Division of Plastic Surgery, Brigham and Women's Hospital, Boston, Massachusetts.
University of Maryland School of Medicine, Baltimore, Maryland.
Wound Repair Regen. 2020 Jan;28(1):61-74. doi: 10.1111/wrr.12768. Epub 2019 Nov 7.
Volumetric muscle loss (VML) is a segmental loss of skeletal muscle which commonly heals with fibrosis, minimal muscle regeneration, and loss of muscle strength. Treatment options for these wounds which promote functional recovery are currently lacking. This study was designed to investigate whether the collagen-GAG scaffold (CGS) promotes functional muscle recovery following VML. A total of 66 C57/Bl6 mice were used in a three-stage experiment. First, 24 animals were split into three groups which underwent sham injury or unilateral quadriceps VML injury with or without CGS implantation. Two weeks post-surgery, muscle was harvested for histological and gene expression analysis. In the second stage, 18 mice underwent bilateral quadriceps VML injury, followed by weekly functional testing using a treadmill. In the third stage, 24 mice underwent sham or bilateral quadriceps VML injury with or without CGS implantation, with tissue harvested six weeks post-surgery for histological and gene expression analysis. VML mice treated with CGS demonstrated increased remnant fiber hypertrophy versus both the VML with no CGS and uninjured groups. Both VML groups showed greater muscle fiber hypertrophy than non-injured muscle. This phenomenon was still evident in the longer-term experiment. The gene array indicated that the CGS promoted upregulation of factors involved in promoting wound healing and regeneration. In terms of functional improvement, the VML mice treated with CGS ran at higher maximum speeds than VML without CGS. A CGS was shown to enhance muscle hypertrophy in response to VML injury with a resultant improvement in functional performance. A gene array highlighted increased gene expression of multiple growth factors following CGS implantation. This suggests that implantation of a CGS could be a promising treatment for VML wounds.
体积性肌肉损失 (VML) 是一种骨骼肌节段性损失,通常会通过纤维化、极少的肌肉再生和肌肉力量丧失来愈合。目前缺乏促进功能恢复的这些伤口的治疗选择。本研究旨在研究胶原-GAG 支架 (CGS) 是否能促进 VML 后的功能肌肉恢复。共有 66 只 C57/Bl6 小鼠用于分三个阶段的实验。首先,24 只动物分为三组,分别进行假损伤或单侧股四头肌 VML 损伤,加或不加 CGS 植入。手术后两周,采集肌肉进行组织学和基因表达分析。在第二阶段,18 只小鼠进行双侧股四头肌 VML 损伤,随后每周使用跑步机进行功能测试。在第三阶段,24 只小鼠进行假损伤或双侧股四头肌 VML 损伤,加或不加 CGS 植入,术后 6 周采集组织进行组织学和基因表达分析。与 VML 无 CGS 组和未损伤组相比,接受 CGS 治疗的 VML 小鼠的残余纤维肥大增加。两个 VML 组的肌肉纤维肥大均大于未损伤的肌肉。这种现象在更长期的实验中仍然明显。基因阵列表明,CGS 促进了参与促进伤口愈合和再生的因子的上调。在功能改善方面,接受 CGS 治疗的 VML 小鼠的最高速度高于 VML 无 CGS 组。CGS 被证明可以增强 VML 损伤后的肌肉肥大,从而提高功能性能。基因阵列突出显示了 CGS 植入后多种生长因子的基因表达增加。这表明 CGS 的植入可能是 VML 伤口的一种有前途的治疗方法。
