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Use of biodegradable urethane‐based adhesives to appose meniscal defect edges in an ovine model: a preliminary study
Author(s) -
FIELD JR,
GUNATILLAKE P,
ADHIKARI R,
RAMSHAW JAM,
WERKMEISTER JA
Publication year - 2008
Publication title -
australian veterinary journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.382
H-Index - 59
eISSN - 1751-0813
pISSN - 0005-0423
DOI - 10.1111/j.1751-0813.2008.00300.x
Subject(s) - meniscus , medicine , cartilage , vascularity , synovial fluid , medial meniscus , lateral meniscus , osteoarthritis , knee joint , anatomy , surgery , pathology , physics , alternative medicine , incidence (geometry) , optics
Objective To evaluate the biological response to two urethane‐based adhesives used to repair full thickness meniscal wounds created in the partially vascularised (red‐white) zone. Design An ovine bilateral meniscal defect model was used to evaluate the initial biological response of the meniscal cartilage and synovium over a 1‐month period. A 10‐mm full‐thickness defect was created in the medial meniscus of each femorotibial joint. The defects were either left untreated or repaired using the urethane‐based adhesives. Synovial fluid, synovial membrane and the meniscal cartilages were retrieved at necropsy for cytological and histological assessment. Results The ovine model proved to be a suitable system for examining meniscal repair. Untreated defects showed no tissue apposition or cellular healing response, whereas all eight defects repaired with the two urethane‐based adhesive formulations showed signs of repair and tissue regeneration with indications of cell infiltration and new collagen deposition in and around the polymer. No adverse cellular response to the adhesives was observed in the meniscal defect or in the synovial membrane and fluid. Conclusion Trauma to the knee commonly results in tears to the meniscal cartilage, with the majority of these occurring in the partially vascularised (red‐white) or non‐vascularised (white) zones of the meniscus. Repair, and subsequent healing, of these tears is poor because of the reduced vascularity and limited surgical access. The present data indicate that an ovine model is a suitable system for examining meniscal repair, and that development of urethane‐based adhesives offers a strategy that may be clinically effective for the treatment of these injuries.