自体修复和自愿轮跑对容量缺失大鼠模型中力量恢复的影响。
The effect of autologous repair and voluntary wheel running on force recovery in a rat model of volumetric muscle loss.
机构信息
Exercise Muscle Biology Laboratory, Exercise Science Research Center, Department of Health, Human Performance and Recreation, University of Arkansas, Fayetteville, AR, USA.
Department of Health and Exercise Science, College of Health and Human Sciences, Colorado State University, Fort Collins, CO, USA.
出版信息
Exp Physiol. 2021 Apr;106(4):994-1004. doi: 10.1113/EP089207. Epub 2021 Mar 2.
NEW FINDINGS
What is the central question of this study? Following large traumatic loss of muscle tissue (volumetric muscle loss; VML), permanent functional and cosmetic deficits present themselves and regenerative therapies alone have not been able to generate a robust regenerative response: how does the addition of rehabilitative therapies affects the regenerative response? What is the main finding and its importance? Using exercise along with autologous muscle repair, we demonstrated accelerated muscle force recovery response post-VML. The accentuated force recovery 2 weeks post-VML would allow patients to return home sooner than allowed with current therapies.
ABSTRACT
Skeletal muscle can regenerate from damage but is overwhelmed with extreme tissue loss, known as volumetric muscle loss (VML). Patients suffering from VML do not fully recover force output in the affected limb. Recent studies show that replacement tissue (i.e., autograph) into the VML defect site plus physical activity show promise for optimizing force recovery post-VML. The purpose of this study was to measure the effects of autologous repair and voluntary wheel running on force recovery post-VML. Thirty-two male Sprague-Dawley rats had 20% of their left tibialis anterior (LTA) excised then replaced and sutured into the intact muscle (autologous repair). The right tibialis anterior (RTA) acted as the contralateral control. Sixteen rats were given free access to a running wheel (Wheel) whereas the other 16 remained in a cage with the running wheel locked (Sed). At 2 and 8 weeks post-VML, the LTA underwent force testing; then the muscle was removed and morphological and gene expression analysis was conducted. At 2 weeks post-injury, normalized LTA force was 58% greater in the Wheel group compared to the Sed group. At 8 weeks post-VML, LTA force was similar between the Wheel and Sed groups but was still lower than the uninjured RTA. Gene expression analysis at 2 weeks post-VML showed the wheel groups had lower mRNA content of interleukin (IL)-1β, IL-6 and tumour necrosis factor α compared to the Sed group. Overall, voluntary wheel running promoted early force recovery, but was not sufficient to fully restore force. The accentuated early force recovery is possibly due to a more pro-regenerative microenvironment.
新发现
本研究的核心问题是什么?在经历了大量肌肉组织的创伤性损失(容积性肌肉损失;VML)后,会出现永久性的功能和美容缺陷,而单独的再生疗法还未能产生强大的再生反应:康复疗法的加入如何影响再生反应?主要发现及其重要性是什么?通过运动结合自体肌肉修复,我们证明了 VML 后肌肉力量恢复反应加快。VML 后 2 周时力量的加速恢复将使患者比目前的治疗方法更早地回家。
摘要
骨骼肌可以从损伤中再生,但在遭受极度组织损失(即容积性肌肉损失;VML)时会不堪重负。患有 VML 的患者无法完全恢复受影响肢体的力量输出。最近的研究表明,将替代组织(即自体移植物)植入 VML 缺陷部位并结合体育活动有望优化 VML 后的力量恢复。本研究的目的是测量自体修复和自愿轮跑对 VML 后力量恢复的影响。32 只雄性 Sprague-Dawley 大鼠切除左胫骨前肌(LTA)的 20%,然后将其替换并缝合到完整的肌肉(自体修复)中。右侧胫骨前肌(RTA)作为对照。16 只大鼠可自由使用轮式跑步器(Wheel),而其余 16 只则被锁在带有轮式跑步器的笼子里(Sed)。VML 后 2 和 8 周时,对 LTA 进行了力量测试;然后取出肌肉并进行形态学和基因表达分析。受伤后 2 周,Wheel 组的 LTA 归一化力比 Sed 组高 58%。VML 后 8 周时,Wheel 组和 Sed 组的 LTA 力相似,但仍低于未受伤的 RTA。VML 后 2 周的基因表达分析显示,Wheel 组的白细胞介素(IL)-1β、IL-6 和肿瘤坏死因子-α 的 mRNA 含量低于 Sed 组。总体而言,自愿轮跑促进了早期力量恢复,但不足以完全恢复力量。早期力量的加速恢复可能是由于更有利于再生的微环境。
Zotero 插件