A Matlab toolbox for analyzing repetitive movements: application in gait and tapping experiments

Author:

Kirlangic Mehmet Eylem1234,Al-Qadhi Safwan4,Hauptmann Christian45,Freund Hans-Joachim46

Affiliation:

1. Brauhausstr. 7, 13086 , Berlin , Germany

2. Institute of Neuroscience and Medicine – INM-1, Research Centre Jülich , 52425 Jülich , Germany

3. Department of Stereotaxic and Functional Neurosurgery , University Hospital Cologne , Kerpener Str. 62, 50937 Cologne , Germany

4. Institute of Neuroscience and Medicine – INM-7, Research Centre Jülich , 52425 Jülich , Germany

5. Desyncra Operating GmbH , Hauptstr. 96, 53474 Bad Neuenahr-Ahrweiler , Germany

6. International Neuroscience Institute , Rudolf-Pichlmayr-Str. 4, 30625 Hannover , Germany

Abstract

Abstract Coordination and timing in repetitive movements have been intensively investigated in diverse experimental settings for understanding the underlying basic mechanisms in healthy controls. On this basic research side, there are mainly two theoretical models: the Wing-Kristofferson (WK) model and the Haken-Kelso-Bunz (HKB) model. On the clinical side of the research, several efforts have been spent on quantitatively assessing gait and other repetitive movements such as tapping, especially as an outcome measure of clinical trials in diverse neurological disorders. Nevertheless, Parkinson’s disease (PD) remains the predominant disorder in the clinical literature in this context, as the tremor activity and the changes in the gait are both common symptoms in PD. Although there are motion recording systems for data acquisition in clinical settings, the tools for analysis and quantification of the extracted time-series offered by these systems are severely restricted. Therefore, we introduce a toolbox which enables the analysis of repetitive movements within the framework of the two main theoretical models of motor coordination, which explicitly focuses on varying clinical and experimental settings such as self-paced vs. cued or uni-manual vs. bi-manual measurements. The toolbox contains particular pipelines for digital signal processing. Licensed under the GNU General Public License (GNU-GPL), the open source toolbox is freely available and can be downloaded from the Github link: https://github.com/MehmetEylemKirlangic/RepetitiveMovementAnalysis. We illustrate the application of the toolbox on sample experiments of gait and tapping with a control subject, as well as with a Parkinson’s patient. The patient has gone through a brain surgery for deep brain stimulation (DBS); hence, we present the results for both stimulation ON and stimulation OFF modes. Sample data are freely accessible at: https://github.com/MehmetEylemKirlangic/DATA.

Publisher

Walter de Gruyter GmbH

Subject

Biomedical Engineering

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