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  • Title: Neuromuscular and vagal blocking actions of pancuronium bromide, its metabolites, and vecuronium bromide (Org NC45) and its potential metabolites in the anaesthetized cat.
    Author: Marshall IG, Gibb AJ, Durant NN.
    Journal: Br J Anaesth; 1983 Aug; 55(8):703-14. PubMed ID: 6136285.
    Abstract:
    The neuromuscular and cardiac vagus blocking actions of pancuronium, vecuronium (Org NC45) and their respective potential hydroxy metabolites have been studied in the chloralose-anaesthetized cat. Pancuronium was three times more potent as a neuromuscular blocker than its 3-hydroxy derivative, 20 times more potent than the 17-hydroxy derivative and 45 times more potent than the 3,17-dihydroxy derivative. The vagal:neuromuscular block ratios measured at 50% inhibition for these compounds were pancuronium 3.0, 3-hydroxy derivative 6.4, 17-hydroxy derivative 1.1 and 3,17-dihydroxy derivative 0.36 (a value greater than unity indicated greater potency at the neuromuscular junction). Vecuronium was 1.4 times more potent than its 3-hydroxy derivative, 24 times more potent than the 17-hydroxy derivative and 72 times more potent than the 3,17-dihydroxy derivative as a neuromuscular blocker. The vagal:neuromuscular block ratios were vecuronium 79.8, 3-hydroxy derivative 40.4, 17-hydroxy derivative 0.85 and 3,17-dihydroxy derivative 0.15. The 3-hydroxy derivative of vecuronium, the most likely first metabolite of vecuronium, thus possessed only slightly less neuromuscular blocking potency than vecuronium, coupled with a high safety margin between neuromuscular and vagal blocking doses. In addition, the time-course of its action was not different from that of vecuronium. Thus, it is concluded that this potential metabolite is unlikely to give rise to tachycardia in man. It is unlikely that the 17-hydroxy and 3,17-dihydroxy derivatives of vecuronium would be produced in sufficiently great quantities by metabolism from vecuronium to result in either tachycardia or residual neuromuscular blockade.
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