Vibration and the human spine

Wilder, David G.<sup>1</sup>; Woodworth, Barry B.<sup>1</sup>; Frymoyer, John W.<sup>1</sup>; Pope, Malcolm H.<sup>1</sup>

Affiliations

¹Department of Orthopaedics & Rehabilitation, University of Vermont College of Medicine, Burlington, VT 05405

Abstract and keywords

Vibrational effects have been found to be associated with increased frequency of low-back pain in various industries, and because of this the study herein reported was conducted to assess the physiologic response of the spinal system to sinusoidal vibrations. A device replicating industrial vibration was constructed and employed on healthy human volunteers to determine the stiffness, impedence, and resonant characteristics of the subjects. Three peaks of enhanced transmissibility corresponding to the resonant frequency of the spinal system were found. The greatest transmissibility of vibatory input occurs at the first resonant frequency (5Hz) where marked enhancement of vibrational input occurs as vibrations pass through the spinal system. A progressive stiffening of the system occurs in response to vibrational inputs of increasing frequency. The effects of posture, the Valsalva maneuver, and fatigue alter the normal response. Structures vibrated at the first resonant frequency have greater potential for damage.

Keywords: vibration; resonance; stiffness; transmissibility

Links

DOI: 10.1097/00007632-198205000-00008

PubMed: 6214030

WoS: A1982NW02800007

Ovid: 00007632-198205000-00008

History

Received: 1981-06-30

Accepted: 1981-06-30

Cited By (22)

Year	Entry
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2010	Hanumanthareddygari V. Neuromotor Response to Whole Body Vibration Transmissibility in the Horizontal Direction and Its Mathematical Model [Master's thesis]. Lawrence, KS: University of Kansas; 2010.
2016	Killen W. Evaluation of a Vibration Measurement Tool as Part of a Whole-Body Vibration Management Program in Underground Hard-Rock Mining [Master's thesis]. Sudbury, ON: Laurentian University; 2016.
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1988	Desrosiers J. Whole Body Vibration, and Its Effects on Load-Haul Dump Operators, in Underground Mining [Master's thesis]. Simon Fraser University; April 1988.
2002	Giacomin JA. An Experimental Investigation of the Vibrational Comfort of Child Safety Seats [PhD thesis]. University of Sheffield; December 2002.
1999	Matsumoto Y. Dynamic Response of Standing and Seated Persons to Whole-Body Vibration: Principal Resonance of the Body [PhD thesis]. Southampton, England: University of Southampton; June 1999.
1988	Kim YE. An Analytical Investigation of Ligamentous Lumbar Spine Mechanics University of Iowa; May 1988.
1992	Butler BP. Helmeted Head and Neck Dynamics Under Whole-Body Vibration [PhD thesis]. University of Michigan; 1992.
2012	Jack RJ. Investigating Whole-Body Vibration Injuries in Forestry Skidder Operators: Combining Operator Vibration Exposures and Postures in the Field With Biodynamic Responses in the Laboratory [PhD thesis]. Guelph, ON: University of Guelph; January 2012.
2008	De Carvalho DE. Time Varying Gender and Passive Tissue Responses to Prolonged Driving [Master's thesis]. University of Waterloo; 2008.
2009	Gregory DE. The Influence of the Tensile Material Properties of Single Annulus Fibrosus Lamellae and the Interlamellar Matrix Strength on Disc Herniation and Progression [PhD thesis]. University of Waterloo; 2009.