The modulatory effect of self-paced and cued motor execution on subthalamic beta-bursts in Parkinson's disease: Evidence from deep brain recordings in humans

Deep brain stimulation (DBS) electrodes provide an unparalleled window to record and investigate neuronal activity right at the core of pathological brain circuits. In Parkinson's disease (PD), basal ganglia beta-oscillatory activity (13–35 Hz) seems to play an outstanding role. Conventional DB...

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Veröffentlicht in:Neurobiology of disease 2022-10, Vol.172, p.105818-105818, Article 105818
Hauptverfasser: Bichsel, Oliver, Stieglitz, Lennart, Oertel, Markus, Baumann, Christian, Gassert, Roger, Imbach, Lukas
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Sprache:eng
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Zusammenfassung:Deep brain stimulation (DBS) electrodes provide an unparalleled window to record and investigate neuronal activity right at the core of pathological brain circuits. In Parkinson's disease (PD), basal ganglia beta-oscillatory activity (13–35 Hz) seems to play an outstanding role. Conventional DBS, which globally suppresses beta-activity, does not meet the requirements of a targeted treatment approach given the intricate interplay of physiological and pathological effects of beta-frequencies. Here, we wanted to characterise the local field potential (LFP) in the subthalamic nucleus (STN) in terms of beta-burst prevalence, amplitude and length between movement and rest as well as during self-paced as compared to goal-directed motor control. Our electrophysiological recordings from externalised DBS-electrodes in nine patients with PD showed a marked decrease in beta-burst durations and prevalence during movement as compared to rest as well as shorter and less frequent beta-bursts during cued as compared to self-paced movements. These results underline the importance of beta-burst modulation in movement generation and are in line with the clinical observation that cued motor control is better preserved than self-paced movements. Furthermore, our findings motivate the use of adaptive DBS based on beta-bursts, which selectively trim longer beta-bursts, as it is more suitable and efficient over a range of motor behaviours than conventional DBS. •Subthalamic beta-activity seems to play a central role in Parkinson's disease (PD).•We recorded subthalamic beta-activity during rest and different motor tasks.•Beta-bursts are shorter and less frequent during movements vs. rest.•Beta-bursts are shorter and less frequent during cued vs. self-paced movement.•Our electrophysiological findings are in line with clinical observation in PD.
ISSN:0969-9961
1095-953X
DOI:10.1016/j.nbd.2022.105818