P-139 Distinct neural mechanisms of deep brain stimulation and medication on improving predictive timing functions in patients with advanced Parkinson’s disease

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P-139 Distinct neural mechanisms of deep brain stimulation and medication on improving predictive timing functions in patients with advanced Parkinson’s disease. / Wang, Peng; Gulberti, Alessandro; Schneider, Till R.; Hamel, Wolfgang; Buhmann, Carsten; Köppen, Johannes; Gerloff, Christian; Westphal, Manfred; Moll, Christian; Engel, Andreas Karl.

In: CLIN NEUROPHYSIOL, Vol. 148, P-139, 04.2023, p. e70-e71.

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@article{39e63e5452924811a80d8560fe298767,
title = "P-139 Distinct neural mechanisms of deep brain stimulation and medication on improving predictive timing functions in patients with advanced Parkinson{\textquoteright}s disease",
abstract = "Background: Parkinson{\textquoteright}s disease (PD) is characterized by motor and cognitive impairments which result from the progressive loss of dopaminergic neurons of the substantia nigra pars compacta. These symptoms may be ameliorated by subthalamic nucleus deep brain stimulation (STN-DBS), or intake of levodopa.Objective: As suggested by previous studies, the basal ganglia play an important role in temporal prediction. We therefore expect that PD patients exhibit impairment in tasks involving such functions compared to healthy controls. Furthermore, these impairments might, at least partially, be compensated by STN-DBS or levodopa. Methods: To test these hypotheses, 12 PD patients were recruited and instructed to perform finger-tapping to synchronize with audi- tory rhythms at frequencies from 1 to 6Hz. 64-channel EEG was recorded during the task. The patients were studied in four condi- tions: with levodopa (DOPA-ON) or without (DOPA-OFF) before the surgery to implant the STN-DBS electrodes, and with STN-DBS on (DBS-ON, 130–240Hz) or off (DBS-OFF) after the surgery. A group of 12 healthy subjects, matched in age, gender, and education were recruited for the same tasks as controls. As expected, the tapping performance of controls was better than that of the patients. Performance in patients improved during DBS-ON and DOPA-ON conditions. These data were reported previously (Gulberti et al., Neuroimage Clinical, 2015). To investigate the neural mechanisms underlying these performance improvements, we re-analyzed the EEG data. The scalp signals were projected into a source space com- prising the cortical locations. Both power spectra and coupling across different brain locations were evaluated.Results: During the task session, in both auditory and motor cortices, the spectral power in the gamma range ($75–105Hz) was generally higher in PD patients compared to controls. Furthermore, coupling across brain regions was generally reduced in patients compared to the healthy control group. The power difference between groups was largely abolished in the DOPA-ON condition, and the coupling difference was reduced in the DBS-ON condition.Conclusion: Our data suggest that excessive, but spatially less well coupled, gamma-band activity may be induced in the cortices of PD patients while performing tasks that involve temporal coordina- tion and prediction. These altered dynamics could be improved by either suppressing such activities with levodopa or synchronizing them with STN-DBS.",
author = "Peng Wang and Alessandro Gulberti and Schneider, {Till R.} and Wolfgang Hamel and Carsten Buhmann and Johannes K{\"o}ppen and Christian Gerloff and Manfred Westphal and Christian Moll and Engel, {Andreas Karl}",
year = "2023",
month = apr,
doi = "10.1016/j.clinph.2023.02.156",
language = "English",
volume = "148",
pages = "e70--e71",
journal = "CLIN NEUROPHYSIOL",
issn = "1388-2457",
publisher = "Elsevier",
note = "null ; Conference date: 02-03-2023 Through 04-03-2023",
url = "https://www.kongress-dgkn.de/",

}

RIS

TY - JOUR

T1 - P-139 Distinct neural mechanisms of deep brain stimulation and medication on improving predictive timing functions in patients with advanced Parkinson’s disease

AU - Wang, Peng

AU - Gulberti, Alessandro

AU - Schneider, Till R.

