Reactivity of Equine Palmar Digital Arteries and Veins to Vasodilating Agents

Abstract

Palmar digital arteries and veins removed surgically from healthy horses under general anesthesia were cut into 4 mm vascular rings, suspended in tissue baths, and attached to force displacement transducers for continuous measurement of vascular tension. In vitro vascular responses were determined for acetylcholine, acepromazine, isoxsuprine hydrochloride (isoxsuprine), prostaglandin E₂ (PGE₂), and prostaglandin I₂ (prostacyclin). After preconstriction with norepinephrine hydrochloride (norepinephrine), or prostaglandin F₂ alpha (PGF₂ alpha), the concentrations needed to produce 50% maximum relaxation (EC₅₀) and the maximum percentage of relaxation were determined for each drug.Acetylcholine was the most potent arterial vasodilator (smallest EC₅₀ value) and PGE₂ was the least potent. Prostacyclin was the least potent venodilator (highest EC₅₀ value); there were no differences between acetylcholine, acepromazine, isoxsuprine, and PGE₂. Isoxsuprine produced greater arterial relaxation than all other agents. Isoxsuprine and acepromazine produced significantly greater venous relaxation than did acetylcholine and PGE₂. Prostacyclin produced minimal vasodilation of arteries or veins. Acepromazine and isoxsuprine relaxed the veins significantly more than the arteries. When PGF₂ alpha was used instead of norepinephrine to preconstrict the arteries and veins, the potency and effectiveness of acepromazine and isoxsuprine to produce vasodilation were significantly decreased. Results indicate that acepromazine and isoxsuprine can relax the equine digital vasculature but their effectiveness varies depending on the origin of the constriction.