Open AccessVisualisation of Parkinsonian, essential and physiological tremor planes in 3Dspace
Author(s) -
Peter Jombík,
Pavel Spodniak,
V. Bahýl,
Ján Necpál
Publication year - 2020
Publication title -
physiological research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.647
H-Index - 70
eISSN - 1802-9973
pISSN - 0862-8408
DOI - 10.33549/physiolres.934066
Subject(s) - essential tremor , tilt (camera) , parkinson's disease , reference frame , horizontal plane , transversal (combinatorics) , plane (geometry) , mathematics , physics , frame (networking) , geodesy , physical medicine and rehabilitation , geometry , mathematical analysis , computer science , medicine , geology , pathology , disease , telecommunications
Based on the fact that tremors display some distinct 3D spatial characteristics, we decided to visualise tremor planes in 3D space. We obtained 3-axial linear accelerometer signals of hand tremors from 58 patients with Parkinson´s disease (PD), 37 with isolated resting tremor (iRT), 75 with essential tremor (ET), and 44 healthy volunteers with physiological tremor (Ph). For each group analysis was done with subsequent spatial 3D regression of the input data i.e. along the x, y and z axes; the projected vector lengths in the individual (vertical transversal XY, vertical longitudinal XZ and horizontal YZ) reference frame planes and their angles. Most meaningful and statistically significant differences were found in the analyses of the 3D vector lengths. The tremor of the PD and the iRT group was oriented mainly in the horizontal YZ plane. The tremors of the patients with ET and Ph were oriented approximately in the midway between the all three referential planes with less tilt toward the vertical longitudinal XZ plane.