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Developing and Optimizing Innovative Tools to Address Familial Hypercholesterolemia Underdiagnosis

Gemme Campbell‐Salome, Laney K. Jones, Max Masnick, Nephi Walton, Catherine D. Ahmed, Adam H. Buchanan, Andrew Brangan, Edward D. Esplin, David Kann, Ilene Ladd, Melissa Kelly, Iris Kindt, H. Lester Kirchner, Mary P. McGowan, Megan McMinn, Ana Morales, Kelly D. Myers, Matthew T. Oetjens, Alanna Kulchak Rahm, Tara Schmidlen, Amanda Sheldon, Emilie Simmons, Moran Snir, Natasha T. Strande, Nicole Walters, Katherine Wilemon, Marc S. Williams, Samuel S. Gidding, Amy C. Sturm

2021Circulation Genomic and Precision Medicine59 citationsDOIOpen Access PDF

Abstract

Background: Familial hypercholesterolemia (FH) is the most common cardiovascular genetic disorder and, if left untreated, is associated with increased risk of premature atherosclerotic cardiovascular disease, the leading cause of preventable death in the United States. Although FH is common, fatal, and treatable, it is underdiagnosed and undertreated due to a lack of systematic methods to identify individuals with FH and limited uptake of cascade testing. Methods and Results: This mixed-method, multi-stage study will optimize, test, and implement innovative approaches for both FH identification and cascade testing in 3 aims. To improve identification of individuals with FH, in Aim 1, we will compare and refine automated phenotype-based and genomic approaches to identify individuals likely to have FH. To improve cascade testing uptake for at-risk individuals, in Aim 2, we will use a patient-centered design thinking process to optimize and develop novel, active family communication methods. Using a prospective, observational pragmatic trial, we will assess uptake and effectiveness of each family communication method on cascade testing. Guided by an implementation science framework, in Aim 3, we will develop a comprehensive guide to identify individuals with FH. Using the Conceptual Model for Implementation Research, we will evaluate implementation outcomes including feasibility, acceptability, and perceived sustainability as well as health outcomes related to the optimized methods and tools developed in Aims 1 and 2. Conclusions: Data generated from this study will address barriers and gaps in care related to underdiagnosis of FH by developing and optimizing tools to improve FH identification and cascade testing.

Topics & Concepts

Identification (biology)MedicineObservational studyGenetic testingDiseaseProcess (computing)Risk analysis (engineering)Computer scienceInternal medicineOperating systemBotanyBiologyLipoproteins and Cardiovascular HealthHealth Systems, Economic Evaluations, Quality of LifePharmaceutical Economics and Policy
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