Polygenic Risk Scores: Promising but Not Yet Ready for Clinical Diagnostics
This review assesses the current state of polygenic risk scores (PRS) as potential clinical instruments for disease prediction. While GWAS-derived PRS reliably associate with disease status in research settings, their discriminative ability remains low for population-level screening. The authors identify more promising near-term applications in higher-prior-probability settings · early diagnosis and treatment stratification. Key challenges include poor transferability to non-European ancestries and difficulties translating percentile scores into actionable lifetime risk estimates.
The original study
Polygenic risk scores: from research tools to clinical instruments.
- Authors
- Lewis CM, Vassos E
- Journal
- Genome medicine
- Type
- Journal Article, Research Support, Non-U.S. Gov't, Review
- PMID
- 32423490
Original abstract
Genome-wide association studies have shown unequivocally that common complex disorders have a polygenic genetic architecture and have enabled researchers to identify genetic variants associated with diseases. These variants can be combined into a polygenic risk score that captures part of an individual's susceptibility to diseases. Polygenic risk scores have been widely applied in research studies, confirming the association between the scores and disease status, but their clinical utility has yet to be established. Polygenic risk scores may be used to estimate an individual's lifetime genetic risk of disease, but the current discriminative ability is low in the general population. Clinical implementation of polygenic risk score (PRS) may be useful in cohorts where there is a higher prior probability of disease, for example, in early stages of diseases to assist in diagnosis or to inform treatment choices. Important considerations are the weaker evidence base in application to non-European ancestry and the challenges in translating an individual's PRS from a percentile of a normal distribution to a lifetime disease risk. In this review, we consider how PRS may be informative at different points in the disease trajectory giving examples of progress in the field and discussing obstacles that need to be addressed before clinical implementation.