Experimental Study on the Application of Bioactive Xenogeneic Porcine Cancellous Bone for Cervical Intervertebral Fusion in Goats.

IF 1.6 4区医学 Q3 CLINICAL NEUROLOGY

Clinical Spine Surgery Pub Date : 2025-03-01 Epub Date: 2024-07-25 DOI:10.1097/BSD.0000000000001658

Wenhao Liang, Jinlong Huang, Lingling Chen, Peng Gao, Xiaona Wu, Tao Zhang

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Abstract

Study design: An experimental study in a cervical intervertebral fusion goat model.

Objective: To investigate the effect of bioactive xenogeneic porcine cancellous bone applied to the intervertebral fusion of goat cervical vertebrae.

Summary of background data: Although autogenous bone achieves satisfied outcome in cervical intervertebral fusion, it is limited and cause several complications. The application of xenogeneic bone has potential to solve these problems.

Methods: Thirty local goats were randomly divided into 3 groups: group A (12 goats): autogenous tricortical iliac bone group; group B (6 goats): polyetheretherketone (PEEK) cage with autologous bone; and group C (12 goats): PEEK cage with bioactive xenogeneic porcine cancellous bone. C3-C4 discectomy was performed in each group and the above bone graft and bone graft substitutes were implanted. Lateral cervical spine x-rays were taken at preoperative; immediately postoperative; and 4, 8, 12, and 24 weeks postoperatively every goat. Disc space heights (DSHs) were measured on lateral x-rays. CT examination was performed at 12 and 24 weeks after surgery for the fusion score. After 4 and 8 weeks after surgery, 3 goats were euthanized in both groups A and C to evaluate the immune rejection response through histology. At 12 and 24 weeks after surgery, 3 goats were euthanized in each group. The cervical implants fusion outcome was evaluated through specimen histology observation.

Result: As time extended, the immune rejection of bioactive xenogeneic porcine cancellous bone gradually subsided. Radiology, specimen observation, and histology manifested that the C3-4 vertebral bodies of goats in each group gradually fused. All the goats in each group achieved bony fusion at 24 weeks after surgery. In terms of preventing intervertebral space collapse, the PEEK cage could achieve better results. There was no significant difference in the remaining experimental data ( P >0.05).

Conclusions: Bioactive xenogeneic porcine cancellous bone can obtain satisfied fusion outcomes in cervical intervertebral fusion and is an ideal intervertebral fusion material in goats.

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应用生物活性异种猪癌骨进行山羊颈椎间融合术的实验研究

研究设计在颈椎椎间融合山羊模型中进行实验研究：目的：研究生物活性异种猪松质骨应用于山羊颈椎椎间融合术的效果：虽然自体骨在颈椎椎间融合术中取得了令人满意的效果，但其局限性很大，而且会引起一些并发症。应用异种骨有可能解决这些问题：将 30 只当地山羊随机分为 3 组：A 组（12 只）：自体三皮质髂骨组；B 组（6 只）：带有自体骨的聚醚醚酮（PEEK）骨笼；C 组（12 只）：带有生物活性异种骨的 PEEK 骨笼：聚醚醚酮（PEEK）骨笼与生物活性异种猪松质骨。各组均进行了 C3-C4 椎间盘切除术，并植入了上述骨移植和骨移植替代物。每只山羊分别在术前、术后即刻、术后 4、8、12 和 24 周拍摄颈椎侧位 X 光片。通过侧位X光片测量椎间盘间隙高度（DSH）。术后12周和24周进行CT检查，以确定融合评分。术后4周和8周，A组和C组都有3只山羊被安乐死，以便通过组织学评估免疫排斥反应。术后 12 周和 24 周，每组各安乐死 3 只山羊。通过标本组织学观察评估颈椎假体融合的结果：结果：随着时间的延长，生物活性异种猪松质骨的免疫排斥反应逐渐减弱。放射学、标本观察和组织学显示，各组山羊的 C3-4 椎体逐渐融合。术后 24 周，各组山羊均实现了骨融合。在防止椎间隙塌陷方面，PEEK椎体笼的效果更好。其余实验数据无明显差异（P>0.05）：结论：生物活性异种猪松质骨能在颈椎间融合术中获得满意的融合效果，是山羊理想的椎间融合材料。

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来源期刊

Clinical Spine Surgery Medicine-Surgery

CiteScore

3.00

自引率

5.30%

发文量

236

期刊介绍： Clinical Spine Surgery is the ideal journal for the busy practicing spine surgeon or trainee, as it is the only journal necessary to keep up to date with new clinical research and surgical techniques. Readers get to watch leaders in the field debate controversial topics in a new controversies section, and gain access to evidence-based reviews of important pathologies in the systematic reviews section. The journal features a surgical technique complete with a video, and a tips and tricks section that allows surgeons to review the important steps prior to a complex procedure. Clinical Spine Surgery provides readers with primary research studies, specifically level 1, 2 and 3 studies, ensuring that articles that may actually change a surgeon’s practice will be read and published. Each issue includes a brief article that will help a surgeon better understand the business of healthcare, as well as an article that will help a surgeon understand how to interpret increasingly complex research methodology. Clinical Spine Surgery is your single source for up-to-date, evidence-based recommendations for spine care.