Anti-Inflammatory Effects of Dynamic Joint Loading on Knee Articular Cartilage Post Traumatic Acute Joint Injury

Early therapeutic intervention to mitigate articular cartilage (AC) degeneration following joint injury could be a potential strategy to prevent post-traumatic osteoarthritis (PTOA). A custom-made joint loading device along with ex-vivo model of knee joint was created to examine the effects of dynamic joint loading on the expression of Interleukin1β (IL-1β) and Tumor Necrosis Factor-α (TNF-α), two inflammatory cytokines which are upregulated during the early stages of PTOA following AC injury. The objective of this dissertation work was to demonstrate the potential benefits of dynamic joint loading to AC post-acute injuries such as those commonly experienced in high impact activities. Knee joint injury prior to using the joint loading device was induced by a custom-made impact device. It was demonstrated ex-vivo that an impact of the knee joint upregulated gene expression of IL-1β and TNF-α in articular cartilage while dynamic joint loading suppressed these changes. IL-1β and TNF-α are principal mediators of the inflammatory response and their increased activities are associated with the severity of cartilage damage after acute joint injury. The findings suggest that a dynamic joint loading device could be an easy-to-administer effective and potentially early intervention strategy to mitigate rapidly occurring detrimental events from progressing into irreversible cartilage damage. Recommendations for further studies are included.

