Heath C A, Magari S R
Department of Chemical Engineering, Iowa State University, 2114 Sweeney Hall, Ames, Iowa 50011-2230.
Biotechnol Bioeng. 1996 May 20;50(4):430-7. doi: 10.1002/(SICI)1097-0290(19960520)50:4<430::AID-BIT10>3.0.CO;2-N.
In the last 5 to 10 years, tissue engineering has revolutionized the way in which medical researchers and clinicians are thinking of and, in some cases, actually treating diseases involving tissue damage and destruction. One such disease, osteoarthritis, results from progressive degeneration of articular cartilage, which has a limited ability to repair itself. With tissue engineering, scientists are now able to regenerate cartilage in vitro from isolated mature chondrocytes. While the regeneration process is still not fully understood, enough has been learned that physicians are already implanting cultured chondrocytes into humans and other animals in the hopes of effecting joint repair. One aspect which has not been fully explored is the effect of mechanical stress on developing and implanted cartilage, especially over the long term. This article will review in brief what is now known about the mechanical factors affecting cartilage regeneration in vitro and what still remains to be determined for optimum tissue engineering of cartilage constructs. (c) 1996 John Wiley & Sons, Inc.
在过去的5到10年里,组织工程学彻底改变了医学研究人员和临床医生思考疾病的方式,在某些情况下,甚至彻底改变了他们治疗涉及组织损伤和破坏疾病的方式。骨关节炎就是这样一种疾病,它是由关节软骨的渐进性退变引起的,而关节软骨自身修复能力有限。借助组织工程学,科学家们现在能够从分离出的成熟软骨细胞在体外再生软骨。虽然再生过程仍未被完全理解,但已经了解到足够多的信息,以至于医生们已经在将培养的软骨细胞植入人类和其他动物体内,以期实现关节修复。一个尚未得到充分探索的方面是机械应力对发育中和植入后的软骨的影响,尤其是长期影响。本文将简要回顾目前已知的影响体外软骨再生的机械因素,以及为实现软骨构建体的最佳组织工程仍有待确定的因素。(c)1996约翰·威利父子公司
