Whole body vibration has been postulated to contribute to the onset of back pain. However, little is known about the relationship between vibration exposure, the biomechanical response, and the physiological responses of the seated human. The aim of this study was to measure the frequency and corresponding muscle responses of seated male volunteers during whole body vibration exposures along the vertical and anteroposterior directions to define the transmissibility and associated muscle activation responses for relevant whole body vibration exposures. Seated human male volunteers underwent separate whole body vibration exposures in the vertical (Z-direction) and anteroposterior (X-direction) directions using sinusoidal sweeps ranging from 2 to 18 Hz, with a constant amplitude of 0.4 g. For each vibration exposure, the accelerations and displacements of the seat and lumbar and thoracic spines were recorded. In addition, muscle activity in the lumbar and thoracic spines was recorded using electromyography (EMG) and surface electrodes in the lumbar and thoracic region. Transmissibility was determined, and peak transmissibility, displacement, and muscle activity were compared in each of the lumbar and thoracic regions. The peak transmissibility for vertical vibrations occurred at 4 Hz for both the lumbar (1.55 ± 0.34) and thoracic (1.49 ± 0.21) regions. For X-directed seat vibrations, the transmissibility ratio in both spinal regions was highest at 2 Hz but never exceeded a value of 1. The peak muscle response in both spinal regions occurred at frequencies corresponding to the peak transmissibility, regardless of the direction of imposed seat vibration: 4 Hz for the Z-direction and 2–3 Hz for the X-direction. In both vibration directions, spinal displacements occurred primarily in the direction of seat vibration, with little off-axis motion. The occurrence of peak muscle responses at frequencies of peak transmissibility suggests that such frequencies may induce greater muscle activity, leading to muscle fatigue, which could be a contributing mechanism of back pain.
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October 2014
Research-Article
Characterization of the Frequency and Muscle Responses of the Lumbar and Thoracic Spines of Seated Volunteers During Sinusoidal Whole Body Vibration
Hassam A. Baig,
Hassam A. Baig
Department of Bioengineering,
University of Pennsylvania
,210 S. 33rd Street
,Room 240 Skirkanich Hall
,Philadelphia, PA 19104
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Daniel B. Dorman,
Daniel B. Dorman
Injury Biomechanics Branch,
Oak Ridge Institute for Science and Education,
Oak Ridge Institute for Science and Education,
US Army Aeromedical Research Laboratory
,Building 6901
,Fort Rucker, AL 36362
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Ben A. Bulka,
Ben A. Bulka
Department of Bioengineering,
University of Pennsylvania
,210 S. 33rd Street
,Room 240 Skirkanich Hall
,Philadelphia, PA 19104
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Bethany L. Shivers,
Bethany L. Shivers
Injury Biomechanics Branch,
Oak Ridge Institute for Science and Education,
Oak Ridge Institute for Science and Education,
US Army Aeromedical Research Laboratory
,Building 6901
,Fort Rucker, AL 36362
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Valeta C. Chancey,
Valeta C. Chancey
Injury Biomechanics Branch,
US Army Aeromedical Research Laboratory
,Building 6901
,Fort Rucker, AL 36362
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Beth A. Winkelstein
Beth A. Winkelstein
1
Department of Bioengineering,
e-mail: winkelst@seas.upenn.edu
University of Pennsylvania
,210 S. 33rd Street
,Room 240 Skirkanich Hall
,Philadelphia, PA 19104
e-mail: winkelst@seas.upenn.edu
1Corresponding author.
Search for other works by this author on:
Hassam A. Baig
Department of Bioengineering,
University of Pennsylvania
,210 S. 33rd Street
,Room 240 Skirkanich Hall
,Philadelphia, PA 19104
Daniel B. Dorman
Injury Biomechanics Branch,
Oak Ridge Institute for Science and Education,
Oak Ridge Institute for Science and Education,
US Army Aeromedical Research Laboratory
,Building 6901
,Fort Rucker, AL 36362
Ben A. Bulka
Department of Bioengineering,
University of Pennsylvania
,210 S. 33rd Street
,Room 240 Skirkanich Hall
,Philadelphia, PA 19104
Bethany L. Shivers
Injury Biomechanics Branch,
Oak Ridge Institute for Science and Education,
Oak Ridge Institute for Science and Education,
US Army Aeromedical Research Laboratory
,Building 6901
,Fort Rucker, AL 36362
Valeta C. Chancey
Injury Biomechanics Branch,
US Army Aeromedical Research Laboratory
,Building 6901
,Fort Rucker, AL 36362
Beth A. Winkelstein
Department of Bioengineering,
e-mail: winkelst@seas.upenn.edu
University of Pennsylvania
,210 S. 33rd Street
,Room 240 Skirkanich Hall
,Philadelphia, PA 19104
e-mail: winkelst@seas.upenn.edu
1Corresponding author.
Manuscript received August 31, 2013; final manuscript received May 20, 2014; accepted manuscript posted July 14, 2014; published online August 6, 2014. Editor: Victor H. Barocas.
This material is declared a work of the US Government and is not subject to copyright protection in the United States. Approved for public release; distribution is unlimited.
J Biomech Eng. Oct 2014, 136(10): 101002 (7 pages)
Published Online: August 6, 2014
Article history
Received:
August 31, 2013
Revision Received:
May 20, 2014
Accepted:
July 14, 2014
Citation
Baig, H. A., Dorman, D. B., Bulka, B. A., Shivers, B. L., Chancey, V. C., and Winkelstein, B. A. (August 6, 2014). "Characterization of the Frequency and Muscle Responses of the Lumbar and Thoracic Spines of Seated Volunteers During Sinusoidal Whole Body Vibration." ASME. J Biomech Eng. October 2014; 136(10): 101002. https://doi.org/10.1115/1.4027998
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