Literature DB >> 20332264

Comparison of two methods for estimating absolute risk of prostate cancer based on single nucleotide polymorphisms and family history.

Fang-Chi Hsu1, Jielin Sun, Yi Zhu, Seong-Tae Kim, Tao Jin, Zheng Zhang, Fredrik Wiklund, A Karim Kader, S Lilly Zheng, William Isaacs, Henrik Grönberg, Jianfeng Xu.   

Abstract

Disease risk-associated single nucleotide polymorphisms (SNP) identified from genome-wide association studies have the potential to be used for disease risk prediction. An important feature of these risk-associated SNPs is their weak individual effect but stronger cumulative effect on disease risk. Several approaches are commonly used to model the combined effect in risk prediction, but their performance is unclear. We compared two methods to model the combined effect of 14 prostate cancer risk-associated SNPs and family history for the estimation of absolute risk for prostate cancer in a population-based case-control study in Sweden (2,899 cases and 1,722 controls). Method 1 weighs each risk allele equally using a simple method of counting the number of risk alleles, whereas method 2 weighs each risk SNP differently based on its odds ratio. We found considerable differences between the two methods. Absolute risk estimates from method 1 were generally higher than those of method 2, especially among men at higher risk. The difference in the overall discriminative performance, measured by area under the curve of the receiver operating characteristic, was small between method 1 (0.614) and method 2 (0.618), P = 0.20. However, the performance of these two methods in identifying high-risk individuals (2- or 3-fold higher than average risk), measured by positive predictive values, was higher for method 2 than for method 1. These results suggest that method 2 is superior to method 1 in estimating absolute risk if the purpose of risk prediction is to identify high-risk individuals.

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Year:  2010        PMID: 20332264      PMCID: PMC2852494          DOI: 10.1158/1055-9965.EPI-09-1176

Source DB:  PubMed          Journal:  Cancer Epidemiol Biomarkers Prev        ISSN: 1055-9965            Impact factor:   4.254


  25 in total

1.  A common variant associated with prostate cancer in European and African populations.

Authors:  Laufey T Amundadottir; Patrick Sulem; Julius Gudmundsson; Agnar Helgason; Adam Baker; Bjarni A Agnarsson; Asgeir Sigurdsson; Kristrun R Benediktsdottir; Jean-Baptiste Cazier; Jesus Sainz; Margret Jakobsdottir; Jelena Kostic; Droplaug N Magnusdottir; Shyamali Ghosh; Kari Agnarsson; Birgitta Birgisdottir; Louise Le Roux; Adalheidur Olafsdottir; Thorarinn Blondal; Margret Andresdottir; Olafia Svandis Gretarsdottir; Jon T Bergthorsson; Daniel Gudbjartsson; Arnaldur Gylfason; Gudmar Thorleifsson; Andrei Manolescu; Kristleifur Kristjansson; Gudmundur Geirsson; Helgi Isaksson; Julie Douglas; Jan-Erik Johansson; Katarina Bälter; Fredrik Wiklund; James E Montie; Xiaoying Yu; Brian K Suarez; Carole Ober; Kathleen A Cooney; Henrik Gronberg; William J Catalona; Gudmundur V Einarsson; Rosa B Barkardottir; Jeffrey R Gulcher; Augustine Kong; Unnur Thorsteinsdottir; Kari Stefansson
Journal:  Nat Genet       Date:  2006-05-07       Impact factor: 38.330

2.  Multiple regions within 8q24 independently affect risk for prostate cancer.

Authors:  Christopher A Haiman; Nick Patterson; Matthew L Freedman; Simon R Myers; Malcolm C Pike; Alicja Waliszewska; Julie Neubauer; Arti Tandon; Christine Schirmer; Gavin J McDonald; Steven C Greenway; Daniel O Stram; Loic Le Marchand; Laurence N Kolonel; Melissa Frasco; David Wong; Loreall C Pooler; Kristin Ardlie; Ingrid Oakley-Girvan; Alice S Whittemore; Kathleen A Cooney; Esther M John; Sue A Ingles; David Altshuler; Brian E Henderson; David Reich
Journal:  Nat Genet       Date:  2007-04-01       Impact factor: 38.330

