McGowan Institute for Regenerative Medicine, Pittsburgh, Pennsylvania; Cellular and Molecular Pathology Graduate Program, University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania.
Anat Rec (Hoboken). 2014 Jan;297(1):51-64. doi: 10.1002/ar.22794. Epub 2013 Dec 2.
The well-recognized ability of skeletal muscle for functional and structural regeneration following injury is severely compromised in degenerative diseases and in volumetric muscle loss. Tissue engineering and regenerative medicine strategies to support muscle reconstruction have typically been cell-centric with approaches that involve the exogenous delivery of cells with myogenic potential. These strategies have been limited by poor cell viability and engraftment into host tissue. Alternative approaches have involved the use of biomaterial scaffolds as substrates or delivery vehicles for exogenous myogenic progenitor cells. Acellular biomaterial scaffolds composed of mammalian extracellular matrix (ECM) have also been used as an inductive niche to promote the recruitment and differentiation of endogenous myogenic progenitor cells. An acellular approach, which activates or utilizes endogenous cell sources, obviates the need for exogenous cell administration and provides an advantage for clinical translation. The present review examines the state of tissue engineering and regenerative medicine therapies directed at augmenting the skeletal muscle response to injury and presents the pros and cons of each with respect to clinical translation.
骨骼肌在受伤后具有很强的功能和结构再生能力,但在退行性疾病和体积性肌肉丧失中,这种能力严重受损。组织工程和再生医学策略旨在支持肌肉重建,这些策略通常以细胞为中心,涉及具有成肌潜能的细胞的外源性传递。这些策略受到细胞活力差和植入宿主组织的限制。替代方法涉及使用生物材料支架作为外源性成肌祖细胞的基质或输送载体。由哺乳动物细胞外基质 (ECM) 组成的去细胞生物材料支架也被用作诱导龛,以促进内源性成肌祖细胞的募集和分化。激活或利用内源性细胞来源的去细胞方法避免了外源性细胞给药的需要,并为临床转化提供了优势。本综述探讨了组织工程和再生医学治疗方法,旨在增强骨骼肌对损伤的反应,并就其临床转化的优缺点进行了讨论。
