Implantation of Decellularized Extracellular Matrix with Resistance Training Effectively Repairs a Volumetric Muscle Loss

Q4 Health Professions

Exercise Science Pub Date : 2022-08-31 DOI:10.15857/ksep.2022.00276

Kwangjun Lee, Kwang-Seok Hong, W. Park

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引用次数: 1

Abstract

PURPOSE: Skeletal muscle has remarkable regenerative capacity in most minor injuries induced by mechanical laceration, overstretching, and toxins. However, volumetric muscle loss (VML) injury, a large volume of muscle loss beyond the self-repair capacity, causes functional disability and morphological deformities. This study investigated the effects of myofiber injection into a decellularized extracellular matrix (ECM) and resistance training (RT) on skeletal muscle regeneration following VML injury.METHODS: 6-months-old male Fischer CDF rats and 2-months-old F344-Tg (UBC-EGFP) rats (myofiber donors) were used in this study. Approximately 20% of the mass of the lateral gastrocnemius (LGAS) was excised and replaced by ECM of similar dimensions. Thirty myofibers were injected into the injured region seven days post-injury. Ladder climbing (RT) was allowed 10 days post-defect surgery, and the rats were subjected to ladder climbing with a weight every third day for 6 weeks.RESULTS: After 56 days of recovery and exercise training, the cross-sectional area (CSA) of intact muscle in the EXE group (5,104±92 μm2) increased significantly compared to that in the ECM (4,657±79 μm2) group. The number of blood vessels larger than 20 μm in diameter, capillaries excluded, showed a significant difference between the ECM+EXE (34.25±4.2) and ECM (21.75±3.89) groups. A significant reduction of fibrosis in the ECM+EXE (44.50±1.6%) group was observed compared to the ECM (69.25±1.9%) and ECM+FIB+EXE (63.00±1.7%) groups. Moreover, the small muscle fiber area within the transplanted ECM was significantly larger in the ECM+EXE (1.37±0.03 mm2) than in both the ECM (0.49±0.01 mm2) and ECM+FIB (0.62±0.01 mm2) groups.CONCLUSIONS: These data suggest that ECM transplantation with RT effectively repairs VML by enhancing hypertrophy, angiogenesis, and myofiber infiltration throughout the entire ECM.

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植入脱细胞的细胞外基质与阻力训练有效修复体积性肌肉损失

目的：骨骼肌在大多数由机械撕裂、过度拉伸和毒素引起的轻伤中具有显著的再生能力。然而，体积性肌肉损失（VML）损伤，即超出自我修复能力的大量肌肉损失，会导致功能残疾和形态畸形。本研究探讨了肌纤维注射到去细胞细胞外基质（ECM）和阻力训练（RT）中对VML损伤后骨骼肌再生的影响。方法：采用6月龄雄性Fischer CDF大鼠和2月龄F344 Tg（UBC-EGFP）大鼠（肌纤维供体）进行研究。切除约20%的外侧腓肠肌（LGAS），并用类似尺寸的ECM代替。在损伤后7天将30根肌纤维注射到损伤区域。在缺损手术后10天允许爬梯（RT），并在6周内每三天对大鼠进行一次负重爬梯。结果：经过56天的恢复和运动训练，EXE组完整肌肉的截面积（CSA）（5104±92μm2）比ECM组（4657±79μm2）显著增加。ECM+EXE组（34.25±4.2）和ECM组（21.75±3.89）之间，直径大于20μm的血管数量（不包括毛细血管）存在显著差异。与ECM（69.25±1.9%）和ECM+FIB+EXE（63.00±1.7%）组相比，ECM+EXE组（44.50±1.6%）的纤维化显著减少。此外，ECM+EXE组移植ECM内的小肌纤维面积（1.37±0.03 mm2）显著大于ECM组（0.49±0.01 mm2）和ECM+FIB组（0.62±0.01 mm2。结论：这些数据表明，带RT的ECM移植通过增强整个ECM的肥大、血管生成和肌纤维浸润，有效修复VML。

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来源期刊

Exercise Science Health Professions-Physical Therapy, Sports Therapy and Rehabilitation

CiteScore

0.70

自引率

0.00%

发文量

审稿时长

8 weeks