3.  Two variants on chromosome 17 confer prostate cancer risk, and the one in TCF2 protects against type 2 diabetes.

Authors:  Julius Gudmundsson; Patrick Sulem; Valgerdur Steinthorsdottir; Jon T Bergthorsson; Gudmar Thorleifsson; Andrei Manolescu; Thorunn Rafnar; Daniel Gudbjartsson; Bjarni A Agnarsson; Adam Baker; Asgeir Sigurdsson; Kristrun R Benediktsdottir; Margret Jakobsdottir; Thorarinn Blondal; Simon N Stacey; Agnar Helgason; Steinunn Gunnarsdottir; Adalheidur Olafsdottir; Kari T Kristinsson; Birgitta Birgisdottir; Shyamali Ghosh; Steinunn Thorlacius; Dana Magnusdottir; Gerdur Stefansdottir; Kristleifur Kristjansson; Yu Bagger; Robert L Wilensky; Muredach P Reilly; Andrew D Morris; Charlotte H Kimber; Adebowale Adeyemo; Yuanxiu Chen; Jie Zhou; Wing-Yee So; Peter C Y Tong; Maggie C Y Ng; Torben Hansen; Gitte Andersen; Knut Borch-Johnsen; Torben Jorgensen; Alejandro Tres; Fernando Fuertes; Manuel Ruiz-Echarri; Laura Asin; Berta Saez; Erica van Boven; Siem Klaver; Dorine W Swinkels; Katja K Aben; Theresa Graif; John Cashy; Brian K Suarez; Onco van Vierssen Trip; Michael L Frigge; Carole Ober; Marten H Hofker; Cisca Wijmenga; Claus Christiansen; Daniel J Rader; Colin N A Palmer; Charles Rotimi; Juliana C N Chan; Oluf Pedersen; Gunnar Sigurdsson; Rafn Benediktsson; Eirikur Jonsson; Gudmundur V Einarsson; Jose I Mayordomo; William J Catalona; Lambertus A Kiemeney; Rosa B Barkardottir; Jeffrey R Gulcher; Unnur Thorsteinsdottir; Augustine Kong; Kari Stefansson
Journal:  Nat Genet       Date:  2007-07-01       Impact factor: 38.330

4.  Genome-wide association study identifies a second prostate cancer susceptibility variant at 8q24.

Authors:  Julius Gudmundsson; Patrick Sulem; Andrei Manolescu; Laufey T Amundadottir; Daniel Gudbjartsson; Agnar Helgason; Thorunn Rafnar; Jon T Bergthorsson; Bjarni A Agnarsson; Adam Baker; Asgeir Sigurdsson; Kristrun R Benediktsdottir; Margret Jakobsdottir; Jianfeng Xu; Thorarinn Blondal; Jelena Kostic; Jielin Sun; Shyamali Ghosh; Simon N Stacey; Magali Mouy; Jona Saemundsdottir; Valgerdur M Backman; Kristleifur Kristjansson; Alejandro Tres; Alan W Partin; Marjo T Albers-Akkers; Javier Godino-Ivan Marcos; Patrick C Walsh; Dorine W Swinkels; Sebastian Navarrete; Sarah D Isaacs; Katja K Aben; Theresa Graif; John Cashy; Manuel Ruiz-Echarri; Kathleen E Wiley; Brian K Suarez; J Alfred Witjes; Mike Frigge; Carole Ober; Eirikur Jonsson; Gudmundur V Einarsson; Jose I Mayordomo; Lambertus A Kiemeney; William B Isaacs; William J Catalona; Rosa B Barkardottir; Jeffrey R Gulcher; Unnur Thorsteinsdottir; Augustine Kong; Kari Stefansson
Journal:  Nat Genet       Date:  2007-04-01       Impact factor: 38.330

