Transient dystonia correlates with parkinsonism after 1-methyl-4-phenyl-1,2,3,6- tetrahydropyridine in non- human primates

Abstract: Unilateral internal carotid artery 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) infusion in non-human primates produces transient contralateral hemi-dystonia followed by stable contralateral hemi-parkinsonism; the relationship between dystonia and parkinsonism remains unclear. We hypothesized that transient dystonia severity following MPTP correlates with parkinsonism severity. In male Macaca nemestrina (n = 3) and M. fascicularis (n = 17) we administered unilateral intra-carotid MPTP, then correlated v… Show more

“…Development of transient dystonia in this model has been reported to be associated with a striatal decrease of dopamine and a transient reduction in D2 dopamine receptors, however, the pathomechanisms have not been clearly elucidated. It has been speculated that abnormal cortico-striatal plasticity might underlie the phenomenon [27]. Both the targeted, pharmacological inactivation as well as activation of the GPi with a GABA agonist or antagonist, respectively, caused dystonic movements of the upper limbs in wildtype monkeys [28,29].…”

Unraveling dystonia circuitry in rodent models using novel neuromodulation techniques

“…Development of transient dystonia in this model has been reported to be associated with a striatal decrease of dopamine and a transient reduction in D2 dopamine receptors, however, the pathomechanisms have not been clearly elucidated. It has been speculated that abnormal cortico-striatal plasticity might underlie the phenomenon [27]. Both the targeted, pharmacological inactivation as well as activation of the GPi with a GABA agonist or antagonist, respectively, caused dystonic movements of the upper limbs in wildtype monkeys [28,29].…”

Unraveling dystonia circuitry in rodent models using novel neuromodulation techniques