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Bridge: a GUI package for genetic risk prediction

Gorde:
Argitaratua izan da:BMC Genetics vol. 14 (2013), p. n/a
Egile nagusia: Ye, Chengyin
Beste egile batzuk: Lu, Qing
Argitaratua:
Springer Nature B.V.
Gaiak:
Michigan State University
Algorithms
Area Under Curve
Crohn Disease > etiology
Crohn Disease > genetics
Humans
Models, Genetic
Polymorphism, Single Nucleotide
ROC Curve
Risk Factors
Software
User-Computer Interface
Studies
Child abuse & neglect
Accuracy
Disease
Programming languages
Epidemiology
User interface
Operating systems
Mortality
Sarrera elektronikoa:Citation/Abstract
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Laburpena:  Doc number: 122 Abstract Background: Risk prediction models capitalizing on genetic and environmental information hold great promise for individualized disease prediction and prevention. Nevertheless, linking the genetic and environmental risk predictors into a useful risk prediction model remains a great challenge. To facilitate risk prediction analyses, we have developed a graphical user interface package, Bridge . Results: The package is built for both designing and analyzing a risk prediction model. In the design stage, it provides an estimated classification accuracy of the model using essential genetic and environmental information gained from public resources and/or previous studies, and determines the sample size required to verify this accuracy. In the analysis stage, it adopts a robust and powerful algorithm to form the risk prediction model. Conclusions: The package is developed based on the optimality theory of the likelihood ratio and therefore theoretically could form a model with high performance. It can be used to handle a relatively large number of genetic and environmental predictors, with consideration of their possible interactions, and so is particularly useful for studying risk prediction models for common complex diseases.   Risk prediction models capitalizing on genetic and environmental information hold great promise for individualized disease prediction and prevention. Nevertheless, linking the genetic and environmental risk predictors into a useful risk prediction model remains a great challenge. To facilitate risk prediction analyses, we have developed a graphical user interface package, Bridge. The package is built for both designing and analyzing a risk prediction model. In the design stage, it provides an estimated classification accuracy of the model using essential genetic and environmental information gained from public resources and/or previous studies, and determines the sample size required to verify this accuracy. In the analysis stage, it adopts a robust and powerful algorithm to form the risk prediction model. The package is developed based on the optimality theory of the likelihood ratio and therefore theoretically could form a model with high performance. It can be used to handle a relatively large number of genetic and environmental predictors, with consideration of their possible interactions, and so is particularly useful for studying risk prediction models for common complex diseases.
ISSN:1471-2156
2730-6844
DOI:10.1186/1471-2156-14-122
Baliabidea:Health & Medical Collection