UMLS:C0027066 - FACTA Search

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Query: UMLS:C0027066 (myoclonus)
4,275 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Five patients with myoclonus were treated with oral piracetam (8-9 g/day). All patients had action-sensitive and/or stimulus-sensitive myoclonus and enhanced amplitude of somatosensory evoked potentials. Piracetam produced a marked reduction of the myoclonus in the five subjects without side effects. In view of its excellent tolerance and synergism with other antimyoclonic drugs, we consider piracetam to be a very valuable drug for the treatment of patients with myoclonus of any origin.
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PMID:Antimyoclonic action of piracetam. 310 12

Forty patients with different clinical and electrophysiological types of myoclonus were treated with piracetam (18-24 g per day, p.o.) alone, or with other drugs (clonazepam, sodium valproate, and primidone) in different combinations. Piracetam in monotherapy improved the electrophysiological abnormalities in patients with cortical reflex myoclonus, but had no useful clinical effect. Sixteen patients obtained benefit from piracetam when given in combination with other antimyoclonic drugs; improvement was dramatic in two patients, moderate in seven and mild in seven. All patients showing some response to piracetam had myoclonus of cortical origin; however, five other patients with similar cortical myoclonus failed to improve when piracetam was added. Tolerance was excellent and side effects were minimal and transient. It is concluded that piracetam probably has an antimyoclonic action, but its potential value as a therapeutic tool for disabling myoclonus requires further study.
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PMID:Piracetam in the treatment of different types of myoclonus. 323 90

Twenty-one patients with disabling spontaneous, reflex, or action myoclonus due to various causes, who had shown apparent clinical improvement on introduction of piracetam, entered a placebo-controlled double-blind crossover trial of piracetam (2.4-16.8 g daily). All but one patient had electrophysiological evidence of cortical myoclonus. Patients were randomly allocated to a 14-day course of piracetam followed by identical placebo, or placebo followed by piracetam. Nineteen patients received piracetam/placebo in addition to their routine antimyoclonic treatment (carbamazepine, clonazepam, phenytoin, primidone, sodium valproate, or tryptophan plus isocarboxazid, alone or in combination) and two received piracetam/placebo as monotherapy. All patients were rated at the end of each treatment phase using stimulus sensitivity, motor, writing, functional disability, global assessment, and visual analogue scales. Ten of the 21 patients had to be rescued from the placebo phase of the trial because of a severe and intolerable exacerbation of their myoclonus. No patients required rescue from the piracetam phase of the double-blind trial. When the 21 patients were considered together, there was a significant improvement in motor, writing, functional disability, global assessment, and visual analogue scores during treatment with piracetam compared with placebo. The total rating score also improved significantly with piracetam, by a median of 22%. Piracetam, usually in combination with other antimyoclonic drugs, is a useful treatment for myoclonus of cortical origin.
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PMID:Effectiveness of piracetam in cortical myoclonus. 841 9

The treatment of myoclonus is mainly based on the pathophysiological origin of the neuronal discharges producing the jerks. Myoclonus of cortical origin responds best to treatment. Drugs commonly used to treat epilepsy are usually capable of controlling action and stimuli-sensitive cortical myoclonus. Piracetam (6-20 g/day), clonazepam (2-12 mg/day), sodium valproate (1,200-3,000 mg/day), and primidone (500-1,000 mg/day) are the most useful ones, often given in combination. Myoclonus of non-cortical origin, i.e. reticular reflex myoclonus or spinal myoclonus, may respond to serotoninergic drugs and clonazepam, but there is much less scientific documentation and rationale behind the therapeutic approach to these different forms, and hence greater variability in the response. No specific drug treatment is yet available for negative myoclonus (Asterixis and postural lapses).
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PMID:Therapy of myoclonus. 889 99

