Neurology
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Randomized Controlled Trial Multicenter Study Clinical Trial
Tizanidine treatment of spasticity caused by multiple sclerosis: results of a double-blind, placebo-controlled trial. US Tizanidine Study Group.
This multicenter, stratified, randomized, placebo-controlled, double-blind trial evaluated tizanidine for use in the United States for spasticity secondary to MS. The 15-week trial was divided into baseline (weeks 0 and 1), titration (2 mg to a maximum of 36 mg/d; weeks 2 to 4), and plateau (weeks 5 to 13) phases, followed by dose tapering (week 14) and a final visit (week 15). Primary efficacy parameters were scores on muscle tone (Ashworth Scale) and type and frequency of muscle spasms (patient diaries). ⋯ No significant differences in other secondary efficacy parameters were noted. Adverse events were reported for 66 (61%) of the 109 placebo-treated patients and 101 (91%) of the 111 tizanidine-treated patients; 6 (6%) and 14 (13%) discontinued treatment, respectively. Patient and physician perception of improvement demonstrated more consistent differences between groups than did the Ashworth Scale, perhaps because of inexperience with this measure or failure to consider time between drug administration and assessment.
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Randomized Controlled Trial Multicenter Study Clinical Trial
Efficacy and safety of tizanidine in the treatment of spasticity in patients with spinal cord injury. North American Tizanidine Study Group.
Tizanidine, an imidazoline that acts as an agonist at alpha 2-adrenergic receptors, has been shown to be effective in reducing spasticity caused by MS. This multicenter study (14 sites) assessed the efficacy and safety of oral tizanidine in patients who had spinal cord injury of > 12 months' duration. Of the 124 patients admitted to the study, 78 completed it. ⋯ No significant alterations in muscle strength or vital signs were noted in either treatment group. The most common adverse events during tizanidine treatment were somnolence, xerostomia, and fatigue. It was concluded that, overall, tizanidine is effective in reducing spasticity in patients with spinal cord injury.
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Randomized Controlled Trial Multicenter Study Clinical Trial
A double-blind, placebo-controlled trial of tizanidine in the treatment of spasticity caused by multiple sclerosis. United Kingdom Tizanidine Trial Group.
Tizanidine was evaluated in a prospective, double-blind, randomized, placebo-controlled trial in 187 patients with MS. Taken orally for 9 weeks and preceded by a titration phase for a period of 3 weeks starting at 2 mg daily, tizanidine produced a significant reduction in spastic muscle tone compared with placebo treatment. Within the effective dose range of 24 to 36 mg given daily in three doses, tizanidine achieved a 20% mean reduction in muscle tone. ⋯ Tizanidine achieved its maximum effect on spasticity within 1 week of the start of treatment; the benefit was maintained for at least 1 week after discontinuation of therapy. A variety of adverse events was recorded by patients taking tizanidine, but these were minor and reversible, and rarely limited treatment. Tizanidine is a well-tolerated and effective drug for symptomatic treatment of spasticity.
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Meta Analysis Comparative Study
Comparative profile of tizanidine in the management of spasticity.
The therapeutic profile of a new antispastic drug cannot be defined solely on the basis of placebo-controlled studies. Its potential advantages must be evaluated in comparison with existing drugs. This review compares the efficacy and tolerability of tizanidine, a newer muscle relaxant, with that of baclofen and diazepam, the most widely used antispastic agents, for a variety of diagnoses and target symptoms associated with spasticity. ⋯ These included a total of 777 patients suffering from spasticity of various causes. The collected clinical data have been integrated into a combined analysis. Tizanidine emerges from this comparison as a valuable drug in the treatment of spasticity related to cerebral and spinal disorders.
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The relationship among tizanidine dose, plasma concentration, and antispastic action is linear in nature. Response to a given dose of this agent varies among patients, and determining the appropriate clinical dose requires individual titration.