Abstract

Hypertrophic and familial dilated cardiomyopathies are arguably the most common forms of inherited myocardial dysfunction. Both disease states result in deterioration of cardiac function and quality of life as a consequence of extensive remodelling of the chamber walls.Here we use a novel technique SPontaneous Oscillatory Contractions - or SPOCs to assess changes in contraction and relaxation phases using a range of explanted human heart samples. We examine left ventricle (LV) samples from: (1) patients with hypertrophic cardiomyopathy (HCM); (2) patients with familial dilated cardiomyopathy (FDCM); and (3) and aged-matched non-failing donors. The SPOC parameters of interest are: (i) SPOC amplitudes; (ii) the rates of lengthening (relaxation); (iii) the rates of shortening (contraction); and (iv) their respective SPOC periods.On average, samples from HCM patients exhibited significantly slower rates of lengthening and shorter SPOC periods, while FDCM patients displayed significantly longer lengthening and shortening SPOC periods, compared to donors. Impaired shortening is indicative of diastolic dysfunction while impaired shortening indicates a systolic dysfunction. We observed extensive changes in SPOC parameters that were mutation-specific. The MYBPC3 mutation exhibited shorter SPOC period and faster shortening rates while the samples with the TNNI3 mutation had a higher amplitude and slower shortening rates. Their SPOC data are consistent with the relatively mild phenotype associated with their respective mutations. Furthermore, SPOC is also sensitive to the progressive deterioration in LV ejection fraction.SPOC analysis is a promising tool that provides a quantitative insights into cardiac contractility. It may allow us to unravel other significant differences between familial cardiomyopathies and donor hearts. The SPOC data agree well with patient clinical phenotypes.

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