Pathologic Role of Inflammation and Mechanistic Analysis of Myofibroblastogenesis in Arthrofibrosis

Project: Research project

Project Details


ABSTRACT Arthrofibrosis is a very prevalent debilitating complication of routine total knee arthroplasty. Our laboratory develops mechanism-based strategies for (i) treatment of arthrofibrosis, (ii) early intervention when the disease process is initiated, and (iii) identification of novel biomarkers that permit the monitoring of disease progression. We will address a major knowledge gap by addressing the central hypothesis that arthrofibrosis is initiated in vivo by local alterations in inflammation-related tissue repair processes after joint surgery. We propose that inflammatory processes modulate formation of mechano-protective transient connective tissues and that deregulation of normal joint tissue healing results in alterations in the growth, differentiation and activity of (proto)myofibroblasts that may emerge from the perivascular compartment of synovial tissues. To understand the mechanisms contributing to arthrofibrosis, we will analyze (i) the pathologic roles of inflammatory processes in a rabbit model for arthrofibrosis (Aim 1); and (ii) mechanisms of myofibroblastogenesis that are deregulated during arthrofibrosis by molecular analyses of biopsies and primary cell cultures from patients undergoing revision TKAs for arthrofibrosis, as well as established in vitro models for myofibroblast proliferation and differentiation in culture, as well as co-culture models with mast cells involved in the initial inflammatory response during tissue repair (Aim 2). The key deliverables of this proposal are translational innovation (Aim 1) by establishing (i) the mechanistic role of inflammation in arthrofibrosis and (ii) characterization of the potential efficacy of anti-inflammatory drugs to mitigate or reverse disease progression. Furthermore, this study is conceptually innovative (Aim 2) by establishing (iii) cell structure-linked kinase-mediated signaling pathways and gene regulatory networks that mediate myofibroblast differentiation in joint tissues, and (iv) functional consequences of inhibiting key regulatory proteins that drive the intrinsic ability of fibroblasts to convert to myofibroblasts.
Effective start/end date4/1/182/28/23


  • National Institute of Arthritis and Musculoskeletal and Skin Diseases: $314,820.00
  • National Institute of Arthritis and Musculoskeletal and Skin Diseases: $349,800.00
  • National Institute of Arthritis and Musculoskeletal and Skin Diseases: $349,800.00


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