• Title of article

    Surgical instrumentation for the in vivo determination of human lumbar spinal segment stiffness and viscoelasticity

  • Author/Authors

    Ambrosetti-Giudici، نويسنده , , Sveva and Pfenniger، نويسنده , , Alois and Krenn، نويسنده , , Michael H. and Piotrowski، نويسنده , , Wolfgang P. and Ferguson، نويسنده , , Stephen J. and Burger، نويسنده , , Juergen، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    6
  • From page
    1063
  • To page
    1068
  • Abstract
    The definition of spinal instability is still controversial. For this reason, it is essential to better understand the difference in biomechanical behaviour between healthy and degenerated human spinal segments in vivo. A novel computer-assisted instrument was developed with the objective to characterize the biomechanical parameters of the spinal segment. Investigation of the viscoelastic properties as well as the dynamic spinal stiffness was performed during a minimally invasive procedure (microdiscectomy) on five patients. Measurements were performed intraoperatively and the protocol consisted of a dynamic part, where spinal stiffness was computed, and a static part, where force relaxation of the segment under constant elongation was studied. The repeatability of the measurement procedure was demonstrated with five replicated tests. The spinal segment tissues were found to have viscoelastic properties. Preliminary tests confirmed a decrease in stiffness after decompression surgery. Patients with non-relaxed muscles showed higher stiffness and relaxation rate compared to patients with relaxed muscles, which can be explained by the contraction and relaxation reflex of muscles under fast and then static elongation. The results show the usefulness of the biomechanical characterization of the human lumbar spinal segment to improve the understanding of the contribution of individual anatomical structures to spinal stability.
  • Keywords
    Lumbar spinal instability , Viscoelastic parameters , Characterization spinal segment , Surgical instrumentation , Spinal stiffness
  • Journal title
    Medical Engineering and Physics
  • Serial Year
    2009
  • Journal title
    Medical Engineering and Physics
  • Record number

    1730728