Biomimetic Scaffolds in Skeletal Muscle Regeneration.

Greta D Mulbauer, Howard W T Matthew
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引用次数: 17

Abstract

Skeletal muscle tissue has inherent capacity for regeneration in response to minor injuries. However, in the case of severe trauma, tumor ablations, or in congenital muscle defects, these myopathies can cause irreversible loss of muscle mass and function, a condition referred to as volumetric muscle loss (VML). The natural muscle repair mechanisms are overwhelmed, prompting the search for new muscle regenerative strategies, such as using biomaterials that can provide regenerative signals to either transplanted or host muscle cells. Recent studies involve the use of suitable biomaterials which may be utilized as a template to guide tissue reorganization and ultimately provide optimum micro-environmental conditions to cells. These strategies range from approaches that utilize biomaterials alone to those that combine materials with exogenous growth factors, and ex vivo cultured cells. A number of scaffold materials have been used in the development of grafts to treat VML. In this brief review, we outline the natural skeletal regeneration process, available treatments used in the clinic for muscle injury and promising tissue bioengineering and regenerative approaches for muscle loss treatment.

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骨骼肌再生中的仿生支架。
骨骼肌组织在轻微损伤后具有固有的再生能力。然而,在严重创伤、肿瘤消融或先天性肌肉缺陷的情况下,这些肌病会导致肌肉质量和功能的不可逆转的损失,这种情况被称为体积性肌肉损失(VML)。自然肌肉修复机制被淹没,促使人们寻找新的肌肉再生策略,例如使用可以向移植或宿主肌肉细胞提供再生信号的生物材料。最近的研究涉及使用合适的生物材料作为模板来指导组织重组,并最终为细胞提供最佳的微环境条件。这些策略的范围从单独利用生物材料的方法到将材料与外源性生长因子和体外培养细胞相结合的方法。许多支架材料已被用于移植治疗VML的发展。在这篇简短的综述中,我们概述了自然骨骼再生的过程,临床上用于肌肉损伤的可用治疗方法,以及有前途的组织生物工程和再生方法用于肌肉损失治疗。
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