Abstract
Centrally acting skeletal muscle relaxants (CMR) such as carisoprodol are used to treat acute, painful musculoskeletal conditions, though its precise mode of action has not been characterized. A double-blinded, placebo-controlled, randomized clinical trial was designed to evaluate the pharmacokinetics–pharmacodynamics (PKPD) of CMR after single (350 mg), double (700 mg), and multiple doses (up to 350 mg/8 h, 14 days) of carisoprodol. Muscular (Electromyogram–EMG, muscular strength dynamometry), central (sedation), and tolerability (psychomotor activity test, adverse events) parameters, as well as withdrawal symptoms, were evaluated. Thirteen healthy volunteers were enrolled. No evidence of direct muscle relaxation was evidenced, but some differences on sedation were evidenced throughout the study, suggesting that CMRs act, at least partly, through sedation. Most significant differences were detected at 1.5 h after dosing. The effect on psychomotor impairment was variable, most prominently after 1.5 h, too, suggesting that it is produced by carisoprodol rather than by meprobamate. No withdrawal symptoms were detected, so the risk of dependence following maximum doses and duration of treatment recommended, and under medical supervision, should be low.
Highlights
An effect of centrally acting skeletal muscle relaxants (CMR) through the blockage of synapses of the spinal cord in relevant animal models has been described, though in humans, this effect has not been shown, and an alternative hypothesis suggests that their effect is a result of sedation [1–6]
The lack of precise knowledge regarding the mode of action of carisoprodol, or even whether it has an effect on itself, several PD parameters were chosen to estimate the action, tolerability, and ability to produce withdrawal symptoms of carisoprodol and its main active metabolite, meprobamate
Tests for sedation and psychomotor impairment were sensitive in evaluating carisoprodol’s in accordance with previous hypotheses proposing that CMRs act, at least partly, through sedation
Summary
An effect of centrally acting skeletal muscle relaxants (CMR) through the blockage of synapses of the spinal cord in relevant animal models has been described, though in humans, this effect has not been shown, and an alternative hypothesis suggests that their effect is a result of sedation [1–6]. Carisoprodol is a CMR which was authorized in 1959 and is used in the US and Canada in combination with analgesics for lower back pain. In addition to the uncertainties regarding CMR in general, it is unclear regarding carisoprodol, whether meprobamate, its main active metabolite, is responsible for carisoprodol’s effects or whether some of these can be attributed to the parent drug [7]. Reports on abuse of carisoprodol, usually in patients with a previous history of drug abuse, have been reported [4,8], usually in patients with long-term treatments The typical withdrawal symptoms are similar to those of barbiturates, which include anxiety, tremor, insomnia, jittering, muscle twitching, and hallucinations
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