Owing to the recognition of previously unknown pathogenic gene variants and reclassification of longer-known variants, gene distribution in patients with hypertrophic cardiomyopathy (HCM) is ever-chan Show more
Owing to the recognition of previously unknown pathogenic gene variants and reclassification of longer-known variants, gene distribution in patients with hypertrophic cardiomyopathy (HCM) is ever-changing. Conflicting data make the role of genotype in risk stratification unclear. We evaluated genotype distribution and genotype-phenotype correlations in all adult patients with HCM seen at our HCM Center of Excellence from March 31, 2010, to April 30, 2023. We also evaluated a composite outcome, including all-cause mortality, stroke, implantable cardioverter-defibrillator placement, heart failure hospitalization, left ventricular assist device implantation, heart transplantation, septal myectomy, and alcohol septal ablation, based on genotype status. All-cause mortality was separately analyzed. Of 827 patients with HCM, genotyping was completed in 754 (91.2 %). We identified 202 (27 %) genotype-positive (Gen-P), 163 (22 %) variant of unknown significance (VUS), and 389 (51 %) genotype-negative (Gen-N) patients. Mean ages were 47, 57, and 58 years, respectively. The most common gene implicated was MYBPC3 (63 %). More patients were on optimal medical treatment after following up with our HCM center. Electrocardiographic, Holter, echocardiographic, and cardiac magnetic resonance imaging characteristics differed based on genotype status. The composite outcome was worse in Gen-P than Gen-N (HR 1.84, p<0.001). Although analysis of all-cause mortality showed survival was different for Gen-P and VUS patients than for Gen-N patients, this difference was not statistically significant. MYBPC3 was the most common gene implicated. Outcomes were worse in Gen-P patients. Centers of Excellence play an important role in the optimal medical management of patients with HCM. Show less
Over 1,500 gene mutations are known to cause hypertrophic cardiomyopathy (HCM). Previous studies suggest that cardiac β-myosin heavy chain (MYH7) gene mutations are commonly associated with a more sev Show more
Over 1,500 gene mutations are known to cause hypertrophic cardiomyopathy (HCM). Previous studies suggest that cardiac β-myosin heavy chain (MYH7) gene mutations are commonly associated with a more severe phenotype, compared to cardiac myosin binding protein-C (MYBPC3) gene mutations with milder phenotype, incomplete penetrance and later age of onset. Compound mutations can worsen the phenotype. This study aimed to validate these comparative differences in a large cohort of individuals and families with HCM. We performed genome-phenome correlation among 80 symptomatic HCM patients, 35 asymptomatic carriers and 35 non-carriers, using an 18-gene clinical diagnostic HCM panel. A total of 125 mutations were identified in 14 genes. MYBPC3 and MYH7 mutations contributed to 50.0% and 24.4% of the HCM patients, respectively, suggesting that MYBPC3 mutations were the most frequent cause of HCM in our cohort. Double mutations were found in only nine HCM patients (7.8%) who were phenotypically indistinguishable from single-mutation carriers. Comparisons of clinical parameters of MYBPC3 and MYH7 mutants were not statistically significant, but asymptomatic carriers had high left ventricular ejection fraction and diastolic dysfunction when compared to non-carriers. The presence of double mutations increases the risk for symptomatic HCM with no change in severity, as determined in this study subset. The pathologic effects of MYBPC3 and MYH7 were found to be independent of gene mutation location. Furthermore, HCM pathology is independent of protein domain disruption in both MYBPC3 and MYH7. These data provide evidence that MYBPC3 mutations constitute the preeminent cause of HCM and that they are phenotypically indistinguishable from HCM caused by MYH7 mutations. Show less