Chronic changes in rabbit retro-patellar cartilage and subchondral bone after blunt impact loading of the patellofemoral joint
Journal of Orthopaedic Research 20:545-550, 2002
Benjamin J. Ewers, Brian T. Weaver, Eric T. Sevensma,
Roger C. Haut
ABSTRACT:
Animal models of acute joint
injury are useful for study of changes in joint tissues that may eventually
lead to degradative disease. Our
laboratory has developed a joint trauma model using a single blunt impact to
the patellofemoral joint of rabbits and disease. Our laboratory has developed a
joint trauma model using a single blunt impact to the patellofemoral joint of
rabbits and documented softening of retro-patellar cartilage and thickening of
its underlying bone out to 12 months post-trauma. In the present study, we examined changes in these joint tissues
out to 36 months post-impact.
Forty-nine Flemish giant rabbits were impacted on the right
patellofemoral joint and sacrificed at one of six times: 0, 4.5, 7.5, 12, 24,
and 36 months post-impact. A 30%
reduction in the compressive modulus of traumatized retro-patellar cartilage
occurred at 4.5 months versus the contralateral, non-impacted limb and remained
at this reduced level out to 36 months. The fluid permeability of traumatized
cartilage also increased over time from baseline and versus the non-impacted
limb. Tissue thickness increased
slightly at 4.5 months and then decreased over time to a 45% difference from
baseline at 36 months post-trauma.
While impacted cartilage revealed a significantly greater length of
surface fissuring than contralateral, non-impacted cartilage, no time-dependent
changes were evident in this study.
Moreover, the number and depth of these impact surface lesions did not
change as a function of time. Finally the histological analyses indicated that
the thickness of underlying subchondral bone increased over time from baseline
and versus that in the non-impacted limb. This long-term study suggested an
association between a decrease in the characteristic time constant of traumatized
cartilage and thickening of the underlying subchondral bone. Any potential
cause and effect relationship, however, must be investigated in future
studies.
Please address correspondence to:
Roger C. Haut, Ph.D.,
Orthopaedic
Biomechanics Laboratory,
College of
Osteopathic Medicine,
A407 East Fee
Hall,
Michigan
State University,
East Lansing,
MI 48824,
Tel:
(517)355-0320,
Fax: (517)353-0789,
E-mail: haut@msu.edu