Research

Time-dependent compressive deformation of the ageing spine relevance to spinal stenosis


Reference:

Pollintine, P., van Tunen, M. S. L. M., Luo, J., Brown, M. D., Dolan, P. and Adams, M. A., 2010. Time-dependent compressive deformation of the ageing spine relevance to spinal stenosis. Spine, 35 (4), pp. 386-394.

Related documents:

This repository does not currently have the full-text of this item.
You may be able to access a copy if URLs are provided below. (Contact Author)

Official URL:

http://dx.doi.org/10.1097/BRS.0b013e3181b0ef26

Abstract

Study Design. Mechanical testing of cadaveric spines. Objective. To test the hypothesis that, in the ageing spine, vertebrae deform more than discs, and contribute to time-dependent creep. Summary of Background Data. Intervertebral discs and vertebrae deform under load, narrowing the intervertebral foramen and increasing the risk of nerve root entrapment. Little is known about compressive deformations when elderly spines are subjected to sustained physiologic loading. Methods. A total of 117 thoracolumbar motion segments, aged 19 to 96 yrs (mean, 69), were subjected to 1kN compressive loading for 0.5, 1, or 2 hours. Deformations during the first 7 seconds were designated "elastic" and subsequent deformations as "creep". A 3-parameter model was fitted to experimental data in order to characterize their viscous modulus E-1, elastic modulus E-2 (initial stiffness), and viscosity eta (resistance to fluid flow). Intradiscal pressure (IDP) was measured using a miniature needle-mounted transducer. In 17 specimens loaded for 0.5 hours, an optical MacReflex system measured compressive deformations separately in the disc and each vertebral body. Results. On average, the disc contributed 28% of the spine's elastic deformation, 51% of the creep deformation, and 38% of total deformation. Elastic, creep, and total deformations of 84 motion segments in 2-hour tests averaged 0.87, 1.37, and 2.24 mm respectively. Measured deformations were predicted accurately by the model (average r(2) = 0.97), but E-1, E-2, and eta depended on the duration of loading. E-1 and eta decreased with advancing age and disc degeneration, in proportion to falling IDP (P < 0.001). Total compressive deformation increased with age, but rarely exceeded 3 mm. Conclusion. When the ageing spine is compressed, vertebral bodies show greater elastic deformations than intervertebral discs, and creep by a similar amount. Responses to axial compression depend largely on IDP, but deformations appear to be limited by impaction of adjacent neural arches. Total compressive deformations are sufficient to cause foraminal stenosis in some individuals.

Details

Item Type Articles
CreatorsPollintine, P., van Tunen, M. S. L. M., Luo, J., Brown, M. D., Dolan, P. and Adams, M. A.
DOI10.1097/BRS.0b013e3181b0ef26
DepartmentsFaculty of Engineering & Design > Mechanical Engineering
RefereedYes
StatusPublished
ID Code18464

Export

Actions (login required)

View Item