地塞米松对软骨外植体长期培养过程中功能特性的影响。
Effects of dexamethasone on the functional properties of cartilage explants during long-term culture.
机构信息
Cellular Engineering Laboratory, Department of Biomedical Engineering, Columbia University, 1210 Amsterdam Avenue, New York, NY 10027, USA.
出版信息
Am J Sports Med. 2010 Jan;38(1):78-85. doi: 10.1177/0363546509354197. Epub 2009 Dec 3.
BACKGROUND
Intact articular cartilage tissue is used clinically in the form of osteochondral allografts and experimentally as explants in modeling the physiologic behavior of chondrocytes in their native extracellular matrix. Long-term maintenance of allograft tissue is challenging.
HYPOTHESIS
By carefully modulating the preservation environment, it may be possible to preserve osteochondral allograft tissue over the long term while maintaining its original mechanical and biochemical properties.
STUDY DESIGN
Controlled laboratory study.
METHODS
In this study, juvenile bovine, mature bovine, and canine cartilage explants were cultured in chemically defined media with or without supplementation of dexamethasone for up to 4 weeks.
RESULTS
The mechanical properties and biochemical content of juvenile bovine explants cultured in the presence of dexamethasone were significantly enhanced after 2 weeks in culture and remained stable with sustained cell viability thereafter. In contrast, the mechanical properties and biochemical content of juvenile bovine explants cultured in the absence of the dexamethasone significantly decreased after 2 weeks of culture. The mechanical and biochemical content of mature bovine and canine explants were not significantly affected by the presence of dexamethasone and maintained initial (day 0) mechanical and biochemical properties throughout the entire culture period with or without supplementation of dexamethasone.
CONCLUSION
These results suggest that juvenile and mature cartilage explants respond differently to dexamethasone. The functional properties of juvenile cartilage explants can be maintained in vitro through the addition of dexamethasone to culture media. Functional properties of mature cartilage can be preserved for at least 4 weeks in culture regardless of the presence of dexamethasone.
CLINICAL RELEVANCE
Biochemical and biomechanical properties of osteochondral allograft tissue may be enhanced by the addition of dexamethasone to culture media. These findings may translate to longer shelf life of preserved osteochondral allograft transplantation tissue and increased clinical availability of grafts.
背景
关节软骨组织在临床上以骨软骨同种异体移植物的形式使用,并在实验中作为外植体用于模拟软骨细胞在其天然细胞外基质中的生理行为。同种异体移植物的长期维持具有挑战性。
假说
通过仔细调节保存环境,有可能在长期保存骨软骨同种异体移植物的同时保持其原始的机械和生化特性。
研究设计
对照实验室研究。
方法
在这项研究中,幼年牛、成年牛和犬的软骨外植体在含有或不含有地塞米松的化学定义培养基中培养,最多 4 周。
结果
在有地塞米松存在的情况下培养的幼年牛外植体的机械性能和生化含量在培养 2 周后显著增强,并且此后细胞活力持续存在时保持稳定。相比之下,在没有地塞米松存在的情况下培养的幼年牛外植体的机械性能和生化含量在培养 2 周后显著降低。成年牛和犬的外植体的机械和生化含量不受地塞米松的存在影响,并且在整个培养期间,无论是否添加地塞米松,其机械和生化特性均保持初始(第 0 天)特性。
结论
这些结果表明,幼年和成年软骨外植体对地塞米松的反应不同。通过在培养基中添加地塞米松,可以维持幼年软骨外植体的体外功能特性。无论是否存在地塞米松,成熟软骨的功能特性都可以在培养中至少保存 4 周。
临床相关性
通过向培养介质中添加地塞米松,可能会增强骨软骨同种异体移植物组织的生化和生物力学特性。这些发现可能转化为保存的骨软骨同种异体移植物移植组织的保质期延长,并增加了移植物的临床可用性。
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