Description of the relation between the forces acting in the lumbar spine and whole-body vibrations by means of transfer functions

Objective. The purpose of this study was to display the relationships betwe en the forces transmitted in the spine and the accelerations of the vibrati ng seat. Background. Investigations reveal that exposure to whole-body vibration can induce degenerative changes in the lumbar spine. Elevated spinal forces ar e probably the crucial component in the pathogenesis of this disease. Design and methods. The spinal forces are simulated by means of a biomechan ical model, where 16 rigid bodies represent the upper body and the arms of a sitting operator. The relationships between seat accelerations and spinal forces an displayed as frequency-dependent transfer functions. Results. Spinal forces are not only elevated in the direction parallel to t he vibration excitation but also in the two other orthogonal vibration dire ctions. According to the magnitudes of the transfer functions the highest o scillating parts of the forces are reached at frequencies below 10 Hz. Conclusions. Using the transfer functions, the time course of the spine for ces can be computed and a new kind of weighting function can be derived whi ch enables a force related weighting of the seat acceleration.