Treatment of Articular Cartilage Defects in the Goat with Frozen Versus Fresh Osteochondral Allografts: Effects on Cartilage Stiffness, Zonal Composition, and Structure at Six Months

Understanding the effectiveness of frozen as compared with fresh osteochondral allografts at six months after surgery and the resultant consequences of traditional freezing may facilitate in vivo maintenance of cartilage integrity. Our hypothesis was that the state of the allograft at implantation a...

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Published in:Journal of bone and joint surgery. American volume 2012-11, Vol.94 (21), p.1984-1995
Main Authors: Pallante, Andrea L., Görtz, Simon, Chen, Albert C., Healey, Robert M., Chase, Derek C., Ball, Scott T., Amiel, David, Sah, Robert L., Bugbee, William D.
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
Bone Transplantation
Cartilage - injuries
Cartilage - physiopathology
Cartilage - surgery
Cartilage - transplantation
Cartilage, Articular - injuries
Cartilage, Articular - physiopathology
Cartilage, Articular - surgery
Cell Survival
Disease Models, Animal
Diseases of the osteoarticular system
Goats
Graft Survival
Medical sciences
Orthopedic surgery
Scientific
Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases
Tissue Preservation
Transplantation, Homologous
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Summary:Understanding the effectiveness of frozen as compared with fresh osteochondral allografts at six months after surgery and the resultant consequences of traditional freezing may facilitate in vivo maintenance of cartilage integrity. Our hypothesis was that the state of the allograft at implantation affects its performance after six months in vivo. The effect of frozen as compared with fresh storage on in vivo allograft performance was determined for osteochondral allografts that were transplanted into seven recipient goats and analyzed at six months. Allograft performance was assessed by examining osteochondral structure (cartilage thickness, fill, surface location, surface degeneration, and bone-cartilage interface location), zonal cartilage composition (cellularity, matrix content), and cartilage biomechanical function (stiffness). Relationships between cartilage stiffness or cartilage composition and surface degeneration were assessed with use of linear regression. Fresh allografts maintained cartilage load-bearing function, while also maintaining zonal organization of cartilage cellularity and matrix content, compared with frozen allografts. Overall, allograft performance was similar between fresh allografts and nonoperative controls. However, cartilage stiffness was approximately 80% lower (95% confidence interval [CI], 73% to 87%) in the frozen allografts than in the nonoperative controls or fresh allografts. Concomitantly, in frozen allografts, matrix content and cellularity were approximately 55% (95% CI, 22% to 92%) and approximately 96% (95% CI, 94% to 99%) lower, respectively, than those in the nonoperative controls and fresh allografts. Cartilage stiffness correlated positively with cartilage cellularity and matrix content, and negatively with surface degeneration. Maintenance of cartilage load-bearing function in allografts is associated with zonal maintenance of cartilage cellularity and matrix content. In this animal model, frozen allografts displayed signs of failure at six months, with cartilage softening, loss of cells and matrix, and/or graft subsidence, supporting the importance of maintaining cell viability during allograft storage and suggesting that outcomes at six months may be indicative of long-term (dys)function. Fresh versus frozen allografts represent the "best versus worst" conditions with respect to chondrocyte viability, but "difficult versus simple" with respect to acquisition and distribution. The outcomes described from th
ISSN:0021-9355
1535-1386
DOI:10.2106/JBJS.K.00439