AU - Hamel, Wolfgang

AU - Buhmann, Carsten

AU - Köppen, Johannes

AU - Gerloff, Christian

AU - Westphal, Manfred

AU - Moll, Christian

AU - Engel, Andreas Karl

N1 - Conference code: 23

PY - 2023/4

Y1 - 2023/4

N2 - Background: Parkinson’s disease (PD) is characterized by motor and cognitive impairments which result from the progressive loss of dopaminergic neurons of the substantia nigra pars compacta. These symptoms may be ameliorated by subthalamic nucleus deep brain stimulation (STN-DBS), or intake of levodopa.Objective: As suggested by previous studies, the basal ganglia play an important role in temporal prediction. We therefore expect that PD patients exhibit impairment in tasks involving such functions compared to healthy controls. Furthermore, these impairments might, at least partially, be compensated by STN-DBS or levodopa. Methods: To test these hypotheses, 12 PD patients were recruited and instructed to perform finger-tapping to synchronize with audi- tory rhythms at frequencies from 1 to 6Hz. 64-channel EEG was recorded during the task. The patients were studied in four condi- tions: with levodopa (DOPA-ON) or without (DOPA-OFF) before the surgery to implant the STN-DBS electrodes, and with STN-DBS on (DBS-ON, 130–240Hz) or off (DBS-OFF) after the surgery. A group of 12 healthy subjects, matched in age, gender, and education were recruited for the same tasks as controls. As expected, the tapping performance of controls was better than that of the patients. Performance in patients improved during DBS-ON and DOPA-ON conditions. These data were reported previously (Gulberti et al., Neuroimage Clinical, 2015). To investigate the neural mechanisms underlying these performance improvements, we re-analyzed the EEG data. The scalp signals were projected into a source space com- prising the cortical locations. Both power spectra and coupling across different brain locations were evaluated.Results: During the task session, in both auditory and motor cortices, the spectral power in the gamma range ($75–105Hz) was generally higher in PD patients compared to controls. Furthermore, coupling across brain regions was generally reduced in patients compared to the healthy control group. The power difference between groups was largely abolished in the DOPA-ON condition, and the coupling difference was reduced in the DBS-ON condition.Conclusion: Our data suggest that excessive, but spatially less well coupled, gamma-band activity may be induced in the cortices of PD patients while performing tasks that involve temporal coordina- tion and prediction. These altered dynamics could be improved by either suppressing such activities with levodopa or synchronizing them with STN-DBS.

AB - Background: Parkinson’s disease (PD) is characterized by motor and cognitive impairments which result from the progressive loss of dopaminergic neurons of the substantia nigra pars compacta. These symptoms may be ameliorated by subthalamic nucleus deep brain stimulation (STN-DBS), or intake of levodopa.Objective: As suggested by previous studies, the basal ganglia play an important role in temporal prediction. We therefore expect that PD patients exhibit impairment in tasks involving such functions compared to healthy controls. Furthermore, these impairments might, at least partially, be compensated by STN-DBS or levodopa. Methods: To test these hypotheses, 12 PD patients were recruited and instructed to perform finger-tapping to synchronize with audi- tory rhythms at frequencies from 1 to 6Hz. 64-channel EEG was recorded during the task. The patients were studied in four condi- tions: with levodopa (DOPA-ON) or without (DOPA-OFF) before the surgery to implant the STN-DBS electrodes, and with STN-DBS on (DBS-ON, 130–240Hz) or off (DBS-OFF) after the surgery. A group of 12 healthy subjects, matched in age, gender, and education were recruited for the same tasks as controls. As expected, the tapping performance of controls was better than that of the patients. Performance in patients improved during DBS-ON and DOPA-ON conditions. These data were reported previously (Gulberti et al., Neuroimage Clinical, 2015). To investigate the neural mechanisms underlying these performance improvements, we re-analyzed the EEG data. The scalp signals were projected into a source space com- prising the cortical locations. Both power spectra and coupling across different brain locations were evaluated.Results: During the task session, in both auditory and motor cortices, the spectral power in the gamma range ($75–105Hz) was generally higher in PD patients compared to controls. Furthermore, coupling across brain regions was generally reduced in patients compared to the healthy control group. The power difference between groups was largely abolished in the DOPA-ON condition, and the coupling difference was reduced in the DBS-ON condition.Conclusion: Our data suggest that excessive, but spatially less well coupled, gamma-band activity may be induced in the cortices of PD patients while performing tasks that involve temporal coordina- tion and prediction. These altered dynamics could be improved by either suppressing such activities with levodopa or synchronizing them with STN-DBS.

U2 - 10.1016/j.clinph.2023.02.156

DO - 10.1016/j.clinph.2023.02.156

M3 - Conference abstract in journal

VL - 148

SP - e70-e71

JO - CLIN NEUROPHYSIOL

JF - CLIN NEUROPHYSIOL

SN - 1388-2457

M1 - P-139

Y2 - 2 March 2023 through 4 March 2023

ER -