Fridén J
Abteilung für Handchirurgie, Sahlgrenska Universitätsklinik, Göteborg, Sweden.
Handchir Mikrochir Plast Chir. 2005 Aug;37(4):223-9. doi: 10.1055/s-2005-865906.
Reconstructive hand surgery improves the ability to meet the needs of daily life and the independence of patients who have lost their upper extremity function due to cervical spinal cord injury. Tendon transfer procedures provide the potential to restore key functions, such as elbow and wrist extension or hand grip control, ameliorate joint balance, reduce pain in spasticity and prevent joint contractures. The choice of the optimal donor muscle should be based on a thorough understanding of the biomechanical principles of the muscle-tendon unit. Intraoperative sarcomere length measurements allow to predict and set the optimal muscle-tendon unit length during reconstructive upper extremity surgery in order to prevent overstretch which may lead to insufficient active force generation. Macro-proteins and the extracellular matrix are in charge of the muscle ultrastructure, elasticity and thus passive muscle tension. Spastic muscles are characterized by greater stiffness, a shorter sarcomere length and an extracellular matrix with inferior mechanical properties. Basic science research and clinical studies in cooperation with international centers are of great importance to promote the development of refined techniques of surgical reconstruction and postoperative rehabilitation of upper extremity function in tetraplegic patients.
重建手部手术可提高因颈脊髓损伤而失去上肢功能的患者满足日常生活需求的能力和独立性。肌腱转移手术有恢复关键功能的潜力,如伸肘、伸腕或手部抓握控制,改善关节平衡,减轻痉挛疼痛并防止关节挛缩。最佳供肌的选择应基于对肌腱单位生物力学原理的透彻理解。术中肌节长度测量可在重建上肢手术期间预测并设定最佳肌腱单位长度,以防止过度拉伸,否则可能导致主动力产生不足。大分子蛋白质和细胞外基质负责肌肉超微结构、弹性以及被动肌张力。痉挛肌肉的特征是硬度更大、肌节长度更短且细胞外基质的力学性能较差。与国际中心合作开展基础科学研究和临床研究对于推动四肢瘫痪患者上肢功能精细手术重建技术及术后康复的发展非常重要。