Huang Brian J, Hu Jerry C, Athanasiou Kyriacos A
Department of Biomedical Engineering, University of California Davis, USA.
Department of Biomedical Engineering, University of California Davis, USA; Department of Orthopedic Surgery, University of California Davis, USA.
Biomaterials. 2016 Aug;98:1-22. doi: 10.1016/j.biomaterials.2016.04.018. Epub 2016 Apr 26.
One of the most important issues facing cartilage tissue engineering is the inability to move technologies into the clinic. Despite the multitude of current research in the field, it is known that 90% of new drugs that advance past animal studies fail clinical trials. The objective of this review is to provide readers with an understanding of the scientific details of tissue engineered cartilage products that have demonstrated a certain level of efficacy in humans, so that newer technologies may be developed upon this foundation. Compared to existing treatments, such as microfracture or autologous chondrocyte implantation, a tissue engineered product can potentially provide more consistent clinical results in forming hyaline repair tissue and in filling the entirety of the defect. The various tissue engineering strategies (e.g., cell expansion, scaffold material, media formulations, biomimetic stimuli, etc.) used in forming these products, as collected from published literature, company websites, and relevant patents, are critically discussed. The authors note that many details about these products remain proprietary, not all information is made public, and that advancements to the products are continuously made. Nevertheless, by understanding the design and production processes of these emerging technologies, one can gain tremendous insight into how to best use them and also how to design the next generation of tissue engineered cartilage products.
软骨组织工程面临的最重要问题之一是无法将相关技术转化到临床应用中。尽管该领域目前有大量研究,但众所周知,超过动物实验阶段的新药中有90%在临床试验中失败。本综述的目的是让读者了解在人体中已显示出一定疗效水平的组织工程软骨产品的科学细节,以便在此基础上开发更新的技术。与现有的治疗方法,如微骨折或自体软骨细胞植入相比,组织工程产品在形成透明软骨修复组织和填充整个缺损方面可能会提供更一致的临床效果。本文批判性地讨论了从已发表的文献、公司网站和相关专利中收集的用于制造这些产品的各种组织工程策略(如细胞扩增、支架材料、培养基配方、仿生刺激等)。作者指出,这些产品的许多细节仍然是专有的,并非所有信息都已公开,并且产品也在不断改进。然而,通过了解这些新兴技术的设计和生产过程,人们可以深入了解如何最好地使用它们,以及如何设计下一代组织工程软骨产品。