“氧等离子体加二氧化硅层处理的新型聚(乳酸-羟基乙酸)膜用于假体前引导骨再生过程的可靠性”

G. Castillo-Dalí, R. Castillo-Oyagüe, A. Batista-Cruzado, C. López‐Santos, Agustín Rodríguez-González-Elipe, J. Saffar, C. Lynch, J. Gutierrez-Perez, D. Torres-Lagares
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Material and Methods Circumferential bone defects (diameter: 11 mm; depth: 3 mm) were created on the top of eight experimentation rabbits’ skulls and were randomly covered with: (1) PLGA membranes (control), or (2) PLGA/PO2/SiO2 barriers. The animals were euthanized two months afterwards. A micromorphologic study was then performed using ROI (region of interest) colour analysis. Percentage of new bone formation, length of mineralised bone, concentration of osteoclasts, and intensity of ostheosynthetic activity were assessed and compared with those of the original bone tissue. The Kruskal-Wallis test was applied for between-group com Asignificance level of a=0.05 was considered. Results The PLGA/PO2/SiO2 membranes achieved the significantly highest new bone formation, length of mineralised bone, concentration of osteoclasts, and ostheosynthetic activity. The percentage of regenerated bone supplied by the new membranes was similar to that of the original bone tissue. 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引用次数: 8

摘要

冷等离子体的使用可以改善聚乳酸-羟基乙酸(PLGA)膜的表面粗糙度,这可能会刺激成骨介质和细胞的粘附,从而加速屏障的生物降解。此外,金属氧化物颗粒掺入这些膜的表面可能会增强它们的成骨诱导能力。因此,本文的目的是评估氧等离子体(PO2)加二氧化硅(SiO2)层处理后用于引导骨再生(GBR)过程的新型PLGA膜的可靠性。材料与方法周向骨缺损(直径:11mm;深度:3mm)在8只实验兔的颅骨顶部制作,并随机覆盖:(1)PLGA膜(对照组)或(2)PLGA/PO2/SiO2屏障。两个月后,这些动物被安乐死。然后使用感兴趣区域(ROI)颜色分析进行微形态学研究。评估新骨形成的百分比、矿化骨的长度、破骨细胞的浓度和骨合成活性的强度,并与原始骨组织进行比较。组间检验采用Kruskal-Wallis检验,考虑a=0.05的显著性水平。结果PLGA/PO2/SiO2膜具有最高的新骨形成、矿化骨长度、破骨细胞浓度和骨合成活性。新膜提供的再生骨的百分比与原始骨组织相似。与对照组不同,PLGA/PO2/SiO2膜主要显示骨层形成的晚期。结论在PO2预处理后的PLGA膜上添加SiO2层可提高其骨再生能力。虽然需要进一步的研究来证实这些结论,但这可能是一种很有前途的策略,可以在修复无牙区之前重建骨骼结构。关键词:引导骨再生(GBR),聚乳酸-羟基乙酸(PLGA),膜;氧等离子体(PO2),纳米复合材料,二氧化硅层。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
‘Reliability of new poly (lactic-co-glycolic acid) membranes treated with oxygen plasma plus silicon dioxide layers for pre-prosthetic guided bone regeneration processes’
Background The use of cold plasmas may improve the surface roughness of poly(lactic-co-glycolic) acid (PLGA) membranes, which may stimulate the adhesion of osteogenic mediators and cells, thus accelerating the biodegradation of the barriers. Moreover, the incorporation of metallic-oxide particles to the surface of these membranes may enhance their osteoinductive capacity. Therefore, the aim of this paper was to evaluate the reliability of a new PLGA membrane after being treated with oxygen plasma (PO2) plus silicon dioxide (SiO2) layers for guided bone regeneration (GBR) processes. Material and Methods Circumferential bone defects (diameter: 11 mm; depth: 3 mm) were created on the top of eight experimentation rabbits’ skulls and were randomly covered with: (1) PLGA membranes (control), or (2) PLGA/PO2/SiO2 barriers. The animals were euthanized two months afterwards. A micromorphologic study was then performed using ROI (region of interest) colour analysis. Percentage of new bone formation, length of mineralised bone, concentration of osteoclasts, and intensity of ostheosynthetic activity were assessed and compared with those of the original bone tissue. The Kruskal-Wallis test was applied for between-group com Asignificance level of a=0.05 was considered. Results The PLGA/PO2/SiO2 membranes achieved the significantly highest new bone formation, length of mineralised bone, concentration of osteoclasts, and ostheosynthetic activity. The percentage of regenerated bone supplied by the new membranes was similar to that of the original bone tissue. Unlike what happened in the control group, PLGA/PO2/SiO2 membranes predominantly showed bone layers in advanced stages of formation. Conclusions The addition of SiO2 layers to PLGA membranes pre-treated with PO2 improves their bone-regeneration potential. Although further research is necessary to corroborate these conclusions in humans, this could be a promising strategy to rebuild the bone architecture prior to rehabilitate edentulous areas. Key words:Guided bone regeneration (GBR), poly(lactic-co-glycolic acid) (PLGA), membrane; oxygen plasma (PO2), nanocomposite, silicon dioxide layers.
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