含有维生素 D 和富血小板血浆 (PRP) 的生物相容性载体对骨缺损的影响。

IF 0.3 4区医学 Q3 MEDICINE, GENERAL & INTERNAL

Hippokratia Pub Date : 2023-04-01

C T Turgut, Civelek Ozturk, T Kotil, S Gungor, Y Ozsoy, A Dirican, A Okyar, M Yaltirik

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引用次数: 0

摘要

简介在口腔颌面外科中，硬组织增量材料可加速愈合，作为骨缺损重建的模板，并刺激骨的生成和生长。本研究调查了含有活性维生素 D 和血小板丰富血浆（PRP）的生物相容性载体对大鼠小腿骨缺损的影响：这项动物实验研究使用了 52 只雄性 Sprague Dawley 大鼠，将其分为 6 组，并通过添加对骨骼发育有加速作用的维生素 D 进行组织病理学、显微形貌和生化比较。我们在第一周、第二周、第四周和第八周以相同的数量（每组 8 只，4 只用于获取 PRP）牺牲大鼠，检查腓骨缺损情况。我们使用组织病理学、显微层析成像和宏观方法对新形成的骨骼进行了评估，并对血浆样本进行了生化分析。研究还调查了决定骨形成的成纤维细胞生长因子 23（FGF23）、维生素 D 受体（VDR）和核因子卡巴 B 受体激活剂（RANK）的表达情况。结果显示，当生物相容性材料与钙三醇一起输送时，骨化量、骨量和矿物质密度在第 4 周和第 8 周明显增加：组织学和宏观检查显示，"钙三醇+壳聚糖+PRP "组缺损区域缩小，并有新细胞定植。与其他实验组和对照组相比，"降钙素三醇 + 壳聚糖 + PRP "组的 RANK、FGF23 和 VDR 抗体表达更强：结论：活性维生素 D、PRP 和壳聚糖配方对骨缺损的修复有积极作用，并能显著改善临床症状。这种新的给药方法有望治愈硬骨组织手术后的骨缺损。Hippokratia 2023，27 (2)：48-56。

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The effect of biocompatible carriers with vitamin D and platelet-rich plasma (PRP) on bone defects.

Introduction: In oral and maxillofacial surgery, hard tissue augmentation is provided by materials that accelerate the healing, act as a template for reconstructing bony defects, and stimulate bone production and growth. This study investigated the effects of biocompatible carriers containing active vitamin D and platelet-rich plasma (PRP) on bone defects created in rat calvaria.

Material and methods: This experimental animal study utilized fifty-two male Sprague Dawley rats divided into six groups and conducted histopathological, microtomographic, and biochemical comparisons by adding vitamin D, which has an accelerating effect on bone development. We examined the calvarial defects, sacrificing the rats in equal numbers (eight in each group and four to obtain PRP) at the first, second, fourth, and eighth weeks. The newly formed bone was assessed using histopathologic, microtomographic, and macroscopic methods as well as the biochemical analysis performed in the plasma samples. Expression of fibroblast growth factor 23 (FGF23), vitamin D receptor (VDR), and receptor activator of nuclear factor-kappa B (RANK), which determine bone formation, were investigated. The amounts of ossification, bone volume, and mineral densities were significantly higher in the fourth and eighth weeks as the biocompatible material was delivered with calcitriol.

Results: The histological and macroscopic examinations revealed that the defect area shrank and was colonized with new cells in the "calcitriol + chitosan + PRP" group. The expression of RANK, FGF23, and VDR antibodies was more intense in the "calcitriol + chitosan + PRP" group than in other groups of the experiment and controls.

Conclusion: Active vitamin D, PRP, and chitosan formulation positively contributed to the repair of bone defects and induced remarkable clinical improvement. This new delivery approach could be promising for healing bone defects following surgical operations in hard bony tissues. HIPPOKRATIA 2023, 27 (2):48-56.

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来源期刊

Hippokratia MEDICINE, GENERAL & INTERNAL-

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Hippokratia journal is a quarterly issued, open access, peer reviewed, general medical journal, published in Thessaloniki, Greece. It is a forum for all medical specialties. The journal is published continuously since 1997, its official language is English and all submitted manuscripts undergo peer review by two independent reviewers, assigned by the Editor (double blinded review process). Hippokratia journal is managed by its Editorial Board and has an International Advisory Committee and over 500 expert Reviewers covering all medical specialties and additionally Technical Reviewers, Statisticians, Image processing Experts and a journal Secretary. The Society “Friends of Hippokratia Journal” has the financial management of both the printed and electronic edition of the journal.