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Literature DB >> 31209717

Ability of known susceptibility SNPs to predict colorectal cancer risk for persons with and without a family history.

Mark A Jenkins^1,2, Aung K Win^3,4,5, James G Dowty³, Robert J MacInnis^3,6, Enes Makalic³, Daniel F Schmidt³, Gillian S Dite³, Mirosl Kapuscinski³, Mark Clendenning⁷, Christophe Rosty^7,8,9, Ingrid M Winship^5,10, Jon D Emery^11,12, Sibel Saya^11,12, Finlay A Macrae^5,10,13, Dennis J Ahnen¹⁴, David Duggan¹⁵, Jane C Figueiredo^16,17, Noralane M Lindor¹⁸, Robert W Haile¹⁶, John D Potter^19,20,21, Michelle Cotterchio²², Steven Gallinger²³, Polly A Newcomb^19,20, Daniel D Buchanan^3,4,5,7, Graham Casey²⁴, John L Hopper^3,4.

Abstract

Before SNP-based risk can be incorporated in colorectal cancer (CRC) screening, the ability of these SNPs to estimate CRC risk for persons with and without a family history of CRC, and the screening implications need to be determined. We estimated the association with CRC of a 45 SNP-based risk using 1181 cases and 999 controls, and its correlation with CRC risk predicted from detailed family history. We estimated the predicted change in the distribution across predefined risk categories, and implications for recommended screening commencement age, from adding SNP-based risk to family history. The inter-quintile risk ratio for colorectal cancer risk of the SNP-based risk was 3.28 (95% CI 2.54-4.22). SNP-based and family history-based risks were not correlated (r = 0.02). For persons with no first-degree relatives with CRC, screening could commence 4 years earlier for women (5 years for men) in the highest quintile of SNP-based risk. For persons with two first-degree relatives with CRC, screening could commence 16 years earlier for men and women in the highest quintile, and 7 years earlier for the lowest quintile. This 45 SNP panel in conjunction with family history, can identify people who could benefit from earlier screening. Risk reclassification by 45 SNPs could inform targeted screening for CRC prevention, particularly in clinical genetics settings when mutations in high-risk genes cannot be identified. Yet to be determined is cost-effectiveness, resources requirements, community, patient and clinician acceptance, and feasibility with potentially ethical, legal and insurance implications.

Entities: Chemical

Keywords: Colorectal cancer; Family history; Prediction model; Risk prediction; Single nucleotide polymorphism

Mesh：

Year: 2019 PMID： 31209717 PMCID： PMC6785388 DOI： 10.1007/s10689-019-00136-6

Source DB: PubMed Journal: Fam Cancer ISSN： 1389-9600 Impact factor: 2.375

40 in total

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Journal: Nat Genet Date: 2008-11-16 Impact factor: 38.330

Review 4. Understanding the contribution of family history to colorectal cancer risk and its clinical implications: A state-of-the-science review.

Authors: Jan T Lowery; Dennis J Ahnen; Paul C Schroy; Heather Hampel; Nancy Baxter; C Richard Boland; Randall W Burt; Lynn Butterly; Megan Doerr; Mary Doroshenk; W Gregory Feero; Nora Henrikson; Uri Ladabaum; David Lieberman; Elizabeth G McFarland; Susan K Peterson; Martha Raymond; N Jewel Samadder; Sapna Syngal; Thomas K Weber; Ann G Zauber; Robert Smith
Journal: Cancer Date: 2016-06-03 Impact factor: 6.860

Review 5. Identification of Genetic Susceptibility Loci for Colorectal Tumors in a Genome-Wide Meta-analysis.

Authors: Ulrike Peters; Shuo Jiao; Fredrick R Schumacher; Carolyn M Hutter; Aaron K Aragaki; John A Baron; Sonja I Berndt; Stéphane Bézieau; Hermann Brenner; Katja Butterbach; Bette J Caan; Peter T Campbell; Christopher S Carlson; Graham Casey; Andrew T Chan; Jenny Chang-Claude; Stephen J Chanock; Lin S Chen; Gerhard A Coetzee; Simon G Coetzee; David V Conti; Keith R Curtis; David Duggan; Todd Edwards; Charles S Fuchs; Steven Gallinger; Edward L Giovannucci; Stephanie M Gogarten; Stephen B Gruber; Robert W Haile; Tabitha A Harrison; Richard B Hayes; Brian E Henderson; Michael Hoffmeister; John L Hopper; Thomas J Hudson; David J Hunter; Rebecca D Jackson; Sun Ha Jee; Mark A Jenkins; Wei-Hua Jia; Laurence N Kolonel; Charles Kooperberg; Sébastien Küry; Andrea Z Lacroix; Cathy C Laurie; Cecelia A Laurie; Loic Le Marchand; Mathieu Lemire; David Levine; Noralane M Lindor; Yan Liu; Jing Ma; Karen W Makar; Keitaro Matsuo; Polly A Newcomb; John D Potter; Ross L Prentice; Conghui Qu; Thomas Rohan; Stephanie A Rosse; Robert E Schoen; Daniela Seminara; Martha Shrubsole; Xiao-Ou Shu; Martha L Slattery; Darin Taverna; Stephen N Thibodeau; Cornelia M Ulrich; Emily White; Yongbing Xiang; Brent W Zanke; Yi-Xin Zeng; Ben Zhang; Wei Zheng; Li Hsu
Journal: Gastroenterology Date: 2012-12-22 Impact factor: 22.682

