Genetic testing in early-onset atrial fibrillation.
Shinwan KanySean J JurgensJoel T RämöIngrid E ChristophersenMichiel RienstraMina K ChungMorten S OlesenMichael J AckermanElizabeth M McNallyChristopher SemsarianRenate B SchnabelArthur A M WildeEmelia J BenjaminHeidi L RehmPaulus F KirchhofConnie R BezzinaDan M RodenM Benjamin ShoemakerPatrick T EllinorPublished in: European heart journal (2024)
Atrial fibrillation (AF) is a globally prevalent cardiac arrhythmia with significant genetic underpinnings, as highlighted by recent large-scale genetic studies. A prominent clinical and genetic overlap exists between AF, heritable ventricular cardiomyopathies, and arrhythmia syndromes, underlining the potential of AF as an early indicator of severe ventricular disease in younger individuals. Indeed, several recent studies have demonstrated meaningful yields of rare pathogenic variants among early-onset AF patients (∼4%-11%), most notably for cardiomyopathy genes in which rare variants are considered clinically actionable. Genetic testing thus presents a promising opportunity to identify monogenetic defects linked to AF and inherited cardiac conditions, such as cardiomyopathy, and may contribute to prognosis and management in early-onset AF patients. A first step towards recognizing this monogenic contribution was taken with the Class IIb recommendation for genetic testing in AF patients aged 45 years or younger by the 2023 American College of Cardiology/American Heart Association guidelines for AF. By identifying pathogenic genetic variants known to underlie inherited cardiomyopathies and arrhythmia syndromes, a personalized care pathway can be developed, encompassing more tailored screening, cascade testing, and potentially genotype-informed prognosis and preventive measures. However, this can only be ensured by frameworks that are developed and supported by all stakeholders. Ambiguity in test results such as variants of uncertain significance remain a major challenge and as many as ∼60% of people with early-onset AF might carry such variants. Patient education (including pretest counselling), training of genetic teams, selection of high-confidence genes, and careful reporting are strategies to mitigate this. Further challenges to implementation include financial barriers, insurability issues, workforce limitations, and the need for standardized definitions in a fast-moving field. Moreover, the prevailing genetic evidence largely rests on European descent populations, underscoring the need for diverse research cohorts and international collaboration. Embracing these challenges and the potential of genetic testing may improve AF care. However, further research-mechanistic, translational, and clinical-is urgently needed.
Keyphrases
- early onset
- atrial fibrillation
- catheter ablation
- late onset
- heart failure
- copy number
- oral anticoagulants
- left atrial
- end stage renal disease
- genome wide
- healthcare
- left atrial appendage
- ejection fraction
- newly diagnosed
- left ventricular
- emergency department
- chronic kidney disease
- prognostic factors
- quality improvement
- direct oral anticoagulants
- percutaneous coronary intervention
- palliative care
- primary care
- transcription factor
- young adults
- gene expression
- affordable care act
- health insurance
- clinical practice