Taurine

Human embryonic stem cell-derived cardiomyocytes can mobilize 1,4,5-inositol trisphosphate-operated [Ca2+]i stores

Technology / Regeneration / Magnetic Resonance Imaging / Calcium / Treatment Outcome / Creatine / Human embryonic stem cell / Stem Cell / Regenerative Medicine / Multidisciplinary / Extracellular Matrix / Nature / Patch-clamp and imaging techniques / Stem Cell Transplantation / Signal Transduction / Biological Sciences / Heart Failure / Cell therapy / Cell line / Cell Differentiation / Humans / Insulin / Mice / Left Ventricular Assist Device / Animals / Male / Heart / Acute Myocardial Infarction / Embryonic Stem Cells / Cell Transplantation / Differentiation / Phenotype / Clinical Sciences / L-carnitine / Rats / Myocardial Infarction / Myocardium / Time Factors / Circulation / Endothelin-1 / Reproducibility of Results / Biological markers / Taurine / Rat Model / Cell Proliferation / Ventricular Remodeling / Left Ventricular Function / Angiotensin II / Action Potentials / Ischemia–reperfusion / Cell Survival / Control Group / Injections / Creatine / Human embryonic stem cell / Stem Cell / Regenerative Medicine / Multidisciplinary / Extracellular Matrix / Nature / Patch-clamp and imaging techniques / Stem Cell Transplantation / Signal Transduction / Biological Sciences / Heart Failure / Cell therapy / Cell line / Cell Differentiation / Humans / Insulin / Mice / Left Ventricular Assist Device / Animals / Male / Heart / Acute Myocardial Infarction / Embryonic Stem Cells / Cell Transplantation / Differentiation / Phenotype / Clinical Sciences / L-carnitine / Rats / Myocardial Infarction / Myocardium / Time Factors / Circulation / Endothelin-1 / Reproducibility of Results / Biological markers / Taurine / Rat Model / Cell Proliferation / Ventricular Remodeling / Left Ventricular Function / Angiotensin II / Action Potentials / Ischemia–reperfusion / Cell Survival / Control Group / Injections