Biomed Eng Lett.  2017 Aug;7(3):215-219. 10.1007/s13534-017-0031-6.

Non-magnetic compliant finger sensor for continuous fine motor movement detection

Affiliations
  • 1Faculty of Applied Sciences, Simon Fraser University, Burnaby, Canada. tpc5@sfu.ca
  • 2Health Sciences and Innovation, Surrey Memorial Hospital, Fraser Health Authority, Surrey, Canada.

Abstract

A non-magnetic MEG compatible device has been developed that provides continuous force and velocity information. Combined with MEG, this device may find utility in characterizing brain regions associated with force and velocity relative to individual digits or movement pattern. 15 healthy right-handed participants were given visual cues to perform random finger movements on the prototype finger sensor for 21 s and then rest for 21 s (7 times). Respective finger flexion data were obtained, during 151-channel MEG brain scanning, by feeding the signal from finger sensor into four input Analog to Digital Converter (ADC) channels in the MEG hardware. The source activity was reconstructed in beta band using a Linearly Constrained Minimum Variance (LCMV) beamformer in the beta band. The ADC channels were used as regressors for a continuous time General Linear Model (GLM) and a Region of Interest (ROI) was identified to examine activity. MEG analysis showed bilateral activation in the primary motor cortex region. Because individual digits could be isolated in the ADC data, somatotopy of the fingers were observed consistent with the homunculus except pinky finger. The total span was calculated to be 5.5662 mm. The study confirms that the finger sensor is magnetically compatible with MEG measurements and may potentially provide a means to study complex sensorimotor functions. Improved isolation of individual digit information along with the use of machine learning algorithms can help retrieve more accurate results.

Keyword

MEG compatible; Somatotopy; Sensorimotor; Force regressed contrast; Real-time motion data

MeSH Terms

Brain
Cues
Fingers*
Linear Models
Machine Learning
Motor Cortex
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