Sixty patients with disabling myoclonus excluding mainly spinal myoclonus were treated by piracetam as an open-labeled study, and myoclonus score, neurological symptoms, functional disability, and intensity of myoclonus were scored before and after treatment, including a blinded video inspection. Electrophysiological correlation also was investigated before and after treatment. Piracetam was effective in myoclonus, especially that of cortical origin, in both monotherapy and polytherapy. Piracetam also had positive benefits on gait ataxia and convulsions but not on dysarthria, and feeding and hand writing improved much more significantly. Psychologically significant improvement was seen in decreased motivation, sleep disturbance, attention deficit, and depression, all of which might be possibly secondary benefits associated with improvement of myoclonus. There was no positive correlation between clinical and electrophysiological improvement. Tolerance was good, and side effects were transient. However, hematological abnormalities observed in at least two patients in the present study should be kept in mind when relatively large doses of piracetam are administered, especially in combination with other antimyoclonic drugs.
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PMID:Clinical trial of piracetam in patients with myoclonus: nationwide multiinstitution study in Japan. The Myoclonus/Piracetam Study Group. 891 96

Recent post-marketing surveillance reports have confirmed the benign safety profile and lack of organ toxicity shown by piracetam during its 25 years of clinical usage. Tolerance has proved equally good with the more recent use of larger doses (up to 24 g/day) for the long-term control of cortical myoclonus and when given intravenously to patients with acute stroke. This paper provides a brief review of these findings and records the safety of piracetam as found in the Piracetam in Acute Stroke Study (PASS), a randomized multicenter placebo-controlled study in 927 patients with acute ischemic stroke. Patients receive one intravenous bolus injection of placebo or 12 g piracetam, piracetam 12 g daily for 4 weeks and maintenance treatment for 8 weeks. The major results have been reported (De Deyn et al., Stroke 28 [1997] 2347-2352). Safety was assessed taking into account adverse events including abnormal laboratory test results and mortality. Death within 12 weeks occurred more frequently in the piracetam group but the difference from placebo was not significant. Of many potential risk, prognostic and treatment-related factors examined by logistic regression, 6 contributed significantly to death of which the most important were initial severity of stroke and age. Neither treatment nor any treatment-related factor contributed significantly to death. Adverse events were similar in frequency, type and severity in piracetam and placebo groups. Events of cerebral, non-cerebral and uncertain origin likewise occurred with similar frequency. Few patients discontinued because of adverse events. There was no difference between treatments in the frequency of events associated with bleeding, including hemorrhagic transformation of infarction. An important finding was that, of 31 patients with primary hemorrhagic stroke enrolled, 3 piracetam-treated patients died compared with 6 on placebo. The results suggest that piracetam in high dosage may be given to patients with acute stroke without significant adverse effects.
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PMID:The clinical safety of high-dose piracetam--its use in the treatment of acute stroke. 1033 6

This paper reviews existing publications on the use of piracetam for the treatment of cortical myoclonus of various etiologies and includes the personal experience of the authors in progressive myoclonus epilepsy. Two double-blind comparisons with placebo provided results which allow recommendations for the dosage and usage of piracetam in cortical myoclonus. Wide individual variation (7-24g daily) exists in dosage requirements but responses are dose-related so that dosage should be increased until an optimum effect is obtained. Tolerability after long-term use of piracetam in high dosage has been very good and without toxicity or serious adverse effects. Side effects have been occasional, mild and transient. The authors present their experience of 12 patients with progressive myoclonus epilepsy in whom the administration of up to 45 g piracetam daily, when added to existing anti-epileptic treatment, caused marked and sometimes spectacular improvement and was without significant adverse effects. Improvement was maintained for up to 7 years. The use of piracetam for disabling cortical myoclonus of any etiology, either as an addition to existing antimyoclonic drugs or as monotherapy, may bring about profound improvement in disability and quality of life. Piracetam should be considered a first-line drug for the treatment of cortical myoclonus.
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PMID:Piracetam in the treatment of cortical myoclonus. 1033 9

