International Journal of Molecular Sciences (Jan 2022)

E8002 Reduces Adhesion Formation and Improves Joint Mobility in a Rat Model of Knee Arthrofibrosis

  • Seiya Takada,
  • Kentaro Setoyama,
  • Kosuke Norimatsu,
  • Shotaro Otsuka,
  • Kazuki Nakanishi,
  • Akira Tani,
  • Tomomi Nakakogawa,
  • Ryoma Matsuzaki,
  • Teruki Matsuoka,
  • Harutoshi Sakakima,
  • Salunya Tancharoen,
  • Ikuro Maruyama,
  • Eiichiro Tanaka,
  • Kiyoshi Kikuchi,
  • Hisaaki Uchikado

DOI
https://doi.org/10.3390/ijms23031239
Journal volume & issue
Vol. 23, no. 3
p. 1239

Abstract

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Knee arthrofibrosis is a common complication of knee surgery, caused by excessive scar tissue, which results in functional disability. However, no curative treatment has been established. E8002 is an anti-adhesion material that contains L-ascorbic acid, an antioxidant. We aimed to evaluate the efficacy of E8002 for the prevention of knee arthrofibrosis in a rat model, comprising injury to the surface of the femur and quadriceps muscle 1 cm proximal to the patella. Sixteen male, 8-week-old Sprague Dawley rats were studied: in the Adhesion group, haemorrhagic injury was induced to the quadriceps and bone, and in the E8002 group, an adhesion-preventing film was implanted between the quadriceps and femur after injury. Six weeks following injury, the restriction of knee flexion owing to fibrotic scarring had not worsened in the E8002 group but had worsened in the Adhesion group. The area of fibrotic scarring was smaller in the E8002 group than in the Adhesion group (p p p < 0.01) in the fibrotic scar were lower in the E8002 group. Thus, E8002 reduces myofibroblast proliferation and fibrotic scar formation and improves the range of motion of the joint in a model of knee injury.

Keywords