A pharmacologic study on the histamine releasing effect of atracurium and other muscle relaxants in rat isolated ileum

Abstract

In this study, the effects of histamine, antihistamines (terfenadine and mepyramine), 5-hydroxytryptamine, and muscle relaxants, atracurium, vecuronium and gallamine, on the tone and contractility of rat ileum were studied and compared in vitro. The aim of the present investigation was to measure, pharmacologically, the histamine releasing effect of muscle relaxants, e.g. atracurium, vecuronium and gallamine, by comparing their contractile response in the absence and presence of antihistamines and comparing their mechanical responses with those produced by histamine and 5-hydroxytryptamine (5-HT). The results showed that the antihistamines, triludan (terfenadine) and mepyramine produced opposite effects in rat ileum. Terfenadine (0.1–20 μM) produced concentration-dependent contractions in the rat ileum, whereas mepyramine (0.1–10 μM) relaxed the muscle, e.g. by 1.2 g tension. Atracurium (0.5–500 μM), vecuronium (0.2–200 μM), and gallamine (0.1–7.0 μM) produced marked contractions (1.5–4.0 g tension) in rat ileum, and these contractions were markedly reduced by mepyramine (1.3 μM) or terfenadine (5 μM), implicating histamine release in the generation of these contractions. However, there was some residual contraction which was not blocked by mepyramine, but by 5-HT antagonist, methysergide (1 μM), indicating that a mechanism other than histamine release may be responsible for the residual contraction, i.e. release of other mediators such as 5-HT, prostaglandins, or calcium. 5-HT (0.5–500 μM) and histamine (0.5–500 μM) produced contractions in the rat ileum, but 5-HT was more effective than histamine in producing these contractions. Similarly, gall amine was more effective than atracurium and vecuronium in contracting the rat ileum. Since very high concentrations of muscle relaxants were used, it is suggested that in clinical concentrations, the histamine releasing effect of muscle relaxants was minimal, except that of gallamine, which may release histamine event at very low concentrations. The results are discussed in terms of pharmacologic and immunologic implications of drug reactions at the rat intestinal smooth muscle.