Higher solubility and lower onset temperature of protein denaturation increase the osteoconductive capacity of collagen membranes: A preclinical in vivo study

IF 4.8 1区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE Clinical Oral Implants Research Pub Date : 2024-08-21 DOI:10.1111/clr.14345

Zahra Sadat-Marashi, Masako Fujioka-Kobayashi, Hiroki Katagiri, Niklaus P. Lang, Nikola Saulacic

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Abstract

Objectives

Collagen membranes are extensively used for guided bone regeneration procedures, primarily for horizontal bone augmentation. More recently, it has been demonstrated that collagen membranes promote bone regeneration. Present study aimed at assessing if structural modifications of collagen membranes may enhance their osteoconductive capacity.

Methods

Twenty-four adult Wistar rats were used. Bilateral calvaria defects with a diameter of 5 mm were prepared and covered with prototypes of collagen membranes (P1 or P2). The P1 membrane (positive control) presented a lower onset temperature of protein denaturation and a higher solubility than the P2 membrane (test). The contralateral defects were left uncovered (NC). After 1 and 4 weeks, the animals were euthanized. A microcomputed tomography analysis of the harvested samples was performed within and above the bony defect. Undecalcified ground sections were subjected to light microscopy and morphometric analysis.

Results

Bone formation was observed starting from the circumferential borders of the defects in all groups at 1-week of healing. The foci of ossification were observed at the periosteal and dura mater sites, with signs of collagen membrane mineralization. However, there was no statistically significant difference between the groups. At 4 weeks, remnants of the collagen fibers were embedded in the newly formed bone. In the P2 group, significantly more bone volume, more new bone, and marrow spaces compared to the NC group were observed. Furthermore, the P2 group showed more bone volume ectocranially then the P1 group.

Conclusions

Bone formation subjacent to a P2 membrane was superior than subjacent to the P1 membrane and significantly better compared to the control. Modifications of the physico-chemical properties may enhance the osteoconductive competence of collagen membranes, supporting bone formation outside the bony defects.

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更高的溶解度和更低的蛋白质变性起始温度可提高胶原蛋白膜的骨诱导能力：临床前体内研究。

目的：胶原蛋白膜被广泛用于引导性骨再生手术，主要用于水平骨增量。最近的研究表明，胶原蛋白膜可促进骨再生。本研究旨在评估胶原蛋白膜的结构修饰是否能增强其骨诱导能力：方法：使用 24 只成年 Wistar 大鼠。方法：用 24 只成年 Wistar 大鼠制备直径为 5 毫米的双侧腓肠肌缺损，并用胶原蛋白膜原型（P1 或 P2）覆盖。与 P2 膜（试验）相比，P1 膜（阳性对照）的蛋白质变性起始温度更低，溶解度更高。对侧缺损不作任何处理（NC）。1 周和 4 周后，动物被安乐死。在骨缺损内和骨缺损上方对采集的样本进行微计算机断层扫描分析。对未钙化的地面切片进行光学显微镜检查和形态计量分析：结果：愈合 1 周时，所有组别均可观察到从缺损周缘开始的骨形成。骨化灶位于骨膜和硬脑膜部位，并伴有胶原膜矿化的迹象。不过，各组之间没有统计学意义上的显著差异。4 周时，胶原纤维的残余嵌入新形成的骨中。与 NC 组相比，P2 组的骨量、新骨量和骨髓间隙明显增加。此外，P2 组比 P1 组显示出更多的颅外骨量：结论：P2 膜下的骨形成优于 P1 膜下，且明显优于对照组。物理化学性质的改变可增强胶原蛋白膜的骨诱导能力，支持骨缺损外的骨形成。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Clinical Oral Implants Research 医学-工程：生物医学

CiteScore

7.70

自引率

11.60%

发文量

149

审稿时长

3 months

期刊介绍： Clinical Oral Implants Research conveys scientific progress in the field of implant dentistry and its related areas to clinicians, teachers and researchers concerned with the application of this information for the benefit of patients in need of oral implants. The journal addresses itself to clinicians, general practitioners, periodontists, oral and maxillofacial surgeons and prosthodontists, as well as to teachers, academicians and scholars involved in the education of professionals and in the scientific promotion of the field of implant dentistry.