Fluphenazine-induced acute and tardive dyskinesias in monkeys

Kovacic, Beverly; Domino, Edward F.

doi:10.1007/bf00555204

Cited by 11 publications

(7 citation statements)

References 16 publications

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“…Domino and Kovacic (1983), in fact, concluded that of 121 monkeys that have been given neuroleptics in several published studies, most developed only the acute dystonic or parkinsonism syndrome, and only 10 developed TD (some of those of Gunne and Barany, 1976;Bedard et al, 1977;McKinney et al, 1980). Kovacic and Domino (1984), Johansson (1989), and Gunne et al (1984) subsequently increased this sample, but the number of documented cases is clearly very low.…”

Section: Primate Studiesmentioning

confidence: 92%

Computer-Assisted Video Assessment of Dyskinetic Movements

Ellison¹,

Keys²

1996

Motor Activity and Movement Disorders

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Section: Primate Studiesmentioning

confidence: 92%

Computer-Assisted Video Assessment of Dyskinetic Movements

Ellison¹,

Keys²

1996

Motor Activity and Movement Disorders

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“…These neurological side effects of neuroleptic drugs are troublesome and occasionally dangerous for patients. Similar syndromes are observed in monkeys treated with neuroleptics, including dystonic posturing of the face, trunk, and limbs, buccolinguo-masticatory movements (BLM), and a hyperactive state characterized by purposeless, restless movements resembling akathisia (AKA) (Gunne and Barany 1976;Bedard et al 1977;Meldrum et al 1977;Weiss et al 1977;Casey et al 1980;Liebman and Neale 1980;Porsolt and Jalfre 1981;Kovacic and Domino 1984). These behaviors typically evolve together over 'the course of repeated exposure to neuroleptics and Offprint requests to: D.E.…”

mentioning

confidence: 92%

Pargyline reduces/prevents neuroleptic-induced acute dystonia in monkeys

Heintz

Casey

1987

Psychopharmacology

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The neuropharmacologic mechanisms underlying neuroleptic-induced extrapyramidal syndromes (EPS) were studied using a nonhuman primate model. Twenty-six Cebus albifrons monkeys were given weekly challenges of haloperidol (0.025 mg/kg IM), and half of the animals received the monoamine oxidase (MAO) inhibitor pargyline (5 mg/kg PO) daily for 17 consecutive days during the protocol. Pargyline caused no changes in baseline behaviors, but significantly reduced haloperidol-induced acute dystonia (AD) (-67%, P less than 0.002) and parkinsonism (-56%, P less than 0.005). The majority (8 of 13) of the experimental group had complete prevention of neuroleptic-induced EPS during cotreatment with pargyline. Behavioral scores returned to baseline levels after stopping pargyline, and did not show the further sensitization to haloperidol-induced AD that occurred in the control group. The possible mechanisms by which an MAO inhibitor might influence neuroleptic-induced AD were considered. The most likely explanation would appear to involve facilitation of striatal dopamine (DA) neurotransmission by inhibition of intra- and extraneuronal MAO, thus supporting the hypothesis that AD is due to decreased striatal DA function with secondary cholinergic hyperfunction.

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Section: Introductionmentioning

confidence: 99%

“…[18][19][20] Challenged with a typical antipsychotic, this monkey readily develops syndromes similar to acute dyskinesia in humans. 18,19 Similarly, long-term treatment with neuroleptics leads to a chronic state resembling TD. [18][19][20] The acute effect of antipsychotics in C. apella previously sensitized to neuroleptics is predictive of the TD potential in humans and is generally assessed prior to initiating clinical trails.…”

Section: Introductionmentioning

confidence: 99%

“…18,19 Similarly, long-term treatment with neuroleptics leads to a chronic state resembling TD. [18][19][20] The acute effect of antipsychotics in C. apella previously sensitized to neuroleptics is predictive of the TD potential in humans and is generally assessed prior to initiating clinical trails. 21,22 C. apella is at least five times more susceptible to develop EPS than humans.…”

Section: Introductionmentioning

confidence: 99%

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Cebus apella, a nonhuman primate highly susceptible to neuroleptic side effects, carries the GLY9 dopamine receptor D3 associated with tardive dyskinesia in humans

et al. 2003

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Tardive dyskinesia (TD) is a severe side effect of traditional neuroleptics affecting a considerable number of schizophrenic patients. Accumulating evidence suggests the existence of a genetic disposition to TD and other extra pyramidal symptoms (EPS) most strongly linked to a ser/gly polymorphism in position 9 of the D3 dopamine receptor gene (DRD3). The Cebus apella monkey is the favored animal model to study TD and other EPS because of its high susceptibility to side effects of neuroleptics. We therefore determined the sequence of the DRD3 gene in this species and compared it with that of humans. We found that the highly TD susceptible C. apella monkey (n ¼ 21) carries the gly9/gly9 DRD3 genotype that has been associated with TD in humans. Contrarily, C. apella did not carry the ser23 5HT2C allele that has been reported to increase TD susceptibility in humans.

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Fluphenazine-induced acute and tardive dyskinesias in monkeys

Cited by 11 publications

References 16 publications

Computer-Assisted Video Assessment of Dyskinetic Movements

Computer-Assisted Video Assessment of Dyskinetic Movements

Pargyline reduces/prevents neuroleptic-induced acute dystonia in monkeys

Cebus apella, a nonhuman primate highly susceptible to neuroleptic side effects, carries the GLY9 dopamine receptor D3 associated with tardive dyskinesia in humans

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