The landscape of breast cancer prevention and personalized medicine has shifted dramatically with the release of groundbreaking guidance on the use of polygenic risk scores (PRSs). This influential clinical guidance, which emerged from an international expert group, marks a pivotal moment in how healthcare systems can approach breast cancer susceptibility and prevent its onset among women. Published in the reputable journal Cancers, this guidance sets forth a detailed framework that delineates the effective integration of PRS testing into routine healthcare, thereby paving the way for more personalized and targeted strategies in breast cancer detection and prevention.
Polygenic risk scores are innovative genomic tools that assess an individual’s inherent susceptibility to breast cancer by aggregating the effects of numerous prevalent genetic variants. Through a sophisticated analysis of these genetic markers, PRSs offer a nuanced stratification of risk among women, significantly contributing to the early identification of those who are at elevated risk of developing breast cancer. By employing PRSs, healthcare providers can create tailored screening regimens and preventive measures uniquely suited to each individual, focusing on high-risk populations before the manifestation of clinical symptoms.
Despite the extensive research on polygenic risk scores and their growing prominence in predictive medicine discussions, a void existed in the form of standardized clinical guidance on their application in healthcare settings. The recent publication by this expert group seeks to fill this gap, defining actionable strategies that can be readily integrated into clinical practice. Dr. Peeter Padrik, the lead author and an oncologist at Tartu University Hospital, has emphasized the importance of this guidance as it empowers healthcare professionals to provide proactive and personalized preventative measures for women identified as being at higher risk.
The interplay between PRSs and existing genetic testing methodologies is intricately explored in the guidance. Professor Gareth Evans, who holds the position of Senior Author and is a Professor of Medical Genetics at the University of Manchester, points out that PRSs serve a complementary role in identifying risks among women lacking specific pathogenic genetic mutations, such as those found in BRCA1 or BRCA2 genes. The availability of this guidance introduces a structured approach for healthcare systems to utilize PRS information in a way that sharpens the focus and efficacy of breast cancer prevention and screening efforts.
In detailing the clinical applications of PRS testing, the guidance specifies relevant scenarios in which these evaluations can be employed. This includes the assessment of healthy women, regardless of whether they possess a family history of breast cancer, screening in hereditary cancer clinics, and the integration of PRSs into public health initiatives targeting population-wide risk assessments. Furthermore, the guidance illustrates how PRS results can be interpreted alongside other established risk factors through well-regarded prediction models, such as CanRisk and Tyrer–Cuzick, ultimately enhancing the precision of risk evaluations.
One of the hallmarks of this guidance is its alignment with existing national protocols and recommendations across different countries. It harmonizes PRS testing methods with established guidelines such as those from the UK’s National Institute for Health and Care Excellence (NICE), as well as practices observed in Germany, Sweden, Norway, Portugal, and Estonia. This global perspective ensures that the recommendations are applicable across diverse healthcare systems, promoting methodical and uniform implementation of PRS testing in preventive care.
The relevance and practical aspects of regulation are also key components incorporated into this guidance. The publication highlights the importance of adhering to compliance standards set by the EU In Vitro Diagnostic Medical Devices Regulation (IVDR), which governs the use of diagnostic tools across Europe. Additionally, the authors stress the necessity of ensuring equitable access to PRS testing and the performance of these protocols amongst various demographic and socioeconomic groups to guarantee that the benefits of personalized medicine in breast cancer risk assessment are universally experienced.
From the vantage point of clinical genetics, the inclusion of PRSs in risk assessment frameworks signifies an advancement in preventive healthcare. Dr. Sander Pajusalu, a clinical geneticist and Head of the Genetics and Personalised Medicine Clinic at Tartu University Hospital, has lauded the guidance for making genomic risk assessment a staple in preventive care. He asserts that polygenic risk scores extend the capacity for evaluating genetic predisposition to breast cancer, thereby facilitating the precise allocation of preventive strategies, such as mammography screening, to those in greatest need.
The guidance also addresses previously voiced concerns raised by the American College of Medical Genetics and Genomics (ACMG) regarding the lack of clinical frameworks governing the real-world use of PRSs. By outlining distinct clinical scenarios and laying the groundwork for practical applications, the authors provide a responsible and evidence-driven roadmap for the integration of polygenic risk scores in global healthcare systems. This clearly defined approach not only enhances the application of genomic tools in predicting disease risk but also encourages ongoing dialogue among clinicians regarding these emerging methodologies.
The collaborative effort behind the development of this guidance involved numerous researchers and clinicians engaged in the BRIGHT and AnteNOR research projects. These initiatives have been pivotal in advancing the understanding of PRS testing in breast cancer prevention, highlighting the commitment of interdisciplinary teams spanning the United Kingdom, Norway, Sweden, Portugal, and Estonia. The culmination of their combined expertise is reflected in the comprehensive nature of the guidance as it evolves the standard approach towards breast cancer risk assessment.
In conclusion, the introduction of clinical guidance for the practical implementation of polygenic risk scores in breast cancer prevention signifies a transformative leap for personalized medicine. This publication not only bridges a critical gap in existing healthcare frameworks but also fosters a proactive approach to disease prevention that promises to improve outcomes for women at risk of breast cancer. As the healthcare community embraces these recommendations, we may be on the cusp of a new era of personalized preventive care that fundamentally alters the trajectory of breast cancer management on a global scale.
Subject of Research: People
Article Title: Guidance for the Clinical Use of the Breast Cancer Polygenic Risk Scores
News Publication Date: 21-Mar-2025
Web References: DOI Link
References: Cancers Journal
Image Credits: N/A
Keywords: breast cancer, polygenic risk scores, clinical guidance, personalized medicine, preventive care, genetic testing, healthcare integration, risk assessment
Tags: breast cancer prevention guidelinesearly detection strategies for breast cancerelevating breast cancer risk stratificationgenetic susceptibility to breast cancergenomic tools for cancer risk assessmentinnovative approaches to cancer preventionintegrating PRS into routine healthcareinternational expert recommendations on PRSpersonalized medicine for breast cancerpolygenic risk scores in healthcaretargeted breast cancer screening protocolswomen’s health and breast cancer