Pinacidil-induced opening, like glibenclamide-induced closure of cardiac KATP channels, protects cardiac function against ischemia in isolated, working, erythrocyte perfused rat hearts.

Glibenclamide-induced closure of ATP-dependent potassium (KATP) channels decreases coronary blood flow during normoxic and post-ischemic conditions. We have found that post-ischemic cardiac function is improved after glibenclamide treatment. Our theory was that this is a result of higher intracellular calcium concentrations due to reduction in ischemia-mediated hyperpolarization of the myocardial cell membrane.

The role of myocardial KATP-channel blockade in the protective effects of glibenclamide against ischaemia in the rat heart.

Glibenclamide preserves postischaemic myocardial function in the isolated, erythrocyte perfused, working rat heart model. This study addresses the possible involvement of KATP channels in this beneficial action of glibenclamide. We hypothesized that if glibenclamide improved postischaemic cardiac function by blocking of KATP channels, opening of these KATP channels should result in the opposite, namely detrimental effects on postischaemic heart function.

Physiological insulin concentrations protect against ischemia-induced loss of cardiac function in rats.

This study determined whether insulin at pre- (fasting) and post-prandial concentrations increases coronary blood flow and improves cardiac function after acute ischemia during a situation of myocardial stunning. The experiments were performed using an isolated, erythrocyte perfused, working rat heart model. To the perfusate we added erythrocytes and 1.

Glibenclamide attenuates ischemia-induced acidosis and loss of cardiac function in rats.

Previous research has shown that the sulfonylurea derivative glibenclamide may improve post-ischemic cardiac functional recovery. Although K(ATP) channel blockade is a possible explanation for this observation, alternative mechanisms exist. Therefore, we simultaneously recorded cardiac function and the intracellular concentration of ATP, phosphocreatine, Pi and pH before and after ischemia in the presence of glibenclamide or vehicle.