Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0013421 (dystonia)
 8,418 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pharmacokinetics of the phenothiazine, butaperazine, were studied in relationship to acute dystonic reactions. Dystonias appeared on falling drug concentrations, more than one half-life after plasma and red blood cell (RBC) peak butaperazine concentrations. Red blood cell butaperazine kinetics differentiated better than did plasma butaperazine levels those subjects in whom dystonias would develop from those in whom they did not. We conclude that RBC phenothiazine levels may more clearly reflect drug concentration at critical brain sites than do simple plasma drug levels. Furthermore, dystonic reactions may be the result of differential sensitivity of two or more receptor systems to receptor blockade by antischizophrenic agents.
Arch Gen Psychiatry 1976 Jul
PMID:Pharmacokinetics of red blood cell phenothiazine and clinical effects. Acute dystonic reactions. 0 25

Four patients with sporadic olivopontocerebellar atrophy (OPCA) and severe signs of Parkinsonism received continuous subcutaneous lisuride infusion via a small external pump. All 4 patients benefitted from this treatment: 3 showed an overall improvement in motor performance, in 1 patient mainly dysphagia and dysarthria improved. Therapeutic benefit lasted for at least 6 months of follow up. With a daily dose of 1.0 mg subcutaneous lisuride, treatment limitations were reached in the form of dysphagia, probably due to oropharyngeal dystonia. Subcutaneous lisuride infusion should be taken into consideration in OPCA patients with signs of Parkinsonism if oral dopaminergic treatment has failed earlier on.
J Neural Transm Gen Sect 1992
PMID:Continuous subcutaneous lisuride infusion in OPCA. 146 93

1. Neuroleptic drugs (antipsychotics) produce numerous side effects which include serious extrapyramidal symptoms consisting of akathisia, dystonia, neuroleptic malignant syndrome, parkinsonian reactions such as postural abnormality, tremor, akinesia or bradykinesia, rigidity, and tardive dyskinesia. 2. Among the complications of neuroleptic chemotherapy, the most serious and potentially fatal complication is malignant syndrome, which is characterized by extreme hyperthermia, "lead pipe" skeletal muscle rigidity causing dyspnea, dysphagia, and rhabdomyolysis, autonomic instability, fluctuating consciousness, leukocytosis, and elevated creatine phosphokinase. 3. Neuroleptic malignant syndrome should be differentiated from malignant hyperthermia, lethal catatonia, and other pathological states producing some of these same symptoms. 4. In addition to neuroleptics, malignant syndrome has been caused by thymoleptics (antidepressants), metoclopramide (antiemetic), metoclopramide combined with cimetidine, tetrabenazine, overdosage of benzodiazepine, phenelzine, dothiepin and alcohol, and amphetamine. 5. Factors leading to and/or facilitating the emergence of neuroleptic malignant syndromes are reportedly organic brain syndrome, dehydration, exhaustion, external heat load, excessive sympathetic discharge, use of long acting neuroleptics, high doses of neuroleptics, rapid dose titration with neuroleptics, abrupt discontinuation of antiparkinsonism agents, and concurrent lithium therapy. 6. Although, the pathogenesis of neuroleptic malignant syndrome is not understood completely, a blockade of dopaminergic receptors in the hypothalamus, spinal cord and striatum, an alteration of dopaminergic-serotonergic transmission in the body, an enhanced synthesis and action of prostaglandin E1 and E2, and a modification of calcium-mediated signal transduction in the body have been suggested. 7. The treatment of malignant syndrome includes immediate withdrawal of neuroleptic drugs, i.v. infusion of dantrolene, and oral administration of bromocriptine; or alternatively i.v. infusion of dantrolene and the combination of levodopa-carbidopa. 8. Other measures to enhance the therapeutic effectiveness of the aforementioned regimens are to include the use of anticholinergic drugs such as benztropine to enhance the effectiveness of bromocriptine, of lorazepam if catatonic symptoms persist, or of electroconvulsive therapy (ECT) if psychotic symptoms persist. 9. These treatments, however, must be "active" rather than "passive", in order to avert fatalities and/or unfortunate sequelae from this iatrogenic and incompletely understood disease.
Gen Pharmacol 1990
PMID:Pathogenesis and treatment of neuroleptic malignant syndrome. 197 19

Fifty-three patients with acute exacerbations of Research Diagnostic Criteria schizophrenic, schizoaffective (mainly schizophrenic), and other nonaffective psychoses completed 24 or 28 days of treatment with randomized, fixed, double-blind doses of 10, 20, or 30 mg of oral fluphenazine hydrochloride daily. In the sample as a whole, improvement was not predicted by dose but was negatively related to duration of illness and of lifetime hospitalization, and to the presence of akathisia during the study (which was unrelated to chronicity). But among patients showing 40% or greater improvement in positive symptoms, percent improvement was predicted by dose and dose per kilogram of body weight; this was not the case for negative symptoms. Severity of acute extrapyramidal symptoms (excluding acute dystonia, dyskinesia, and akathisia) was significantly correlated with dosage per kilogram. Doses greater than 0.2 mg/kg per day were associated with greater clinical improvement but also with a high incidence of extrapyramidal symptoms; doses over 0.3 mg/kg per day were associated with more severe extrapyramidal symptoms. These preliminary results suggest that there is a linear relationship between fluphenazine dosage and acute outcome, and that this relationship is observed in patients whose conditions improve to a criterion level. It is suggested that the nonresponder group may include many patients in whom dose is not relevant because they are unable (for a variety of reasons) to respond to the study treatment conditions; excluding them from analysis may allow a significant dose-response relationship to be observed. Akathisia deserves further study as a possible predictor of nonresponse.
Arch Gen Psychiatry 1990 Aug
PMID:Fluphenazine dose, clinical response, and extrapyramidal symptoms during acute treatment. 134 92

