Biomaterial-Based Regenerative Strategies for Volumetric Muscle Loss: Challenges and Solutions.

IF 5.8 3区 医学 Q1 DERMATOLOGY
Charlene W Cai, Josh A Grey, Dirk Hubmacher, Woojin M Han
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Abstract

Significance: Volumetric muscle loss (VML) is caused by the loss of significant amounts of skeletal muscle tissue. VML cannot be repaired by intrinsic regenerative processes, resulting in permanent loss of muscle function and disability. Current rehabilitative-focused treatment strategies lack efficacy and do not restore muscle function, indicating the need for the development of effective regenerative strategies. Recent Advances: Recent developments implicate biomaterial-based approaches for promoting muscle repair and functional restoration post-VML. Specifically, bioscaffolds transplanted in the injury site have been utilized to mimic endogenous cues of the ablated tissue to promote myogenic pathways, increase neo-myofiber synthesis, and ultimately restore contractile function to the injured unit. Critical Issues: Despite the development and preclinical testing of various biomaterial-based regenerative strategies, effective therapies for patients are not available. The unique challenges posed for biomaterial-based treatments of VML injuries, including its scalability and clinical applicability beyond small-animal models, impede progress. Furthermore, production of tissue-engineered constructs is technically demanding, with reproducibility issues at scale and complexities in achieving vascularization and innervation of large constructs. Future Directions: Biomaterial-based regenerative strategies designed to comprehensively address the pathophysiology of VML are needed. Considerations for clinical translation, including scalability and regulatory compliance, should also be considered when developing such strategies. In addition, an integrated approach that combines regenerative and rehabilitative strategies is essential for ensuring functional improvement.

基于生物材料的体积性肌肉缺失再生策略:挑战与解决方案。
意义重大:体积性肌肉缺失(VML)是由于大量骨骼肌组织缺失造成的。体积性肌肉萎缩无法通过内在再生过程进行修复,从而导致肌肉功能永久丧失和残疾。目前以康复为重点的治疗策略缺乏疗效,无法恢复肌肉功能,这表明有必要开发有效的再生策略:最近的发展表明,基于生物材料的方法可促进 VML 后的肌肉修复和功能恢复。具体来说,在损伤部位移植的生物支架被用来模拟消融组织的内源性线索,以促进肌生成途径,增加新肌纤维的合成,并最终恢复损伤单位的收缩功能:关键问题:尽管已开发出各种基于生物材料的再生策略并进行了临床前测试,但仍无法为患者提供有效的疗法。基于生物材料的 VML 损伤治疗方法所面临的独特挑战,包括其可扩展性和小动物模型之外的临床适用性,阻碍了治疗的进展。此外,组织工程构建物的生产对技术要求很高,存在规模化生产的可重复性问题,以及实现大型构建物血管化和神经支配的复杂性:未来方向:需要设计基于生物材料的再生策略,以全面解决 VML 的病理生理学问题。在开发此类策略时,还应考虑临床转化的因素,包括可扩展性和监管合规性。此外,结合再生和康复策略的综合方法对于确保功能改善至关重要。
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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来源期刊
Advances in wound care
Advances in wound care Medicine-Emergency Medicine
CiteScore
12.10
自引率
4.10%
发文量
62
期刊介绍: Advances in Wound Care rapidly shares research from bench to bedside, with wound care applications for burns, major trauma, blast injuries, surgery, and diabetic ulcers. The Journal provides a critical, peer-reviewed forum for the field of tissue injury and repair, with an emphasis on acute and chronic wounds. Advances in Wound Care explores novel research approaches and practices to deliver the latest scientific discoveries and developments. Advances in Wound Care coverage includes: Skin bioengineering, Skin and tissue regeneration, Acute, chronic, and complex wounds, Dressings, Anti-scar strategies, Inflammation, Burns and healing, Biofilm, Oxygen and angiogenesis, Critical limb ischemia, Military wound care, New devices and technologies.
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