1988
DOI: 10.1139/y88-035
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Insulin and the resting potential of hypoxic substrate-deprived myocardium

Abstract: the resting potential of hypoxic substrate-deprived myocardium. Can. I. Physiol. Pharmacol. 66: 202-206. Insulin stimulates ionic transport by the sodium pump and induces hyperpolarization in skeletal and cardiac muscle among other cells. The insulin-induced hyperpolarization in most cases cats be inhibited by exposure to cardiac glycosides or metabolic inhibition. However, extracellular accumulation of K ions leaking from hypoxic cells in superfused preparations may distort the effects of insulin on the resti… Show more

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Cited by 4 publications
(1 citation statement)
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“…Acute stimulation of the Na + –K + ‐ATPase by insulin increases the intracellular uptake of K + and produce hypokalaemia. Insulin has been reported to stimulate ionic transport by the sodium pump and induce hyperpolarization in skeletal and cardiac muscle among other cells (Ruiz‐Ceretti, DeLorenzi, Lafond & Chartier, 1988). Insulin, at low doses, can be an effective antiarrhythmic agent against ouabain‐induced arrhythmias in mice (Yazar et al.…”
Section: Katp Channels and Potassium Currentsmentioning
confidence: 99%
“…Acute stimulation of the Na + –K + ‐ATPase by insulin increases the intracellular uptake of K + and produce hypokalaemia. Insulin has been reported to stimulate ionic transport by the sodium pump and induce hyperpolarization in skeletal and cardiac muscle among other cells (Ruiz‐Ceretti, DeLorenzi, Lafond & Chartier, 1988). Insulin, at low doses, can be an effective antiarrhythmic agent against ouabain‐induced arrhythmias in mice (Yazar et al.…”
Section: Katp Channels and Potassium Currentsmentioning
confidence: 99%