Viscoelastic properties of cartilage-subchondral bone complex in osteoarthritis

J Med Eng Technol. 2004 Sep-Oct;28(5):223-6. doi: 10.1080/03091900410001676003.

Abstract

Objective: This study examines viscoelastic properties of the 'unaffected' tibial condyle in unicompartmental osteoarthritic knees, in order to determine whether to preserve it or not in knee replacement operations.

Design: The viscoelastic properties of longitudinal strips of cartilage and subchondral bone from osteoarthritic and healthy knees were studied.

Methods: Nine medial compartment osteoarthritic and nine cadaveric knees, all age- and gender-matched, were studied. Samples from polyethylene and methacrylate cement were also obtained and all then tested in the DMA (Dynamic Mechanical Analysis) testing apparatus. The dynamic modulus of elasticity (E(dyn)) and the loss factor (tan delta) were measured.

Results: The medial compartment in osteoarthritic knees had lost its viscoelastic properties, having a significantly higher E(dyn) compared to the lateral one, and lower values of loss factor. In healthy knees there was no significant difference (p=0.18) in viscoelastic properties between both compartments and with the unaffected side of the osteoarthritic knee. Polyethylene and cement appear to have a high modulus of elasticity compared to both the healthy and the osteoarthritic knees.

Conclusions: The 'unaffected' (lateral) tibial condyles in medial compartment osteoarthritic knees seem to preserve their viscoelastic properties; it is worth considering a hemiarthroplasty. The significant modulus of elasticity difference between the condyles-polyethylene-cement results in different deformation in the interface between them and induces micromotion and loosening.

Publication types

  • Clinical Trial
  • Comparative Study
  • Controlled Clinical Trial

MeSH terms

  • Bone Cements / chemistry*
  • Bone Substitutes / chemistry*
  • Cartilage, Articular / physiopathology*
  • Elasticity
  • Humans
  • In Vitro Techniques
  • Materials Testing
  • Osteoarthritis, Knee / physiopathology*
  • Tibia / physiopathology*
  • Viscosity

Substances

  • Bone Cements
  • Bone Substitutes