Interaction of doxacurium with cholinesterase not clinically relevent .neuromuscular non depolarising blocking drug, benzylisoquinolines resembling atracurium, benzylisoquinolinium diester. Bis quaternary
The pharmacokinetics of 6 new neuromuscular blocking drugs are described. These are the aminosteroids pipecuronium bromide, rocuronium bromide and rapacuronium bromide (ORG-9487) and the benzylisoquinolinium diesters doxacurium chloride, mivacurium chloride and cisatracurium besilate. In healthy individuals, these drugs all have similar volumes of distribution. Their pharmacokinetics are influenced little by age or anaesthetic technique, but renal and hepatic disease may significantly alter their distribution and elimination. Pipecuronium resembles pancuronium in its pharmacokinetic and neuromuscular blocking profile, but is devoid of cardiovascular effects. It has a low clearance (0.16 L/h/kg) and long elimination half-life (120 minutes). It is largely eliminated through the kidney. Rocuronium has a similar pharmacokinetic profile to vecuronium but its onset of action is more rapid and duration of action slightly shorter. Its clearance (0.27 L/h/kg) is intermediate between those of pipecuronium and rapacuronium, but its elimination half-life is long (83 minutes). The pharmacokinetics of rocuronium are altered by renal and hepatic disease; the latter probably has the more significant effect. Rapacuronium has a rapid onset, and a bolus dose has a short duration of action. It has a high clearance (0.59 L/h/kg) but a long elimination half-life (112 minutes). Doxacurium has a pharmacokinetic and pharmacodynamic profile similar to pipecuronium. It has a high potency and is devoid of cardiovascular effects. In adults, it has a low clearance (0.15 L/h/kg) and long elimination half-life (87 minutes). Mivacurium is a mixture of 3 stereoisomers. It has a short to intermediate duration of action. It is hydrolysed by plasma cholinesterase. Inherited or acquired alterations in plasma cholinesterase activity are associated with changes in the pharmacokinetics and time course of action of mivacurium. The 2 active isomers (cis-trans and trans-trans) have a high clearance (4.74 L/h/kg) and very short elimination half-lives (approximately 2 minutes). Cisatracurium is the 1R-cis 1'R-cis isomer of atracurium. It has similar pharmacokinetics and pharmacodynamics to atracurium. It is mainly broken down by Hofmann (non-enzymatic) degradation. Cisatracurium has an intermediate clearance (0.3 L/h/kg) and short elimination half-life (26 minutes). Hepatic and renal disease have little effect on its pharmacokinetics.
        
Title: New neuromuscular blocking drugs [see comments] Hunter JM Ref: N Engl J Med, 332:1691, 1995 : PubMed
The new nondepolarizing neuromuscular blocking drugs have specific advantages over succinylcholine. Rocuronium has an onset of action that is almost as rapid as that of succinylcholine and may be useful in patients with residual gastric contents. This drug may replace vecuronium, since the two agents are otherwise similar. The onset of action of mivacurium is similar to that of atracurium, but recovery from the blockade is more rapid (if the plasma cholinesterase level is normal), making mivacurium useful for short procedures. Although pipecuronium and doxacurium have minimal effects on the cardiovascular system, their long and variable onset and duration of action limit their usefulness. The need for either drug is questionable. There is still a need, however, for a nondepolarizing drug that has an onset of action as rapid as that of succinylcholine but a duration of action similar to that of mivacurium, with no adverse cardiovascular effects and clearance from the body that is independent of organ function.
Four neuromuscular blocking drugs, doxacurium, mivacurium, pipecuronium, and rocuronium have been or are about to be introduced into clinical practice. The purpose of this MiniReview is to describe their pharmacology, to consider their place in clinical anaesthetic practice, and to examine whether the needs of the clinician have been met. Two of the agents (doxacurium, mivacurium) are benzylisoquinolines resembling atracurium and two (pipecuronium, rocuronium) are aminosteroids related to pancuronium and vecuronium. Two (doxacurium, pipecuronium) are long-acting compounds, similar in duration of action to pancuronium, although the need for such a profile is questionable. Rocuronium has an intermediate duration of action and produces its maximum effect within two minutes which is much more rapid than any other non-depolarizing relaxant and this is probably a result of its poor potency. However, the onset of paralysis is not as quick as after succinylcholine. Mivacurium is unique because it is metabolized by plasma cholinesterase which produces a rapid recovery although slower than succinylcholine. All of the new drugs are devoid of serious cardiovascular or other side effects. The anaesthetist is now presented with an armamentarium of safe, nondepolarizing muscle relaxants with varying durations of action. However, the rapid onset and recovery associated with succinylcholine are unique and important in the urgent control of a patient's airway and respiration. The indications for succinylcholine will not disappear and the search for a non-polarizing replacement will continue.