嵌体结构可提高布里斯托手术中骨移植的稳定性。
Inlay structure can improve bone graft stability in the Bristow procedure.
作者信息
Gao Aofei, Song Qingfa, Shao Zhenxing, Pan Haile, Cui Guoqing
机构信息
Department of Sports Medicine, Peking University Third Hospital, Institute of Sports Medicine of Peking University, Beijing, China; Beijing Key Laboratory of Sports Injuries, Beijing, China; Engineering Research Center of Sports Trauma Treatment Technology and Devices, Ministry of Education, Beijing, China; The 2nd Affiliated Hospital of Harbin Medical University, Harbin, Heilongjiang Province, China.
Department of Sports Medicine, Peking University Third Hospital, Institute of Sports Medicine of Peking University, Beijing, China; Beijing Key Laboratory of Sports Injuries, Beijing, China; Engineering Research Center of Sports Trauma Treatment Technology and Devices, Ministry of Education, Beijing, China.
出版信息
J Shoulder Elbow Surg. 2024 Apr;33(4):781-791. doi: 10.1016/j.jse.2023.08.023. Epub 2023 Sep 29.
BACKGROUND
Compared with the Latarjet procedure, the Bristow procedure has a lower screw-related complication rate but poor bone healing. A modified Inlay Bristow procedure has been reported to significantly improve the bone healing rate, but the biomechanical mechanism is unclear. The aim of this study was to evaluate the biomechanical stability of the bone graft between a modified Inlay Bristow procedure and the classic Bristow procedure.
METHODS
Sixteen left scapula models (Sawbones, Composite Scapula, and fourth generation) were randomly divided into 2 groups (8:8). The bone graft in the first group was fixed with a 3.5 mm screw using the Inlay structure. The bone graft in the second group was fixed with a 3.5 mm screw via the traditional method. The maximum cyclic displacement, ultimate failure load and stiffness were evaluated biomechanically. The failure type was recorded for each model.
RESULTS
Cyclic loading tests demonstrated that the maximum cyclic displacement of the Inlay procedure was significantly smaller (P = .001) than that of the classic procedure. The Inlay Bristow technique resulted in a significantly higher (P = .024) ultimate failure load than the classic Bristow technique. The stiffness of the classic group was 19.17 ± 4.01 N/mm and that of the inlay group was 22.34 ± 5.35 N/mm (P = .232). Failure was mainly due to bone graft fractures through the drill hole or glenoid bone fractures.
CONCLUSION
Inlay Bristow fixation of the bone graft in a Sawbones model provides significantly stronger fixation and better time point zero stability than classic Bristow fixation, suggesting a higher likelihood of graft union.
背景
与Latarjet手术相比,Bristow手术的螺钉相关并发症发生率较低,但骨愈合较差。据报道,改良的嵌体式Bristow手术可显著提高骨愈合率,但其生物力学机制尚不清楚。本研究的目的是评估改良嵌体式Bristow手术与经典Bristow手术之间骨移植的生物力学稳定性。
方法
16个左侧肩胛骨模型(Sawbones,复合肩胛骨,第四代)随机分为2组(8:8)。第一组采用嵌体结构用3.5毫米螺钉固定骨移植。第二组通过传统方法用3.5毫米螺钉固定骨移植。对最大循环位移、极限破坏载荷和刚度进行生物力学评估。记录每个模型的破坏类型。
结果
循环加载试验表明,嵌体式手术的最大循环位移明显小于经典手术(P = 0.001)。嵌体式Bristow技术的极限破坏载荷明显高于经典Bristow技术(P = 0.024)。经典组的刚度为19.17±4.01 N/mm,嵌体组为22.34±5.35 N/mm(P = 0.232)。失败主要是由于骨移植通过钻孔骨折或肩胛盂骨折。
结论
在Sawbones模型中,嵌体式Bristow固定骨移植比经典Bristow固定提供了更强的固定和更好的初始稳定性,提示骨移植愈合的可能性更高。
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