La thérapie cellulaire dans ses applications cliniques - Thérapie cellulaire du cartilage, présent et futur

M. Corvol
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引用次数: 3

Abstract

Articular cartilage has a very poor capacity for repair. In order to get a normal functional efficacy, the replaced tissue has to reproduce the structure, composition and physico-chemical properties of native cartilage tissue. The transplantation of cultured autologous chondrocytes into chondral defects is currently applicable only in the case of young sportive people with a limited lesion in an otherwise relatively normal joint. Recent experimental studies have shown that pluripotent mesenchymal cells from bone marrow could also repair experimental osteochondral defects. An advantage of this grafting procedure is that large areas of cartilage surface could be covered. Bone marrow cells are not so difficult to get, they have a high potency to divide and they can develop in vitro as chondrogenic, osteogenic or adipogenic cells. The present ways of research are: to characterize one or several growth factors capable to specifically induce the chondrogenic lineage; to determine nutrient and environmental conditions allowing the cultured chondrogenic cells to undergo a maturation process within the cell pellet; to elaborate three-dimensional synthetic, biodegradable polymeric scaffolds assessed with respect to chondrogenic cell adhesion, proliferation, maturation and cartilage matrix secretion; finally, to elaborate a mixed biomaterial composed of chondrogenic and osteogenic cells selectively distributed within polymeric scaffolds in order to get a better adherence of the implanted cells to the lesion sites.
细胞治疗的临床应用-软骨细胞治疗的现状和未来
关节软骨的修复能力很差。为了获得正常的功能功效,替代组织必须复制原软骨组织的结构、组成和理化性质。将培养的自体软骨细胞移植到软骨缺损中目前仅适用于年轻的运动人群,在其他方面相对正常的关节中病变有限。最近的实验研究表明,来自骨髓的多能间充质细胞也可以修复实验性骨软骨缺损。这种移植手术的一个优点是可以覆盖大面积的软骨表面。骨髓细胞并不难获得,它们有很高的分裂能力,它们可以在体外发育成软骨细胞、成骨细胞或脂肪细胞。目前的研究方法是:鉴定一种或几种能够特异性诱导成软骨谱系的生长因子;确定允许培养的软骨细胞在细胞颗粒内经历成熟过程的营养和环境条件;制作三维合成、可生物降解的聚合物支架,评估软骨细胞粘附、增殖、成熟和软骨基质分泌;最后,制备一种由软骨细胞和成骨细胞选择性分布在聚合物支架内的混合生物材料,以使植入细胞更好地粘附于病变部位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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