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The Role of the Subthalamic Nucleus in Inhibitory Control of Oculomotor Behavior in Parkinson’s Disease

Shahab Bakhtiari, Ayça Altınkaya, Christopher C. Pack, Abbas F. Sadikot

2020Scientific Reports23 citationsDOIOpen Access PDF

Abstract

Inhibiting inappropriate actions in a context is an important part of the human cognitive repertoire, and deficiencies in this ability are common in neurological and psychiatric disorders. An anti-saccade is a simple oculomotor task that tests this ability by requiring inhibition of saccades to peripheral targets (pro-saccade) and producing voluntary eye movements toward the mirror position (anti-saccades). Previous studies provide evidence for a possible contribution from the basal ganglia in anti-saccade behavior, but the precise role of different components is still unclear. Parkinson's disease patients with implanted deep brain stimulators (DBS) in subthalamic nucleus (STN) provide a unique opportunity to investigate the role of the STN in anti-saccade behavior. Previous attempts to show the effect of STN DBS on anti-saccades have produced conflicting observations. For example, the effect of STN DBS on anti-saccade error rate is not yet clear. Part of this inconsistency may be related to differences in dopaminergic states in different studies. Here, we tested Parkinson's disease patients on anti- and pro-saccade tasks ON and OFF STN DBS, in ON and OFF dopaminergic medication states. First, STN DBS increases anti-saccade error rate while patients are OFF dopamine replacement therapy. Second, dopamine replacement therapy and STN DBS interact: L-dopa reduces the effect of STN DBS on anti-saccade error rate. Third, STN DBS induces different effects on pro- and anti-saccades in different patients. These observations provide evidence for an important role for the STN in the circuitry underlying context-dependent modulation of visuomotor action selection.

Topics & Concepts

SaccadeSubthalamic nucleusNeuroscienceContext (archaeology)Basal gangliaPsychologyDeep brain stimulationDopaminergicDopaminergic pathwaysParkinson's diseaseDopamineEye movementPhysical medicine and rehabilitationMedicineDiseaseBiologyCentral nervous systemInternal medicinePaleontologyNeurological disorders and treatmentsParkinson's Disease Mechanisms and TreatmentsBotulinum Toxin and Related Neurological Disorders