Hemodynamic and electrocardiographic effects of magnesium sulfate in healthy dogs.

We investigated the effects of graded dosages of magnesium given i.v. to anesthetized dogs on blood pressure, cardiac output, and electrophysiology. Magnesium was infused at 0.12 mEq/kg/minute until ventricular fibrillation occurred naturally or was provoked by programmed electrical stimulation or until arrest of the sinuatrial node in 8 dogs. Plasma total magnesium concentrations doubled in 1 minute of that infusion rate, and a hemodynamically safe plasma concentration of 12.2 mEq/L was achieved after 16 minutes of infusion. Heart rate, inotropy, lusitropy, and cardiac output increased up to a cumulative infusion dosage of magnesium of 1.0-2.0 mEq/kg, which produced plasma magnesium concentrations of 8.5-12.2 mEq/L (n = 5). Above the cumulative infusion dosage, inotropy decreased and lusitropy increased until death occurred between cumulative infusion dosages of 5.9 mEq/kg and 10.9 mEq/kg. Arterial pressure and vascular resistance decreased, and PQ interval and QRS complex increased, in a dose-dependent fashion. The relationship between ionized and total magnesium was y = 0.624x - 0.542 (r2 = .986), where y is ionized and x is total magnesium in mEq/L in 3 dogs. In conclusion, a cumulative infusion dosage of 0.1-0.2 mEq/kg of magnesium may be given without changing hemodynamic parameters, but with higher cumulative infusion doses heart rate accelerates. Hemodynamic parameters except those related to blood pressure continued to increase to a cumulative infusion dosage of 2.0 mEq/kg. At higher cumulative infusion dosages dogs became hypotensive and the PQ interval was prolonged. However, dangerous arrhythmias were not provoked until a total dosage of 3.9 mEq/kg.