Department of Orthopaedic Surgery, Indiana University School of Medicine, IU Health Methodist Hospital, Indianapolis, Indiana, USA.
Department of Surgery, Uniformed Services University of the Health Sciences and Walter Reed National Military Medical Center, Bethesda, Maryland, USA.
J Orthop Res. 2023 Sep;41(9):1890-1901. doi: 10.1002/jor.25551. Epub 2023 Mar 26.
Composite tissue injuries (CTIs) in extremities include segmental bone defects (SBDs) and volumetric muscle loss. The objective of this study was to determine if skeletal muscle autografting with minced muscle grafts (MMGs) could improve healing in an SBD and improve muscle function in a porcine CTI model that includes an SBD and adjacent volumetric muscle loss injury. Adult Yucatan Minipigs were stratified into three groups including specimens with an isolated SBD, an SBD with volumetric muscle loss (CTI), and an SBD with volumetric muscle loss treated with MMG (CTI + MMG). Bone healing was quantified with serial x-rays and postmortem computed tomography scanning. Muscle function was quantified with a custom in vivo force transducer. Muscle tissue content was determined by biochemical analyses and histology. Anterior cortex-modified Radiographic Union Score for Tibia fractures (mRUSTs) decreased from 2.7 to 1.9 (p = 0.003) in CTI versus SBD animals. MMG improved anterior mRUST scores to 2.5 in CTI + MMG specimens (p = 0.030 compared to CTI specimens) and overall mRUST scores increased from 9.4 in CTI specimens to 11.1 in CTI + MMG specimens (p = 0.049). Residual strength deficits at euthanasia were 42% in SBD (p < 0.001), 44% in CTI (p < 0.001), and 48% in CTI + MMG (p < 0.001) compared to preoperative values. There were no differences in strength deficits between the three groups. Biochemical and histologic analyses demonstrated scattered differences between the three groups compared to contralateral muscle. MMG improved bone healing. However, the primary cause of muscle dysfunction and biochemical changes was the presence of an SBD. Clinical significance: Early mitigation of SBDs may be necessary to prevent muscle damage and weakness in patients sustaining composite extremity trauma.
四肢的复合组织损伤 (CTI) 包括节段性骨缺损 (SBD) 和体积性肌肉丧失。本研究的目的是确定骨骼肌自体移植与切碎的肌肉移植物 (MMG) 是否可以改善 SBD 的愈合,并改善包括 SBD 和相邻体积性肌肉丧失损伤的猪 CTI 模型中的肌肉功能。成年 Yucatan 小型猪分为三组,包括单纯 SBD 标本、SBD 伴体积性肌肉丧失 (CTI) 标本和 SBD 伴体积性肌肉丧失用 MMG 治疗 (CTI+MMG) 标本。采用连续 X 线和死后 CT 扫描定量骨愈合。采用定制的体内力传感器定量肌肉功能。通过生化分析和组织学确定肌肉组织含量。胫骨骨折改良前皮质放射学愈合评分 (mRUST) 从 CTI 动物的 2.7 降至 SBD 动物的 1.9(p=0.003)。MMG 将 CTI+MMG 标本的前 mRUST 评分提高至 2.5(p=0.030 与 CTI 标本相比),整体 mRUST 评分从 CTI 标本的 9.4 增加到 CTI+MMG 标本的 11.1(p=0.049)。安乐死时的残余强度缺陷分别为 SBD 组 42%(p<0.001)、CTI 组 44%(p<0.001)和 CTI+MMG 组 48%(p<0.001)与术前值相比。三组之间的强度缺陷没有差异。生化和组织学分析表明,与对侧肌肉相比,三组之间存在散在差异。MMG 改善了骨愈合。然而,肌肉功能障碍和生化变化的主要原因是存在 SBD。临床意义:早期减轻 SBD 可能是预防复合性四肢创伤患者肌肉损伤和无力的必要措施。