Year	Entry
1992	Buschmann MD, Gluzband YA, Grodzinsky AJ, Kimura JH, Hunziker EB. Chondrocytes in agarose culture synthesize a mechanically functional extracellular matrix. J Orthop Res. November 1992;10(6):745-758.
1993	Parkkinen JJ, Ikonen J, Lammi MJ, Laakkonen J, Tammi M, Helminen HJ. Effects of cyclic hydrostatic pressure on proteoglycan synthesis in cultured chondrocytes and articular cartilage explants. Arch Biochem Biophys. January 1993;300(1):458-465.
1970	Morrison JB. The mechanics of the knee joint in relation to normal walking. J Biomech. January 1970;3(1):51-61.
1991	Thompson RC Jr, Oegema TR Jr, Lewis JL, Wallace L. Osteoarthrotic changes after acute transarticular load: an animal model. J Bone Joint Surg. August 1991;73A(7):990-1001.
2011	Anderson DD, Chubinskaya S, Guilak F, Martin JA, Oegema TR, Olson SA, Buckwalter JA. Post-traumatic osteoarthritis: improved understanding and opportunities for early intervention. J Orthop Res. June 2011;29(6):802-809.
2006	Brown TD, Johnston RC, Saltzman CL, Marsh JL, Buckwalter JA. Posttraumatic osteoarthritis: a first estimate of incidence, prevalence, and burden of disease. J Orthop Trauma. November–December 2006;20(10):739-744.
1994	Guilak F, Meyer BC, Ratcliffe A, Mow VC. The effects of matrix compression on proteoglycan metabolism in articular cartilage explants. Osteoarthritis Cartilage. June 1994;2(2):91-101.
2000	Loening AM, James IE, Levenston ME, Badger AM, Frank EH, Kurz B, Nuttall ME, Hung H-H, Blake SM, Grodzinsky AJ, Lark MW. Injurious mechanical compression of bovine articular cartilage induces chondrocyte apoptosis. Arch Biochem Biophys. September 15, 2000;381(2):205-212.
1977	Repo RU, Finlay JB. Survival of articular cartilage after controlled impact. J Bone Joint Surg. December 1977;59A(8):1068-1076.
1993	Burton-Wurster N, Vernier-Singer M, Farquhar T, Lust G. Effect of compressive loading and unloading on the synthesis of total protein, proteoglycan, and fibronectin by canine cartilage explants. J Orthop Res. 1993;11(5):717-729.
2001	Ewers BJ, Dvoracek-Driksna D, Orth MW, Haut RC. The extent of matrix damage and chondrocyte death in mechanically traumatized articular cartilage explants depends on rate of loading. J Orthop Res. September 2001;19(5):779-784.
1988	Gray ML, Pizzanelli AM, Grodzinsky AJ, Lee RC. Mechanical and physicochemical determinants of the chondrocyte biosynthetic response. J Orthop Res. November 1988;6(6):777-792.
1998	Quinn TM, Grodzinsky AJ, Hunziker EB, Sandy JD. Effects of injurious compression on matrix turnover around individual cells in calf articular cartilage explants. J Orthop Res. July 1998;16(4):490-499.
2011	Guilak F. Biomechanical factors in osteoarthritis. Best Pract Res Clin Rheumatol. December 2011;25(6):815-823.
1999	Torzilli PA, Grigiene R, Borrelli J Jr, Helfet DL. Effect of impact load on articular cartilage: cell metabolism and viability, and matrix water content. J Biomech Eng. October 1999;121(5):433-441.
1995	Suh J-K, Li Z, Woo SL-Y. Dynamic behavior of a biphasic cartilage model under cyclic compressive loading. J Biomech. April 1995;28(4):357-364.
1990	O'Hara BP, Urban JP, Maroudas A. Influence of cyclic loading on the nutrition of articular cartilage. Ann Rheum Dis. July 1990;49(7):536-539.
1991	Sah RL-Y, Doong J-YH, Grodzinsky AJ, Plaas AHK, Sandy JD. Effects of compression on the loss of newly synthesized proteoglycans and proteins from cartilage explants. Arch Biochem Biophys. April 1991;286(1):209-29.
1995	Jeffrey JE, Gregory DW, Aspden RM. Matrix damage and chondrocyte viability following a single impact load on articular-cartilage. Arch Biochem Biophys. September 10, 1995;322(1):87-96.
2005	Lee JH, Fitzgerald JB, DiMicco MA, Grodzinsky AJ. Mechanical injury of cartilage explants causes specific time-dependent changes in chondrocyte gene expression. Arthritis Rheum. August 2005;52(8):2386-2395.
2004	von Porat A, Roos EM, Roos H. High prevalence of osteoarthritis 14 years after an anterior cruciate ligament tear in male soccer players: a study of radiographic and patient relevant outcomes. Ann Rheum Dis. March 2004;63(3):269-273.
2003	Patwari P, Cook MN, DiMicco MA, Blake SM, James IE, Kumar S, Cole AA, Lark MW, Grodzinsky AJ. Proteoglycan degradation after injurious compression of bovine and human articular cartilage in vitro: interaction with exogenous cytokines. Arthritis Rheum. May 2003;48(5):1292-1301.
2014	Sanchez-Adams J, Leddy HA, McNulty AL, O’Conor CJ, Guilak F. The mechanobiology of articular cartilage: bearing the burden of osteoarthritis. Curr Rheumatol Rep. October 2014;16(10):451.

Year

Entry

1992

Buschmann MD, Gluzband YA, Grodzinsky AJ, Kimura JH, Hunziker EB. Chondrocytes in agarose culture synthesize a mechanically functional extracellular matrix. J Orthop Res. November 1992;10(6):745-758.

1993

Parkkinen JJ, Ikonen J, Lammi MJ, Laakkonen J, Tammi M, Helminen HJ. Effects of cyclic hydrostatic pressure on proteoglycan synthesis in cultured chondrocytes and articular cartilage explants. Arch Biochem Biophys. January 1993;300(1):458-465.

1970

Morrison JB. The mechanics of the knee joint in relation to normal walking. J Biomech. January 1970;3(1):51-61.

1991

Thompson RC Jr, Oegema TR Jr, Lewis JL, Wallace L. Osteoarthrotic changes after acute transarticular load: an animal model. J Bone Joint Surg. August 1991;73A(7):990-1001.

2011

Anderson DD, Chubinskaya S, Guilak F, Martin JA, Oegema TR, Olson SA, Buckwalter JA. Post-traumatic osteoarthritis: improved understanding and opportunities for early intervention. J Orthop Res. June 2011;29(6):802-809.