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Journal of Medical Engineering & Technology Volume 38, 2014 - Issue 5
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Research Article

Biomechanical performance of an ovine model of intradural spinal cord stimulation

S. SafayiDepartment of Veterinary Clinical Sciences, Iowa State University Ames, IowaUSA
,
N. D. JefferyDepartment of Veterinary Clinical Sciences, Iowa State University Ames, IowaUSA
,
D. C. FredericksDepartment of Orthopaedics & Rehabilitation
,
S. ViljoenDepartment of Neurosurgery, University of Iowa Hospitals and Clinics Iowa City, IowaUSA
,
B. D. DalmDepartment of Neurosurgery, University of Iowa Hospitals and Clinics Iowa City, IowaUSA
,
C. G. ReddyDepartment of Neurosurgery, University of Iowa Hospitals and Clinics Iowa City, IowaUSA
,
S. WilsonDepartment of Neurosurgery, University of Iowa Hospitals and Clinics Iowa City, IowaUSA
,
G. T. GilliesDepartment of Mechanical and Aerospace Engineering, University of Virginia Charlottesville, VirginiaUSA
&
M. A. Howard , IIIDepartment of Neurosurgery, University of Iowa Hospitals and Clinics Iowa City, IowaUSACorrespondence[email protected]
 show all
Pages 269-273 | Received 13 Mar 2014, Accepted 03 Apr 2014, Published online: 19 May 2014
 
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Abstract

The authors are developing a novel type of spinal cord stimulator, designed to be placed directly on the pial surface of the spinal cord, for more selective activation of target tissues within the dorsal columns. For pre-clinical testing of the device components, an ovine model has been implemented which utilizes the agility and flexibility of a sheep’s cervical and upper thoracic regions, thus providing an optimal environment of accelerated stress-cycling on small gauge lead wires implanted along the dorsal spinal columns. The results are presented of representative biomechanical measurements of the angles of rotation and the angular velocities and accelerations associated with the relevant head, neck and upper back motions, and these findings are interpreted in terms of their impact on assessing the robustness of the stimulator implant systems.

Acknowledgements

We thank Hiroyuki Oya, MD, Hiroto Kawasaki, MD, W. R. Smoker, MD, Mahdi Zamanighomi, Sara K. Shivapour and H. Chen for several useful discussions and technical assistance. We also thank R. Shurig and colleagues of Evergreen Medical Technologies LLC for skillful fabrication of the prototype HSCMS devices such as that shown in .

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