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A method for the synchronization of inertial sensor signals and local field potentials from deep brain stimulation systems.

Authors :
D'Ascanio I
Giannini G
Baldelli L
Cani I
Giannoni A
Leogrande G
Lopane G
Calandra-Buonaura G
Cortelli P
Chiari L
Palmerini L
Source :
Biomedical physics & engineering express [Biomed Phys Eng Express] 2024 Jul 16; Vol. 10 (5). Date of Electronic Publication: 2024 Jul 16.
Publication Year :
2024

Abstract

Objective . Recent innovative neurostimulators allow recording local field potentials (LFPs) while performing motor tasks monitored by wearable sensors. Inertial sensors can provide quantitative measures of motor impairment in people with subthalamic nucleus deep brain stimulation. To the best of our knowledge, there is no validated method to synchronize inertial sensors and neurostimulators without an additional device. This study aims to define a new synchronization method to analyze disease-related brain activity patterns during specific motor tasks and evaluate how LFPs are affected by stimulation and medication. Approach . Fourteen male subjects treated with subthalamic nucleus deep brain stimulation were recruited to perform motor tasks in four different medication and stimulation conditions. In each condition, a synchronization protocol was performed consisting of taps on the implanted neurostimulator, which produces artifacts in the LFPs that a nearby inertial sensor can simultaneously record. Main results . In 64% of the recruited subjects, induced artifacts were detected at least in one condition. Among those subjects, 83% of the recordings could be synchronized offline analyzing LFPs and wearables data. The remaining recordings were synchronized by video analysis. Significance . The proposed synchronization method does not require an external system (e.g., TENS electrodes) and can be easily integrated into clinical practice. The procedure is simple and can be carried out in a short time. A proper and simple synchronization will also be useful to analyze subthalamic neural activity in the presence of specific events (e.g., freezing of gait events) to identify predictive biomarkers.<br /> (Creative Commons Attribution license.)

Details

Language :
English
ISSN :
2057-1976
Volume :
10
Issue :
5
Database :
MEDLINE
Journal :
Biomedical physics & engineering express
Publication Type :
Academic Journal
Accession number :
38959873
Full Text :
https://doi.org/10.1088/2057-1976/ad5e83