Case series study and finite element analysis of a new cervicothoracic fixation device.

IF 2.2 3区 医学 Q2 ORTHOPEDICS
Shuai Li, Jinpeng Du, Lei Zhu, Yunfei Huang, Dingjun Hao, Liang Yan, Hua Hui, Zhen Chang, Zhigang Zhao, Baorong He
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Abstract

Objective: To introduce a specialized device designed for the fixation of the cervical-thoracic spine and describe its surgical installation, finite element analysis, and clinical outcomes.

Methods: A finite element model of the C6-T1 segment was developed and validated, and simulations of subtotal resection of anterior cervical vertebrae, artificial vertebrae placement, and titanium plate fixation were performed. The model was subjected to a 75 N load to simulate the weight of the head and a 1 N·m force to simulate flexion, lateral bending, and axial rotation. The analysis focused on range of motion, total stress, stress in the artificial vertebrae, and stress in the device. The clinical outcomes were evaluated in a retrospective case series of 140 patients with cervical spine fractures.

Results: Under the same loading conditions, the maximum stresses on specialized anatomical and biomechanical devices for the fixation of the cervicothoracic segment of the spine during neutral, forwards flexion, backwards extension, left lateral bending, right lateral bending, left rotation, right rotation and other working conditions were 25.097 MPa, 149.480 MPa, 64.150 MPa, 67.804 MPa, 72.754 MPa, and 117.98 MPa, respectively. And, the maximum ROMs were 2.230 mm, 5.585 mm, 4.682 mm, 3.184 mm, 3.061 mm, 4.451 mm, and 4.645 mm. Compared with those in the preoperative period, the patients' CL, OPCL, UCL, LCL, UROM, LROM, VAS score, NDI score, JOA score, intervertebral space height at the injured segment, cervical anterior kyphosis angle, Cobb angle, vertebral displacement, ASIA grade, fracture classification, and vertebral displacement improved (P < 0.05). Sixty-two patients had dysphagia, and 3 patients experienced leakage of cerebrospinal fluid.

Conclusion: The design of the new cervicothoracic internal fixation device conforms to the anatomical structure of the cervicothoracic spine, which can provide immediate stability, better screw placement and adequate bone grafting, and reduce the risk of complications. Despite some disadvantages, it is a good device for segmental fixation of the cervical and thoracic spine.

新型颈胸椎固定装置的病例系列研究和有限元分析。
目的介绍一种专门用于固定颈胸椎的装置,并描述其手术安装、有限元分析和临床效果:方法:建立并验证了 C6-T1 节段的有限元模型,并对颈椎前路次全切除、人工椎体置入和钛板固定进行了模拟。该模型承受 75 N 负荷以模拟头部重量,并承受 1 N-m 力以模拟屈曲、侧弯和轴向旋转。分析的重点是活动范围、总应力、人工椎体应力和装置应力。对 140 名颈椎骨折患者的回顾性病例系列进行了临床结果评估:结果:在相同加载条件下,用于固定颈胸段脊柱的专用解剖和生物力学装置在中立、前屈、后伸、左侧弯、右侧弯、左旋、右旋和其他工作条件下的最大应力分别为 25.097 兆帕、149.480 兆帕、64.150 兆帕、67.804 兆帕、72.754 兆帕和 117.98 兆帕。最大 ROM 分别为 2.230 mm、5.585 mm、4.682 mm、3.184 mm、3.061 mm、4.451 mm 和 4.645 mm。与术前相比,患者的CL、OPCL、UCL、LCL、UROM、LROM、VAS评分、NDI评分、JOA评分、损伤节段椎间隙高度、颈椎前凸角、Cobb角、椎体移位、ASIA分级、骨折分级、椎体移位等指标均有所改善(P 结论:新式颈椎手术的设计理念与传统颈椎手术的设计理念相一致:新型颈胸椎内固定装置的设计符合颈胸椎的解剖结构,可提供即时稳定性、更好的螺钉置放和充分的植骨,并降低并发症的风险。尽管存在一些缺点,但它仍不失为一种用于颈胸椎节段固定的良好装置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
BMC Musculoskeletal Disorders
BMC Musculoskeletal Disorders 医学-风湿病学
CiteScore
3.80
自引率
8.70%
发文量
1017
审稿时长
3-6 weeks
期刊介绍: BMC Musculoskeletal Disorders is an open access, peer-reviewed journal that considers articles on all aspects of the prevention, diagnosis and management of musculoskeletal disorders, as well as related molecular genetics, pathophysiology, and epidemiology. The scope of the Journal covers research into rheumatic diseases where the primary focus relates specifically to a component(s) of the musculoskeletal system.
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