I. Richards, L. Miller, D. Solomon
Sep 21, 1990
Citations
0
Influential Citations
7
Citations
Quality indicators
Journal
European journal of pharmacology
Abstract
We examined the effects of a new anti-asthmatic drug, azelastine, and its principal metabolite, desmethylazelastine, on the in vitro electromechanical response of human airway smooth muscle during cholinergic stimulation. Membrane potential and isometric force were simultaneously measured using an intracellular microelectrode and a microforce transducer. Desmethylazelastine significantly suppressed acetylcholine-induced depolarization and contraction at 10(-6) M, whereas azelastine produced similar results at 10(-4) M, suggesting that the metabolite may be the principal compound acting upon the airway smooth muscle cell.