Eur Heart J Open. 2025 Dec 3;6(1):oeaf161. doi: 10.1093/ehjopen/oeaf161. eCollection 2026 Jan.
ABSTRACT
In vitro gene editing using isogenic pairs of human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) has demonstrated the feasibility of introducing or correcting specific pathogenic variants. These successes represent a key first step towards therapeutic genome editing for cardiomyopathies, showing that precise, variant-specific interventions are achievable. To translate in vitro findings to the clinic, it is essential to develop robust disease models that yield meaningful, translatable data. The next challenge is systematically identifying disease-causing variants amenable to gene editing with strong pre-clinical support. Therefore, we conducted a systematic search of published studies on isogenic hiPSC-CM pairs in cardiomyopathy research with specific criteria, including (likely) pathogenic variants causing cardiomyopathy, correction and/or introduction of variants, differentiation into CMs, and functional follow-up. We systematically assessed 785 papers and highlighted 101 studies meeting our inclusion criteria reporting 69 patients carrying 56 unique variants across 31 genes, most commonly MYH7, MYBPC3, and DMD. This expanded to 91 variants across 38 genes upon inclusion of the introduced variants in a donor line. However, reported clinical data were often incomplete, underscoring the need for standardized phenotypic documentation. We reveal a lack of patient details, which creates an incomplete picture of underlying disease variables that hinder the design of targeted personalized treatments. Omitted key clinical data can lead to misinterpretations or overlooked variables that impact treatment outcomes. This systematic review integrates current evidence from successful in vitro studies using isogenic hiPSC-CM models and proposes a reporting framework for variant prioritization and the rigorous application of isogenic controls in cardiomyopathy research.
PMID:41536960 | PMC:PMC12796640 | DOI:10.1093/ehjopen/oeaf161