3D打印六钽钛椎间融合器与聚醚醚酮颈椎椎间融合器骨整合的比较：体内羊颈椎融合模型

Comparison of osseointegration in 3D-printed hexanium titanium cages and PEEK cervical cages: In-vivo ovine cervical fusion model.

作者信息

Panchal Ripul R, González-Cantalapiedra Antonio, Mendaña Maria Permuy, Lopez-Peña Monica, Khalilullah Taha, Muñoz Fernando

机构信息

American Neurospine Institute, Frisco, TX, USA.

Department of Veterinary Clinical Sciences, University of Santiago de Compostela, iBonelab SL, Lugo, Spain.

出版信息

Eur Spine J. 2025 May 10. doi: 10.1007/s00586-025-08809-w.

DOI:10.1007/s00586-025-08809-w

PMID:40347286

Abstract

PURPOSE

To evaluate intervertebral cage migration and bony ingrowth in 3D printed additive manufacturing titanium cages with hexagonal geometry in the cage walls and traditional PEEK anterior cervical cages using an in-vivo ovine model.

MATERIALS AND METHODS

A comparative animal study was performed. 3D-printed titanium and PEEK interbody cages were implanted in eight ovine cervical spines without fixation. After 8 weeks, animals underwent a full body CT-scan and at 12 weeks, a micro-CT scan and histological sections were performed to qualitatively assess (i) the cage position (ii) the ratio of bone ingrowth inside the cage central window in terms of area and volume and (iii) the osseointegration inside the 3D-printed titanium complex geometry.

RESULTS

Within the central window of the cages, the mean percentage of bone area/total area for the PEEK and 3D-printed titanium groups was 3.79 ± 7.26 and 10.46 ± 8.52, respectively (p-value = 0.086). The mean percentage of bone volume/total volume for PEEK and 3D-printed titanium groups was 7.83 ± 6.65 and 20.53 ± 14.56 respectively (p-value = 0.018). Histological results showed a similar trend with bone ingrowth. Implant migration was observed more frequently in PEEK (87.5%) than in 3D-printed titanium cages (37.5%).

CONCLUSIONS

3D-printed titanium cages showed significantly increased bone formation in an in-vivo ovine model under suboptimal conditions. We suspect that the early osseointegration in the hexagonal geometry in the cage walls may contribute to decreased cage migration. However, further studies are necessary to confirm the findings of this preliminary study.

摘要

目的

使用体内绵羊模型，评估具有六边形笼壁几何形状的3D打印增材制造钛笼和传统聚醚醚酮（PEEK）前路颈椎笼中的椎间融合器移位及骨长入情况。

材料与方法

进行了一项对比动物研究。将3D打印的钛和PEEK椎间融合器植入八只绵羊的颈椎，未进行固定。8周后，对动物进行全身CT扫描，12周时进行微型CT扫描和组织学切片，以定性评估：（i）融合器位置；（ii）笼中央窗口内骨长入的面积和体积比例；（iii）3D打印钛复杂几何形状内的骨整合情况。

结果

在融合器的中央窗口内，PEEK组和3D打印钛组的骨面积/总面积平均百分比分别为3.79±7.26和10.46±8.52（p值 = 0.086）。PEEK组和3D打印钛组的骨体积/总体积平均百分比分别为7.83±6.65和20.53±14.56（p值 = 0.018）。组织学结果显示骨长入呈现相似趋势。观察到PEEK融合器（87.5%）比3D打印钛笼（37.5%）更频繁发生植入物移位。

结论

在次优条件下的体内绵羊模型中，3D打印钛笼显示出显著增加的骨形成。我们怀疑笼壁六边形几何形状中的早期骨整合可能有助于减少融合器移位。然而，需要进一步研究来证实这项初步研究的结果。

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3D打印六钽钛椎间融合器与聚醚醚酮颈椎椎间融合器骨整合的比较：体内羊颈椎融合模型

Comparison of osseointegration in 3D-printed hexanium titanium cages and PEEK cervical cages: In-vivo ovine cervical fusion model.

作者信息

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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