Anesthetic management of heart failure patients undergoing noncardiac surgery remains challenging due to cardiac suppressive properties of anesthetics. Due to varying electrophysiological properties, small and large animals are not good models for studying human myocardial anesthetic responses. Here we use hypertrophic (HCM), dilated (DCM) and healthy human induced pluripotent stem cells derived cardiomyocytes (hiPSC-CMs) to evaluate the cardiac suppression of propofol and etomidate. We demonstrate that propofol and etomidate act through GABAA receptors and contractile inhibition can occur without cell-cell junction. At supraphysiological dosage (100mM), we discovered that cardiac suppression induced by etomidate is reversible while propofol is not. Using transcriptome profiling, we uncover that etomidate was capable of inducing autophagy, likely through induction of cytosolic calcium. Lack of autophagy induction in propofol treated cardiomyocytes were associated with increased apoptosis. Together, we provide the robustness of using hiPSC-CMs as an in vitro cardiotoxicity platform for anesthetics. To delineate how etomidate confers cardioprotection during contraction inhibition, we performed transcriptome profiling on DCM hiPSC-CMs treated with either 10 μM propofol, 10 μM etomidate or DMSO control.