• Title of article

    Functional compressive mechanics of a PVA/PVP nucleus pulposus replacement

  • Author/Authors

    Abhijeet Joshi، نويسنده , , Garland Fussell، نويسنده , , Jonathan Thomas، نويسنده , , Andrew Hsuan، نويسنده , , Anthony Lowman، نويسنده , , Andrew Karduna، نويسنده , , Ed Vresilovic، نويسنده , , Michele Marcolongo، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2006
  • Pages
    9
  • From page
    176
  • To page
    184
  • Abstract
    Emerging techniques as an alternative to the current treatments of lower back pain include nucleus replacement by an artificial material, which aims to relieve pain and restore the normal spinal motion. The compressive mechanical behavior of the PVA/PVP hydrogel nucleus implant was assessed in the present study. PVA/PVP hydrogels were made with various PVP concentrations. The hydrogels were loaded statically under unconfined and confined conditions. Hydrogels were tested dynamically up to 10 million cycles for a compression fatigue. Also, hydrogel nucleus implants with a line-to-line fit, were implanted in the human cadaveric intervertebral discs (IVD) to determine the compressional behavior of the implanted discs. Hydrogel samples exhibited typical non-linear response under both unconfined and confined compressions. Properties of the confinement ring dictated the observed response. Hydrogel moduli and polymer content were not different pre- and post-fatigues. Slight geometrical changes (mostly recoverable) were observed post-fatigue. In cadavers, hydrogels restored the compressive stiffness of the denucleated disc when compared with equivalent condition of the IVD. The results of this study demonstrate that PVA/PVP hydrogels may be viable as nucleus pulposus implants. Further studies under complex loading conditions are warranted to better assess its potential as a replacement to the degenerated nucleus pulposus.
  • Keywords
    intervertebral disc , Spinal implant , hydrogel , Mechanical test , Nucleus pulposus
  • Journal title
    Biomaterials
  • Serial Year
    2006
  • Journal title
    Biomaterials
  • Record number

    546645