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Skip to Search Results- 4Articular cartilage
- 3Vitrification
- 2Cryoprotective agents
- 1Arthritis
- 1Cartilage tissue engineering
- 1Chondrocytes
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2013
Yu, H., Jomha, N. M., Elliott, J. A., Al-Abbasi, K. K., McGann, L. E.
In previous research, we successfully cryopreserved intact human articular cartilage on its bone base with high chondrocyte viability using a vitrification protocol that entailed sequential exposure to several cryopreserving agents (CPAs) at lowering temperatures resulting in a high final...
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2010
Law, G. K., Elliott, J. A., Forbes, J. F., Weiss, A. D., McGann, L. E., Jomha, N. M.
Large articular cartilage defects have proven difficult to treat and often result in osteoarthritis of the affected joint. Cryopreservation of articular cartilage can provide an increased supply of tissues for osteochondral allograft but cryoprotective agents are required; however, few studies...
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Statistical prediction of the vitrifiability and glass stability of multi-component cryoprotective agent solutions.
Download2010
Forbes, J. F., Law, G. K., Weiss, A. D., Scheuerman, A., McGann, L. E., Elliott, J. A., Jomha, N. M.
Long-term biologic storage of articular cartilage has proven elusive due to cellular degradation over time or acute damage during attempts at cryopreservation. Vitrification is one option that may result in successful cryopreservation but difficulty with cryoprotective agent (CPA) toxicity at...
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2012
Elliott, J. A., Zhou, X., McGann, L. E., Adesida, A. B., Abazari, A., Law, G. K., Laouar, L., Forbes, J. F., Jomha, N. M., Maghdoori, B.
Articular cartilage injuries do not heal and large defects result in osteoarthritis with major personal and socioeconomic costs. Osteochondral transplantation is an effective treatment for large joint defects but its use is limited by the inability to store cartilage for long periods of time....