Development of appropriate fatty acid formulations to raise the contractility of constructed myocardial tissues

hiPSC-CMs metabolize similar types of fatty acid to those consumed by rat-CMs and porcine hearts. Furthermore, the addition of these fatty acids to the culture medium increased energy production by rat-CMs and hiPSC-CMs and enhanced the contractility of myocardial tissue generated from hiPSC-CMs. These findings suggest that the addition of fatty acids to the culture medium stimulates aerobic energy production by cardiomyocytes through β-oxidation. Since cardiomyocytes cultured in standard media rely primarily on anaerobic glucose metabolism and remain in an immature state, further research is merited to establish whether the addition of fatty acids to the culture medium would improve the energy-producing capacity and maturity of hiPSC-CMs and cardiac tissue constructed from these cells. It is possible that optimizing the metabolism of cultured cardiomyocytes, which require high energy production to sustain their contractile function, will improve the properties of hiPSC-CM-derived tissue, allowing it to be better utilized for disease modeling, drug screening and regenerative therapies for heart failure.