Standing centre of pressure alters the vibration transmissibility response of the foot

posted on 18.06.2019 by Katie A. Goggins, Marco Tarabini, W. Brent Lievers, Tammy R. Eger

Vibration-white foot as an occupational disease has underscored the need to better understand the vibration response of the foot. While vibration transmissibility data exist for a natural standing position, it is anticipated that weight distribution will affect the response. The purpose of this study was to determine the effects of changes in centre of pressure (COP) on the foot’s biomechanical response. Twenty-one participants were exposed to vertical vibration of 30 mm/s, with a sine sweep from 10–200 Hz. Z-axis (vertical) vibration was measured at 24 locations on the right foot, with the COP shifted forward or toward the heel. A mixed model analysis at each location revealed significant differences (p < .001) in the transmissibility response when the COP was altered to the forefoot and rearfoot. In general, the peak frequency of the average vibration response increased for a region of the foot when the COP was shifted toward that region.

Practitioner Summary: Altering the centre of pressure location resulted in changes in the transmission of vibration through the foot. The forward lean position was associated with the greatest amplitude of vibration transmissibility at the toes. This information is relevant for clinicians studying vibration-induced white-foot and engineers designing protective equipment.


This work was supported by a Natural Science and Engineering Research Council of Canada Discovery Grant [RGPIN/4252-2015] and by Regione Lombardia within the project ‘PORFESR 2014-2020: ‘Smart Fashion and Design’. Also, Dr. Lievers, an IAMGOLD Research Fellow gratefully acknowledges the financial support of the IAMGOLD Corporation.