5.  Genome-wide association study of prostate cancer identifies a second risk locus at 8q24.

Authors:  Meredith Yeager; Nick Orr; Richard B Hayes; Kevin B Jacobs; Peter Kraft; Sholom Wacholder; Mark J Minichiello; Paul Fearnhead; Kai Yu; Nilanjan Chatterjee; Zhaoming Wang; Robert Welch; Brian J Staats; Eugenia E Calle; Heather Spencer Feigelson; Michael J Thun; Carmen Rodriguez; Demetrius Albanes; Jarmo Virtamo; Stephanie Weinstein; Fredrick R Schumacher; Edward Giovannucci; Walter C Willett; Geraldine Cancel-Tassin; Olivier Cussenot; Antoine Valeri; Gerald L Andriole; Edward P Gelmann; Margaret Tucker; Daniela S Gerhard; Joseph F Fraumeni; Robert Hoover; David J Hunter; Stephen J Chanock; Gilles Thomas
Journal:  Nat Genet       Date:  2007-04-01       Impact factor: 38.330

6.  Projecting absolute invasive breast cancer risk in white women with a model that includes mammographic density.

Authors:  Jinbo Chen; David Pee; Rajeev Ayyagari; Barry Graubard; Catherine Schairer; Celia Byrne; Jacques Benichou; Mitchell H Gail
Journal:  J Natl Cancer Inst       Date:  2006-09-06       Impact factor: 13.506

7.  Association between two unlinked loci at 8q24 and prostate cancer risk among European Americans.

Authors:  S Lilly Zheng; Jielin Sun; Yu Cheng; Ge Li; Fang-Chi Hsu; Yi Zhu; Bao-Li Chang; Wennuan Liu; Jin Woo Kim; Aubrey R Turner; Marta Gielzak; Guifang Yan; Sarah D Isaacs; Kathleen E Wiley; Jurga Sauvageot; Huann-Sheng Chen; Robin Gurganus; Leslie A Mangold; Bruce J Trock; Henrik Gronberg; David Duggan; John D Carpten; Alan W Partin; Patrick C Walsh; Jianfeng Xu; William B Isaacs
Journal:  J Natl Cancer Inst       Date:  2007-10-09       Impact factor: 13.506

8.  Converting relative risks to absolute risks: a graphical approach.

Authors:  W D Dupont
Journal:  Stat Med       Date:  1989-06       Impact factor: 2.373

9.  Prevalence of prostate cancer among men with a prostate-specific antigen level < or =4.0 ng per milliliter.

Authors:  Ian M Thompson; Donna K Pauler; Phyllis J Goodman; Catherine M Tangen; M Scott Lucia; Howard L Parnes; Lori M Minasian; Leslie G Ford; Scott M Lippman; E David Crawford; John J Crowley; Charles A Coltman
Journal:  N Engl J Med       Date:  2004-05-27       Impact factor: 91.245

10.  Identification of a new prostate cancer susceptibility locus on chromosome 8q24.

Authors:  Meredith Yeager; Nilanjan Chatterjee; Julia Ciampa; Kevin B Jacobs; Jesus Gonzalez-Bosquet; Richard B Hayes; Peter Kraft; Sholom Wacholder; Nick Orr; Sonja Berndt; Kai Yu; Amy Hutchinson; Zhaoming Wang; Laufey Amundadottir; Heather Spencer Feigelson; Michael J Thun; W Ryan Diver; Demetrius Albanes; Jarmo Virtamo; Stephanie Weinstein; Fredrick R Schumacher; Geraldine Cancel-Tassin; Olivier Cussenot; Antoine Valeri; Gerald L Andriole; E David Crawford; Christopher A Haiman; Brian Henderson; Laurence Kolonel; Loic Le Marchand; Afshan Siddiq; Elio Riboli; Timothy J Key; Rudolf Kaaks; William Isaacs; Sarah Isaacs; Kathleen E Wiley; Henrik Gronberg; Fredrik Wiklund; Pär Stattin; Jianfeng Xu; S Lilly Zheng; Jielin Sun; Lars J Vatten; Kristian Hveem; Merethe Kumle; Margaret Tucker; Daniela S Gerhard; Robert N Hoover; Joseph F Fraumeni; David J Hunter; Gilles Thomas; Stephen J Chanock
Journal:  Nat Genet       Date:  2009-09-20       Impact factor: 38.330
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  8 in total

1.  Evaluation of multiple risk-associated single nucleotide polymorphisms versus prostate-specific antigen at baseline to predict prostate cancer in unscreened men.

