michael J.} and Anne Tjonneland and Dimitrios Trichopoulos and Jarmo Virtamo and Weinstein, {Stephanie J.} and Willett, {Walter C.} and Meredith Yeager and Hayes, {Richard B.} and Gianluca Severi and Haiman, {Christopher A.} and Chanock, {Stephen J.} and Peter Kraft",

year = "2012",

month = mar,

doi = "10.1158/1055-9965.EPI-11-1038",

language = "English (US)",

volume = "21",

pages = "437--444",

journal = "Cancer Epidemiology Biomarkers and Prevention",

issn = "1055-9965",

publisher = "American Association for Cancer Research Inc.",

number = "3",

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T1 - Common genetic variants in prostate cancer risk prediction - Results from the NCI breast and prostate cancer cohort consortium (BPC3)

AU - Lindström, Sara

AU - Schumacher, Fredrick R.

AU - Cox, David

AU - Travis, Ruth C.

AU - Albanes, Demetrius

AU - Allen, Naomi E.

AU - Andriole, Gerald

AU - Berndt, Sonja I.

AU - Boeing, Heiner

AU - Bueno-de-Mesquita, H. Bas

AU - Crawford, E. David

AU - Diver, W. Ryan

AU - Gaziano, J. Michael

AU - Giles, Graham G.

AU - Giovannucci, Edward

AU - Gonzalez, Carlos A.

AU - Henderson, Brian

AU - Hunter, David J.

AU - Johansson, Mattias

AU - Kolonel, Laurence N.

AU - Ma, Jing

AU - Marchand, Loïc Le

AU - Pala, Valeria

AU - Stampfer, Meir

AU - Stram, Daniel O.

AU - Thun, Michael J.

AU - Tjonneland, Anne

AU - Trichopoulos, Dimitrios

AU - Virtamo, Jarmo

AU - Weinstein, Stephanie J.

AU - Willett, Walter C.

AU - Yeager, Meredith

AU - Hayes, Richard B.

AU - Severi, Gianluca

AU - Haiman, Christopher A.

AU - Chanock, Stephen J.

AU - Kraft, Peter

PY - 2012/3

Y1 - 2012/3

N2 - Background: One of the goals of personalized medicine is to generate individual risk profiles that could identify individuals in the population that exhibit high risk. The discovery of more than two-dozen independent single-nucleotide polymorphism markers in prostate cancer has raised the possibility for such risk stratification. In this study, we evaluated the discriminative and predictive ability for prostate cancer risk models incorporating 25 common prostate cancer genetic markers, family history of prostate cancer, and age. Methods: We fit a series of risk models and estimated their performance in 7,509 prostate cancer cases and 7,652 controls within the National Cancer Institute Breast and Prostate Cancer Cohort Consortium (BPC3). We also calculated absolute risks based on SEER incidence data. Results: The best risk model (C-statistic = 0.642) included individual genetic markers and family history of prostate cancer. We observed a decreasing trend in discriminative ability with advancing age (P = 0.009), with highest accuracy in men younger than 60 years (C-statistic = 0.679). The absolute ten-year risk for 50-year-old men with a family history ranged from 1.6% (10th percentile of genetic risk) to 6.7% (90th percentile of genetic risk). For men without family history, the risk ranged from 0.8% (10th percentile) to 3.4% (90th percentile). Conclusions: Our results indicate that incorporating genetic information and family history in prostate cancer risk models can be particularly useful for identifying younger men that might benefit from prostate-specific antigen screening. Impact: Although adding genetic risk markers improves model performance, the clinical utility of these genetic risk models is limited.

AB - Background: One of the goals of personalized medicine is to generate individual risk profiles that could identify individuals in the population that exhibit high risk. The discovery of more than two-dozen independent single-nucleotide polymorphism markers in prostate cancer has raised the possibility for such risk stratification. In this study, we evaluated the discriminative and predictive ability for prostate cancer risk models incorporating 25 common prostate cancer genetic markers, family history of prostate cancer, and age. Methods: We fit a series of risk models and estimated their performance in 7,509 prostate cancer cases and 7,652 controls within the National Cancer Institute Breast and Prostate Cancer Cohort Consortium (BPC3). We also calculated absolute risks based on SEER incidence data. Results: The best risk model (C-statistic = 0.642) included individual genetic markers and family history of prostate cancer. We observed a decreasing trend in discriminative ability with advancing age (P = 0.009), with highest accuracy in men younger than 60 years (C-statistic = 0.679). The absolute ten-year risk for 50-year-old men with a family history ranged from 1.6% (10th percentile of genetic risk) to 6.7% (90th percentile of genetic risk). For men without family history, the risk ranged from 0.8% (10th percentile) to 3.4% (90th percentile). Conclusions: Our results indicate that incorporating genetic information and family history in prostate cancer risk models can be particularly useful for identifying younger men that might benefit from prostate-specific antigen screening. Impact: Although adding genetic risk markers improves model performance, the clinical utility of these genetic risk models is limited.

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Common genetic variants in prostate cancer risk prediction - Results from the NCI breast and prostate cancer cohort consortium (BPC3)

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