Static mechanical analysis of the vertebral body after modified anterior cervical discectomy and fusion (partial vertebral osteotomy): a finite element model

Xue, Huo-huo; Tang, Daxing; Zhao, Wenxin; Chen, Liang; Zhong, Lintao; Xue, Jing-lai

doi:10.1186/s13018-023-04033-8

J Orthop Surg Res

2023

DOI: 10.1186/s13018-023-04033-8

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Static mechanical analysis of the vertebral body after modified anterior cervical discectomy and fusion (partial vertebral osteotomy): a finite element model

Huo-huo Xue

Daxing Tang

Wenxin Zhao

et al.

Abstract: Background Modified anterior cervical discectomy and fusion (Mod ACDF) can effectively address ossification of the posterior longitudinal ligament (OPLL), which is difficult to remove directly from the posterior edge of the vertebral body, with considerably lesser damage as compared to anterior cervical corpectomy and fusion (ACCF). We compared the static mechanics of different anterior approaches by using an ideal finite element model. Methods A c… Show more

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Cited by 3 publications

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“…Following publication of the original article [ 1 ], the affiliations of authors “Huo‑huo Xue, Dian Tang, Zhong Liao, Jing-lai Xue” have been changed to “Department of spine surgery, Fuzhou Second Hospital, 350007 Fuzhou, China”…”

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confidence: 99%

Correction: Static mechanical analysis of the vertebral body after modified anterior cervical discectomy and fusion (partial vertebral osteotomy): a finite element model

Xue,

Tang,

Zhao

et al. 2023

J Orthop Surg Res

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mentioning

confidence: 99%

Correction: Static mechanical analysis of the vertebral body after modified anterior cervical discectomy and fusion (partial vertebral osteotomy): a finite element model

Xue,

Tang,

Zhao

et al. 2023

J Orthop Surg Res

Self Cite

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Distribution characteristics of stress on the vertebrae following different ranges of excision during Modified Anterior Cervical Discectomy and Fusion: A correlation study based on finite element analysis

Xue,

Chen,

Qiu

et al. 2024

BMC Musculoskelet Disord

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Background Modified Anterior Cervical Discectomy and Fusion with specific resection ranges is an effective surgical method for the treatment of focal ossification of the posterior longitudinal ligament (OPLL). Herein, we compare and analyse the static stress area distribution by performing different cuts on an original ideal finite element model. Method A total of 96 groups of finite element models of the C4–C6 cervical spine with different vertebral segmentation ranges (width: 1–12 mm, height: 1–8 mm) were established. The same pressure direction and size were applied to observe the size and distribution area of stress following various ranges of excision of the C5 vertebral body. Results Different cutting areas had similar stress aggregation points. As the contact area decreased, the stress and the bearing above area increased. The correlation of stress area variation was highest between the 1–2 MPa and 6 MPa–Max regions (Rho = − 0.975). In the surface visualisation model fitting, the width and height were of different ratios in different stress regions. The model with the best fitting degree was the 1–2 MPa group, and the equation fitting (Rho = 0.966) was as follows: Area = 908.80 − 25.92 × Width + 2.71 × Height. Conclusion Modified Anterior Cervical Discectomy and Fusion with different resection ranges exhibited different stress areas. In a specific resection range of the cervical spine (1–12 mm, 0–8 mm), area conversion occurred at a threshold of 4 MPa. Additionally, the stress was concentrated at the contact points between the vertebral body and the rigid fixator.

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Fusion Free Median Corpectomy – Long-Term Consequence of Foregoing Fusion and Fixation: A Serendipitous Observation

Singh,

Multani,

Agrawal

2024

Neurology India

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Background: Anterior cervical corpectomy and fusion (ACCF) involves placement of a graft/implant to ensure fusion and stabilization along with neural decompression. We share our experience with a subset of ACCF patients in whom graft/implant could not be placed post decompression for varying reasons but had a favorable long-term outcome. The necessity for routine fusion after corpectomy is critically analyzed, and the feasibility of an alternative surgical option without graft/implant is discussed. Material and Methods: A retrospective observational study of long-term outcomes of five patients with cervical compressive myelopathy who underwent neural decompression alone without an in situ graft/implant was done. All the patients underwent the modified cervical corpectomy technique, involving a smaller wedge size (12 × 15 mm) corpectomy. Pre- and postoperative clinical, radiological, electrophysiological, and operative findings were meticulously evaluated and analyzed. Results: This retrospective observational study reviewed records of 124 patients who underwent ACCF between 1998 and 2012. The surgical procedure involved a wedge median cervical corpectomy. In seven patients, graft/implant could not be placed or had to be removed for various reasons. Long-term follow-up was available for five of these patients who were included in the study. In two patients, the graft could not be placed intraoperatively due to hemodynamic complications. In one patient, the graft had to be removed due to postoperative infection, and in two patients, the graft had to be removed due to graft extrusion. Four patients showed marked improvement, and one patient showed minimal improvement on long-term follow-up in clinical, radiological, and electrophysiological parameters. Conclusion: This small case series suggests that a modified cervical corpectomy technique, involving a smaller wedge size (12 × 15 mm), may be considered in selected cases without radicular symptoms. This approach helps to provide neural decompression without compromising stability and avoids graft-related complications. While promising, further research, including prospective randomized-controlled trials, is essential to validate the biomechanical properties and clinical outcomes of this modified technique compared to traditional ACCF.

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Static mechanical analysis of the vertebral body after modified anterior cervical discectomy and fusion (partial vertebral osteotomy): a finite element model

Cited by 3 publications

References 28 publications

Correction: Static mechanical analysis of the vertebral body after modified anterior cervical discectomy and fusion (partial vertebral osteotomy): a finite element model

Correction: Static mechanical analysis of the vertebral body after modified anterior cervical discectomy and fusion (partial vertebral osteotomy): a finite element model

Distribution characteristics of stress on the vertebrae following different ranges of excision during Modified Anterior Cervical Discectomy and Fusion: A correlation study based on finite element analysis

Fusion Free Median Corpectomy – Long-Term Consequence of Foregoing Fusion and Fixation: A Serendipitous Observation

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