Biosponge-Encased Placental Stem Cells for Volumetric Muscle Loss Repair.

IF 5.8 3区 医学 Q1 DERMATOLOGY
David Johnson, Amelia Ridolfo, Ryan Mueller, Megan Chermack, Julia Brockhouse, Jamshid Tadiwala, Avantika Jain, Kenneth Bertram, Koyal Garg
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Abstract

Objective: Volumetric muscle loss (VML) leads to permanent muscle mass and functional impairments. While mesenchymal stromal cells (MSCs) and their secreted factors can aid muscle regeneration, MSCs exhibit limited persistence in injured tissue post-transplantation. Human placental-derived stem cells (hPDSCs), sharing surface markers with MSCs, demonstrate superior regenerative potential due to their fetal origin. Previously, a biosponge (BS) scaffold was shown to augment muscle regeneration post-VML. This study aims to coapply BS therapy and hPDSCs to further enhance muscle recovery following VML. Approach: A VML defect was created by removing ∼20% of the tibialis anterior muscle mass in male Lewis rats. Injured muscles were either left untreated or treated with BS or BS-encapsulated hPDSCs cultured under normoxic or hypoxic conditions. On day 28 postinjury, peak isometric torque was measured, and the muscle was harvested for analysis. Results: BS encapsulated hPDSCs subjected to hypoxic preconditioning persisted in larger quantities and enhanced muscle mass at day 28 postinjury. BS encapsulated hPDSCs cultured under normoxic or hypoxic conditions increased small myofibers (<500 µm2) percentage, MyoD protein expression, and both pro- and anti-inflammatory macrophage marker expression. BS encapsulated hPDSCs also reduced fibrosis and BS remodeling rate. Innovation: This study is the first to examine the therapeutic effects of hPDSCs in a rat VML model. A BS carrier and hypoxic preconditioning were investigated to mitigate low cell survival postimplantation. Conclusion: hPDSCs augment the regenerative effect of BS. Combining hPDSCs and BS emerges as a promising strategy worthy of further investigation.

用生物海绵包裹胎盘干细胞修复肌肉体积损失
目的:体积性肌肉损失(VML)会导致永久性肌肉质量和功能障碍。间充质基质细胞(MSCs)及其分泌的因子可以帮助肌肉再生,但是间充质基质细胞移植后在损伤组织中的存活率有限。人胎盘干细胞(hPDSCs)与间充质干细胞具有相同的表面标记,但由于其来源于胎儿,因此具有更优越的再生潜力。此前,有研究表明生物海绵(BS)支架可促进VML术后的肌肉再生。本研究旨在联合应用 BS 疗法和 hPDSCs,进一步促进 VML 后的肌肉恢复:方法:在雄性 Lewis 大鼠身上切除约 20% 的胫骨前肌,形成 VML 缺口。受伤的肌肉要么未经处理,要么在常氧或缺氧条件下用BS或BS包裹的hPDSCs进行处理。受伤后第 28 天,测量峰值等长扭矩,并收获肌肉进行分析:结果:经缺氧预处理的BS包裹的hPDSCs在损伤后第28天仍能大量存活并增强肌肉质量。在正常缺氧或缺氧条件下培养的BS包裹的hPDSCs增加了小肌纤维(创新性肌纤维):该研究首次在大鼠 VML 模型中检验了 hPDSCs 的治疗效果。结论:hPDSCs 增强了 BS 的再生效果。结论:hPDSCs 可增强 BS 的再生效果。将 hPDSCs 和 BS 结合使用是一种很有前景的策略,值得进一步研究。
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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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