Test Protocols for Evaluation of Spinal Implants

doi:10.2106/JBJS.E.01363

The Journal of Bone and Joint Surgery (American). 2006;88:103-109.
doi:10.2106/JBJS.E.01363
© 2006 The Journal of Bone and Joint Surgery, Inc.

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Test Protocols for Evaluation of Spinal Implants

Vijay K. Goel, PhD, Manohar M. Panjabi, PhD, Avinash G. Patwardhan, PhD, Andrew P. Dooris, PhD and Hassan Serhan, PhD

Corresponding author:
Vijay K. Goel, PhD
Department of Bioengineering, 5051 C Nitschke Hall, College of Engineering, University of Toledo, Toledo, OH 43606.
E-mail address: vijay.goel{at}utoledo.edu

The authors did not receive grants or outside funding in supportof their research for or preparation of this manuscript. Theydid not receive payments or other benefits or a commitment oragreement to provide such benefits from a commercial entity.No commercial entity paid or directed, or agreed to pay or direct,any benefits to any research fund, foundation, educational institution,or other charitable or nonprofit organization with which the authorsare affiliated or associated.

Prior to implantation, medical devices are subjected to rigoroustesting to ensure safety and efficacy. A full battery of testingprotocols for implantable spinal devices may include many steps.Testing for biocompatibility is a necessary first step. On selectionof the material, evaluation protocols should address both thebiomechanical and clinical performance of the device. Beforeand during mechanical testing, finite element modeling can beused to optimize the design, predict performance, and, to someextent, predict durability and efficacy of the device. Following bench-typeevaluations, the biomechanical characteristics of the device(e.g., motion, load-sharing, and intradiscal pressure) can beevaluated with use of fresh human cadaveric spines. The informationgained from cadaveric testing may be supplemented by the finiteelement model-based analyses. Upon the successful completionof these tests, studies that make use of an animal model areperformed to assess the structure, function, histology, andbiomechanics of the device in situ and as a final step beforeclinical investigations are initiated.

The protocols that are presently being used for the testingof spinal devices reflect the basic and applied research experienceof the last three decades in the field of orthopaedic biomechanicsin general and the spine in particular. The innovation withinthe spinal implant industry (e.g., fusion devices in the pastversus motion-preservation devices at present) suggests thattest protocols represent a dynamic process that must keep pacewith changing expectations. Apart from randomized clinical trials,no single test can fully evaluate all of the characteristicsof a device. Due to the inherent limitations of each test, datamust be viewed in a proper context. Finally, a case is madefor the medical community to converge toward standardized test protocolsthat will enable us to compare the vast number of currently availabledevices, whether on the market or still under development, ina systematic, laboratory-independent manner.

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