Authors:  Robert J Klein; Christer Hallden; Amit Gupta; Caroline J Savage; Anders Dahlin; Anders Bjartell; Jonas Manjer; Peter T Scardino; David Ulmert; Peter Wallström; Andrew J Vickers; Hans Lilja
Journal:  Eur Urol       Date:  2011-11-07       Impact factor: 20.096

2.  Prediction of breast cancer risk by genetic risk factors, overall and by hormone receptor status.

Authors:  Anika Hüsing; Federico Canzian; Lars Beckmann; Montserrat Garcia-Closas; W Ryan Diver; Michael J Thun; Christine D Berg; Robert N Hoover; Regina G Ziegler; Jonine D Figueroa; Claudine Isaacs; Anja Olsen; Vivian Viallon; Heiner Boeing; Giovanna Masala; Dimitrios Trichopoulos; Petra H M Peeters; Eiliv Lund; Eva Ardanaz; Kay-Tee Khaw; Per Lenner; Laurence N Kolonel; Daniel O Stram; Loïc Le Marchand; Catherine A McCarty; Julie E Buring; I-Min Lee; Shumin Zhang; Sara Lindström; Susan E Hankinson; Elio Riboli; David J Hunter; Brian E Henderson; Stephen J Chanock; Christopher A Haiman; Peter Kraft; Rudolf Kaaks
Journal:  J Med Genet       Date:  2012-09       Impact factor: 6.318

3.  A comparison of Bayesian and frequentist approaches to incorporating external information for the prediction of prostate cancer risk.

Authors:  Paul J Newcombe; Brian H Reck; Jielin Sun; Greg T Platek; Claudio Verzilli; A Karim Kader; Seong-Tae Kim; Fang-Chi Hsu; Zheng Zhang; S Lilly Zheng; Vincent E Mooser; Lynn D Condreay; Colin F Spraggs; John C Whittaker; Roger S Rittmaster; Jianfeng Xu
Journal:  Genet Epidemiol       Date:  2012-01       Impact factor: 2.135

4.  Polymorphisms influencing prostate-specific antigen concentration may bias genome-wide association studies on prostate cancer.

Authors:  Paul J Dluzniewski; Jianfeng Xu; Ingo Ruczinski; William B Isaacs; Elizabeth A Platz
Journal:  Cancer Epidemiol Biomarkers Prev       Date:  2014-10-28       Impact factor: 4.254

5.  Functional annotation of risk loci identified through genome-wide association studies for prostate cancer.

Authors:  Yizhen Lu; Zheng Zhang; Hongjie Yu; S Lily Zheng; William B Isaacs; Jianfeng Xu; Jielin Sun
Journal:  Prostate       Date:  2010-12-06       Impact factor: 4.104

6.  Development of risk prediction models for glioma based on genome-wide association study findings and comprehensive evaluation of predictive performances.

Authors:  Yingjie Zhao; Gong Chen; Hongjie Yu; Lingna Hu; Yunmeng Bian; Dapeng Yun; Juxiang Chen; Ying Mao; Hongyan Chen; Daru Lu
Journal:  Oncotarget       Date:  2016-07-28

7.  Developing genetic epidemiological models to predict risk for nasopharyngeal carcinoma in high-risk population of China.

Authors:  Hong-Lian Ruan; Hai-De Qin; Yin Yao Shugart; Jin-Xin Bei; Fu-Tian Luo; Yi-Xin Zeng; Wei-Hua Jia
Journal:  PLoS One       Date:  2013-02-15       Impact factor: 3.240

8.  Risk assessment models for genetic risk predictors of lung cancer using two-stage replication for Asian and European populations.

Authors:  Yang Cheng; Tao Jiang; Meng Zhu; Zhihua Li; Jiahui Zhang; Yuzhuo Wang; Liguo Geng; Jia Liu; Wei Shen; Cheng Wang; Zhibin Hu; Guangfu Jin; Hongxia Ma; Hongbing Shen; Juncheng Dai
Journal:  Oncotarget       Date:  2016-07-05
  8 in total

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