Largest genome-wide study of lung cancer susceptibility conducted
University of Liverpool News Aug 05, 2017
A new study conducted by an international team of lung cancer researchers, including Professor John Field from the UniversityÂs Institute of Translational Medicine, have identified new genetic variants for lung cancer risk.
Genotyping is the process of determining differences in the genetic make–up (genotype) of an individual by examining the individualÂs DNA sequence.
By gathering genotype data from different studies around the world, through the use of a special research platform called OncoArray, researchers were able to increase the sample size for this study making it the largest one of its type in the world. The Liverpool Lung Project, funded by the Roy Castle Foundation, has made a major contribution to this international project.
Researchers examined the data to identify the genetic variants associated with lung cancer risk.
During the study, published in the journal Nature Genetics, more than 29,200 lung cancer cases and more than 56,000 samples taken from people without lung cancer (controls) were examined. Researchers identified 18 genetic variations that could make people more susceptible to lung cancer and also 10 new gene variations.
Professor John Field, Clinical Professor of Molecular Oncology and the Chief Investigator of the UK Lung Cancer Screening Trial, said: ÂThis study has identified several new variants for lung cancer risk that will translate into improved understanding of the mechanisms involved in lung cancer risk.
ÂSamples taken from the major Liverpool Lung Project, funded by the Roy Castle Foundation, was conducted by experts at the University of Liverpool, were used in this study. ÂThese results will help us to further improve the way we can screen for lung cancer in high risk individuals in the UK. Further studies will help in the targeting of specific genes to influencing lung cancer risk, smoking behaviour and smoking effects on brain biology.Â
The co–lead of the study was Christopher Amos, Chair and Professor of Biomedical Data Science, Professor of Community and Family Medicine, and Professor of Molecular and Systems Biology at DartmouthÂs Geisel School of Medicine, and interim Director and Associate Director for Population Sciences at DartmouthÂs Norris Cotton Cancer Centre. Of the study he said: ÂWhat is particularly exciting is the magnitude of the study along with the new findings of genes influencing lung cancer which have not previously been reported.
The paper is titled, ÂLarge–scale association analysis identifies new lung cancer susceptibility loci and heterogeneity in genetic susceptibility across histological subtypes.Â
Go to Original
Genotyping is the process of determining differences in the genetic make–up (genotype) of an individual by examining the individualÂs DNA sequence.
By gathering genotype data from different studies around the world, through the use of a special research platform called OncoArray, researchers were able to increase the sample size for this study making it the largest one of its type in the world. The Liverpool Lung Project, funded by the Roy Castle Foundation, has made a major contribution to this international project.
Researchers examined the data to identify the genetic variants associated with lung cancer risk.
During the study, published in the journal Nature Genetics, more than 29,200 lung cancer cases and more than 56,000 samples taken from people without lung cancer (controls) were examined. Researchers identified 18 genetic variations that could make people more susceptible to lung cancer and also 10 new gene variations.
Professor John Field, Clinical Professor of Molecular Oncology and the Chief Investigator of the UK Lung Cancer Screening Trial, said: ÂThis study has identified several new variants for lung cancer risk that will translate into improved understanding of the mechanisms involved in lung cancer risk.
ÂSamples taken from the major Liverpool Lung Project, funded by the Roy Castle Foundation, was conducted by experts at the University of Liverpool, were used in this study. ÂThese results will help us to further improve the way we can screen for lung cancer in high risk individuals in the UK. Further studies will help in the targeting of specific genes to influencing lung cancer risk, smoking behaviour and smoking effects on brain biology.Â
The co–lead of the study was Christopher Amos, Chair and Professor of Biomedical Data Science, Professor of Community and Family Medicine, and Professor of Molecular and Systems Biology at DartmouthÂs Geisel School of Medicine, and interim Director and Associate Director for Population Sciences at DartmouthÂs Norris Cotton Cancer Centre. Of the study he said: ÂWhat is particularly exciting is the magnitude of the study along with the new findings of genes influencing lung cancer which have not previously been reported.
The paper is titled, ÂLarge–scale association analysis identifies new lung cancer susceptibility loci and heterogeneity in genetic susceptibility across histological subtypes.Â
Only Doctors with an M3 India account can read this article. Sign up for free or login with your existing account.
4 reasons why Doctors love M3 India
-
Exclusive Write-ups & Webinars by KOLs
-
Daily Quiz by specialty -
Paid Market Research Surveys -
Case discussions, News & Journals' summaries
