Polygenic Risk Scores

Introduction to Polygenic Risk Scores

Genetic tests to determine risk for monogenic diseases (such as cystic fibrosis or Huntington’s Disease) that are caused by a single mutation have been in use for over a decade. However, determining risk for complex diseases, which can be caused by hundreds to thousands of genetic variants that act in conjunction with environmental factors, remains challenging.

Polygenic risk scores (also known as polygenic scores and genetic risk scores; PRS) represent the total number of genetic variants that an individual has to assess their heritable risk of developing a particular disease. While there is still much more work needed to realize the potential for polygenic risk scores in precision medicine, polygenic risk scores have the potential to impact complex disease research and healthcare in a variety of ways:

  • Assess an individual's risk of disease
  • Analyze populations based on disease risk
  • Select samples within cohorts for further analysis
What Are Polygenic Risk Scores?

What Are Polygenic Risk Scores?

How to Calculate Polygenic Risk Scores

Explore how polygenic risk scores are developed, from design to validation, and learn which additional reporting and quality aspects to consider for your research.

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Learn how to calculate PRS
Population Stratification

Population Stratification

Polygenic risk scores can provide researchers valuable insight into how predictive biomarkers for a specific complex disease can stratify populations according to risk. A study published by Khera, et al. in 2018 examined genome-wide polygenic risk scores in a population of over 250,000 individuals in the UK Biobank.1 They found 8% of the population tested had polygenic risk scores that conferred ≥ threefold increased risk for coronary artery disease.

Learn More About PRSs from Leading Researchers
Learn More About PRSs from Leading Researchers

In the first chapter of this series, experts explain what a polygenic risk score is and how they’re relevant to complex diseases.

Discover Key Considerations for Developing PRS
Discover Key Considerations for Developing PRS

Geneticists share key considerations researchers should think about when developing a polygenic risk score.

Explore Future Uses for Polygenic Risk Scores
Explore Future Uses for Polygenic Risk Scores

Learn more about future uses for polygenic risk scores, from stratifying populations to early intervention and preventative medicine.

Explore More About Polygenic Risk Scores
Explore More About Polygenic Risk Scores

Watch leading geneticists and professors share their insights about how polygenic risk scores can be used to predict an individual’s risk of complex disease.

Featured Polygenic Risk Score Content

Polygenic Risk Scores Could Give Physicians New Tools for Diagnosis and Treatment

Researchers perform genome-wide association studies to identify disease-associated DNA risk loci and develop scores for clinical validation.

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A Guide to Polygenic Risk Scores

Polygenic risk scores summarize genome-wide genotype data into a single number that represents genetic liability to a trait. Read this guide to learn more.

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Webinar: Polygenic Risk Scoring for Common Complex Disease

In this on-demand webinar, Dr. Estelle Giraud provides an overview on Polygenic Risk Scores (PRS), why they are clinically relevant and how they may be used in the future.

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Pharmacogenomics

Pharmacogenomics Studies

Similar to polygenic risk scores, the field of pharmacogenomics benefits from genome-wide association studies to predict an individual’s response or ability to metabolize a drug or therapeutic. These studies provide valuable insights and have the potential to allow for tailored medications and dosages for patients.

Learn more about pharmacogenomics

References
  1. Khera AV, Chaffin MC, Aragam KG, et al. Genome-wide polygenic scores for common diseases identify individuals with risk equivalent to monogenic mutations. Nat Genetics. 2018;50:1219-1224.

Additional Resources

Genome-Wide Association Studies

Learn how GWAS can find genetic variants for traits or disease through high-throughput technologies.

Genotyping Methods

Read about genotyping methods to help you better understand diseases at the molecular level.

Single Nucleotide Polymorphism and Variant Genotyping

Explore how SNP and SNV can provide insights into disease or important phenotypes.

Whole-Genome Sequencing

Read more about how a comprehensive view of the genome enables efficient discovery of important variants and novel genome assembly.

Next-Generation Sequencing

Discover how the power of next-generation sequencing (NGS) can reveal genomic and transcriptomic information in a scalable and high-throughput format.