Piracetam (PIR) and levetiracetam (LEV), an S-enantiomer, are pyrrolidone derivatives that share similar chemical structures but have distinct pharmacological profiles and consequently different clinical uses. Although the mode of action of neither drug has been fully elucidated, they do not interact with inhibitory or excitatory neurotransmission or alter membrane excitability. A brain-specific stereoselective binding site has been identified for which LEV and other S-enantiomers, but not PIR, have high affinity. In preclinical studies, PIR significantly improves learning and memory; in contrast, LEV has less effect but is much more active in preventing seizures. Both drugs have a high therapeutic index and are well tolerated. PIR, a nootropic drug, is used in the therapy of age-related cognitive disturbances and poststroke aphasia. Clinical experience has also shown that at high doses it is effective against cortical myoclonus. LEV is an antiepileptic drug. Clinical trials have confirmed its efficacy in partial seizures and preliminary findings suggest that it is also effective in generalized seizures and myoclonus.
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PMID:Piracetam and levetiracetam: close structural similarities but different pharmacological and clinical profiles. 1095 41

Piracetam [2-oxo-1-pyrrolidineacetamide], a cyclic GABA, has been used in Europe for the treatment of patients with cognitive disorders. We investigated the effect of piracetam on urea-induced myoclonus in rats. Myoclonus was induced by intraperitoneal injection of 4.5 g/kg urea, and was recorded with EMG and video apparatus. The incidence of induced myoclonus decreased significantly by intraperitoneal injection of 300 mg/kg piracetam and oral administration of 0.3-10 mg/kg clonazepam. Furthermore, the combined application of 100 mg/kg piracetam and 0.03-0.1 mg/kg clonazepam was effective in ameliorating the myoclonus, although separate administrations were not effective. These findings suggest that piracetam is an effective drug for treating myoclonus, particularly when it is used in combination with clonazepam.
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PMID:[Effect of piracetam on urea-induced myoclonus in rats]. 1106 61

Myoclonus is defined as shock-like, brief involuntary abnormal movements in muscle jerking caused by external stimuli; and it arises from progressive myoclonus epilepsy, post-anoxic encephalopathy and Alzheimer's disease, causing disabling symptoms. It is a rare syndrome but very difficult to control. Piracetam (2-oxo-1-pyrrolidineacetamide, Myocalm) was developed more than 30 years ago as a cyclic derivative of gamma-aminobutyric acid (GABA); it has been used in European countries for the treatment of memory loss and other cognitive defects in patients. Some reports have suggested that piracetam has anti-myoclonus activities, but the mechanisms of myoclonus are not well-identified, and thus there have been few preclinical studies on piracetam for the treatment of myoclonus. We investigated the effect of piracetam and clonazepam, an anti-epileptic drug, on high dosage urea-induced myoclonus using an electromyogram in rats. The incidence of myoclonus induced by urea 4.5 g/kg (i.p.) was significantly reduced by piracetam at 300 mg/kg (i.p.) and by clonazepam at 0.3 mg/kg (p.o.). The coadministration of piracetam 100 mg/kg (i.p.) and clonazepam at 0.03-0.1 mg/kg (p.o.) significantly reduced the incidence of myoclonus, although separate administration was not effective. After oral administration of piracetam, it is rapidly and completely absorbed and excreted almost unchanged in the urine; however, it does show a little binding to human serum protein. Repeated oral administration of piracetam for 7 days in phase-I trials did not show any accumulation of the drug. In the placebo-controlled double-blind crossover trial of piracetam conducted in the UK, there was a significant improvement in cortical myoclonus. In phase-II trials, piracetam inhibited myoclonus and showed an improvement in the quality of life (QOL) of the patients. These results show that piracetam has a beneficial use in clinics for severe myoclonus patients when it is combined with anti-epileptic drugs, demonstrating an improvement in the myoclonus and QOL of patients.
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PMID:[A pharmacological profile of piracetam (Myocalm), a drug for myoclonus]. 1108 17

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