Initial prophylaxis with anticholinergics for neuroleptic-induced extrapyramidal syndromes (EPSs) is controversial. Recommendations, based on conflicting research findings, vary from routine prophylactic use of anticholinergics to withholding these agents until dystonia, akathisia, or parkinsonism develops. To determine whether anticholinergic prophylaxis influenced EPS rates during the first 21 days of neuroleptic treatment, 215 psychotic inpatients were reviewed. Initial prophylaxis with anticholinergic drugs significantly reduced the occurrence of EPSs. This treatment's efficacy depended on a complex interaction of variables, including the patient's sex and age, antipsychotic drug type and dose, and treatment phase.
Arch Gen Psychiatry 1983 Oct
PMID:Initial anticholinergic prophylaxis for neuroleptic-induced extrapyramidal syndromes. 613 11

Progressive supranuclear palsy (PSP) is characterized by supranuclear ophthalmoplegia mainly affecting vertical gaze, nuchal dystonia in extension, pseudobulbar palsy, and mental changes. The literature on PSP has been neurologically oriented whereas the psychiatric aspects have been relatively neglected. A review of the literature shows that psychiatric disturbance in PSP is common but with no characteristic pattern. Cognitive impairment, nonspecific affective and behavioral disturbances are commonly found, whereas frank psychosis or bipolar disorder are rare. Misdiagnoses with psychiatric disorders are common and a heightened awareness of the condition is necessary for early diagnosis.
Gen Hosp Psychiatry 1995 Mar
PMID:Psychiatric aspects of progressive supranuclear palsy. 778 84

BACKGROUND: The aim of this paper is to describe a case of severe neuroleptic-induced tardive torticollis successfully treated with a combination of clozapine, clonazepam and botulinum toxin-A. CASE REPORT: The patient, a 30-year old man with a seven-year history of delusional disorder experienced severe right torticollis with painful tightness of the neck and elevation of the shoulder. At this time he was receiving haloperidol 20 mg, trifluoperazine 5 mg, zuclopenthixol 20 mg and biperidine 4 mg daily. The combination therapy with clozapine and clonazepam and the long-term use of botulinum toxin-A resulted in a complete remission of dystonic movements. CONCLUSIONS: The present observations provide evidence indicating that this combination therapy may be of benefit in patients with severe neuroleptic-induced tardive torticollis.
Ann Gen Hosp Psychiatry 2003 Oct 17
PMID:Treatment of severe neuroleptic-induced tardive torticollis. 1461 15

Cocaine use is an under-recognized risk factor of antipsychotic-induced acute dystonia. A case of a patient with psychotic illness and concurrent cocaine use developing acute dystonia with ziprasidone is described.
Gen Hosp Psychiatry
PMID:Cocaine use as a risk factor for ziprasidone-induced acute dystonia. 1748 50

Tardive laryngeal dystonia, a rare form of dystonic syndrome, was only reported to be induced by typical antipsychotics. Here, we report one case of ziprasidone-induced tardive laryngeal dystonia in a schizophrenic female patient, who showed dysphonia, hoarseness and dyspnea after taking ziprasidone 120 mg/day for 8 months. These symptoms were significantly improved after discontinuing ziprasidone and increasing the dose of trihexyphenidyl for 1 week. Although atypical antipsychotics are associated with a lower risk of extrapyramidal symptoms, caution should be taken for any tardive dystonic movement when using these medications.
Gen Hosp Psychiatry
PMID:Ziprasidone-induced tardive laryngeal dystonia: a case report. 1843 61

Tardive dyskinesia and tardive dystonia are caused by dopamine receptor blocking agents, mostly antipsychotics and sometimes antidepressants or calcium channel blockers. Duloxetine-related tardive syndrome is rarely reported in the literature. We report one case of tardive dystonia and tardive dyskinesia occurring in a 58-year-old female with major depressive disorder, who developed distressing oral dyskinesia, mandibular dystonia with trismus and dystonia over left neck after treatment of duloxetine (30-60 mg per day) for 18 months. Despite discontinuation of duloxetine, she only obtained partial remission. Even though this association has been rarely reported, duloxetine may pose a potential risk of inducing tardive syndrome. Clinicians should cautiously detect early signs of movement abnormality when prescribing antidepressants.
Gen Hosp Psychiatry
PMID:Duloxetine-related tardive dystonia and tardive dyskinesia: a case report. 2111 61


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