6. Cumulative impact of common genetic variants and other risk factors on colorectal cancer risk in 42,103 individuals.

Authors: Malcolm G Dunlop; Albert Tenesa; Susan M Farrington; Stephane Ballereau; David H Brewster; Thibaud Koessler; Paul Pharoah; Clemens Schafmayer; Jochen Hampe; Henry Völzke; Jenny Chang-Claude; Michael Hoffmeister; Hermann Brenner; Susanna von Holst; Simone Picelli; Annika Lindblom; Mark A Jenkins; John L Hopper; Graham Casey; David Duggan; Polly A Newcomb; Anna Abulí; Xavier Bessa; Clara Ruiz-Ponte; Sergi Castellví-Bel; Iina Niittymäki; Sari Tuupanen; Auli Karhu; Lauri Aaltonen; Brent Zanke; Tom Hudson; Steven Gallinger; Ella Barclay; Lynn Martin; Maggie Gorman; Luis Carvajal-Carmona; Axel Walther; David Kerr; Steven Lubbe; Peter Broderick; Ian Chandler; Alan Pittman; Steven Penegar; Harry Campbell; Ian Tomlinson; Richard S Houlston
Journal: Gut Date: 2012-04-05 Impact factor: 23.059

7. Genome-wide association scan identifies a colorectal cancer susceptibility locus on chromosome 8q24.

Authors: Brent W Zanke; Celia M T Greenwood; Jagadish Rangrej; Rafal Kustra; Albert Tenesa; Susan M Farrington; James Prendergast; Sylviane Olschwang; Theodore Chiang; Edgar Crowdy; Vincent Ferretti; Philippe Laflamme; Saravanan Sundararajan; Stéphanie Roumy; Jean-François Olivier; Frédérick Robidoux; Robert Sladek; Alexandre Montpetit; Peter Campbell; Stephane Bezieau; Anne Marie O'Shea; George Zogopoulos; Michelle Cotterchio; Polly Newcomb; John McLaughlin; Ban Younghusband; Roger Green; Jane Green; Mary E M Porteous; Harry Campbell; Helene Blanche; Mourad Sahbatou; Emmanuel Tubacher; Catherine Bonaiti-Pellié; Bruno Buecher; Elio Riboli; Sebastien Kury; Stephen J Chanock; John Potter; Gilles Thomas; Steven Gallinger; Thomas J Hudson; Malcolm G Dunlop
Journal: Nat Genet Date: 2007-07-08 Impact factor: 38.330

8. A genome-wide association scan of tag SNPs identifies a susceptibility variant for colorectal cancer at 8q24.21.

Authors: Ian Tomlinson; Emily Webb; Luis Carvajal-Carmona; Peter Broderick; Zoe Kemp; Sarah Spain; Steven Penegar; Ian Chandler; Maggie Gorman; Wendy Wood; Ella Barclay; Steven Lubbe; Lynn Martin; Gabrielle Sellick; Emma Jaeger; Richard Hubner; Ruth Wild; Andrew Rowan; Sarah Fielding; Kimberley Howarth; Andrew Silver; Wendy Atkin; Kenneth Muir; Richard Logan; David Kerr; Elaine Johnstone; Oliver Sieber; Richard Gray; Huw Thomas; Julian Peto; Jean-Baptiste Cazier; Richard Houlston
Journal: Nat Genet Date: 2007-07-08 Impact factor: 38.330

9. Modeling the prevention of colorectal cancer from the combined impact of host and behavioral risk factors.

Authors: Matthew Frampton; Richard S Houlston
Journal: Genet Med Date: 2016-08-04 Impact factor: 8.822

10. Genome-wide association analyses in East Asians identify new susceptibility loci for colorectal cancer.

Authors: Wei-Hua Jia; Ben Zhang; Keitaro Matsuo; Aesun Shin; Yong-Bing Xiang; Sun Ha Jee; Dong-Hyun Kim; Zefang Ren; Qiuyin Cai; Jirong Long; Jiajun Shi; Wanqing Wen; Gong Yang; Ryan J Delahanty; Bu-Tian Ji; Zhi-Zhong Pan; Fumihiko Matsuda; Yu-Tang Gao; Jae Hwan Oh; Yoon-Ok Ahn; Eun Jung Park; Hong-Lan Li; Ji Won Park; Jaeseong Jo; Jin-Young Jeong; Satoyo Hosono; Graham Casey; Ulrike Peters; Xiao-Ou Shu; Yi-Xin Zeng; Wei Zheng
Journal: Nat Genet Date: 2012-12-23 Impact factor: 38.330

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1. Risk Prediction Models for Colorectal Cancer Incorporating Common Genetic Variants: A Systematic Review.

Authors: Luke McGeoch; Catherine L Saunders; Simon J Griffin; Jon D Emery; Fiona M Walter; Deborah J Thompson; Antonis C Antoniou; Juliet A Usher-Smith
Journal: Cancer Epidemiol Biomarkers Prev Date: 2019-07-10 Impact factor: 4.254

2. Risk Stratification for Early-Onset Colorectal Cancer Using a Combination of Genetic and Environmental Risk Scores: An International Multi-Center Study.

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3. Ability of known colorectal cancer susceptibility SNPs to predict colorectal cancer risk: A cohort study within the UK Biobank.

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Review 5. Incorporating Colorectal Cancer Genetic Risk Assessment into Gastroenterology Practice.

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6. Smoking, Genetic Predisposition, and Colorectal Cancer Risk.

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7. The Impact of a Comprehensive Risk Prediction Model for Colorectal Cancer on a Population Screening Program.

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8. Polygenic risk prediction models for colorectal cancer: a systematic review.

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