钛植入物在体内用紫外线或冷大气等离子体进行表面处理后的骨整合。

Anders Henningsen, Clarissa Precht, Nadia Karnatz, Eric Bibiza, Ming Yan, Linna Guo, Martin Gosau, Ralf Smeets
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引用次数: 0

摘要

目的:确定紫外线和冷空气等离子体处理对体内钛种植体骨整合的组织学影响。材料和方法:将6头幼年猪分为三组,每组2只。共有54个钛植入物被随机放置在猪的颅骨中(每只猪9个植入物)。其中18个植入物作为未经治疗的对照。其余36个植入物作为实验组,在插入前分别用紫外线或氩等离子体处理12分钟。每组两只猪分别饲养至2、4和8周,然后处死。植入后和牺牲时进行共振频率分析。使用微计算机断层扫描和组织形态计量学分析评估骨整合。结果:在最初丢失后,所有植入物的植入物稳定性商数值随着时间的推移不断增加,各组之间没有显著差异。在愈合的8周内,所有植入物的骨-植入物接触值稳步增加。在每个时间点,与未经处理的植入物相比,表面处理的植入体显示出显著更高的骨-植入物接触值。在两种治疗方法之后,骨面积分数占用值几乎总是更高;然而,冷大气等离子体组仅在4周和8周后和紫外线组在4周后才有显著差异。结论:紫外线和冷空气等离子体可显著改善钛种植体的组织形态骨整合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Osseointegration of titanium implants after surface treatment with ultraviolet light or cold atmospheric plasma in vivo.

Purpose: To determine the histological effects of ultraviolet light and cold atmospheric plasma treatment on the osseointegration of titanium implants in vivo.

Materials and methods: Six juvenile pigs were divided into three groups of two animals each. A total of 54 titanium implants were placed randomly in the pigs' calvarial bone (nine implants per pig). Of these, 18 implants served as untreated controls. The remaining 36 implants served as the experimental group and were treated with either ultraviolet light or argon plasma for 12 minutes each prior to insertion. Two pigs in each group were kept until 2, 4 and 8 weeks and then sacrificed. Resonance frequency analysis was conducted after implant placement and at the time of sacrifice. Osseointegration was evaluated using microcomputed tomography scans and histomorphometrical analysis.

Results: After initial loss, all implants showed a constant increase in implant stability quotient values over time without significant differences between the groups. The bone-implant contact values increased steadily for all implants over 8 weeks of healing. Surface-treated implants showed significantly higher bone-implant contact values compared to untreated implants at each time point. Bone area fraction occupancy values were almost always higher following both treatment methods; however, differences were only significant after 4 and 8 weeks for the cold atmospheric plasma group and after 4 weeks for the ultraviolet light group.

Conclusions: Ultraviolet light and cold atmospheric plasma may improve histomorphometrical osseointegration of titanium implants significantly.

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