In Vivo Effects of Biosilica and Spongin-Like Collagen Scaffolds on the Healing Process in Osteoporotic Rats

IF 2.6 3区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Matheus de A. Cruz, Karolyne S. J. Sousa, Ingrid R. Avanzi, Amanda de Souza, Cintia C. S. Martignago, Fernanda V. B. Delpupo, Mariana C. Simões, Julia R. Parisi, Livia Assis, Flávia De Oliveira, Renata N. Granito, Eeva-Liisa Laakso, Ana Renno
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Abstract

Due to bioactive properties, introducing spongin-like collagen (SPG) into the biosilica (BS) extracted from marine sponges would present an enhanced biological material for improving osteoporotic fracture healing by increasing bone formation rate. Our aim was to characterize the morphology of the BS/SPG scaffolds by scanning electron microscopy (SEM), the chemical bonds of the material by Fourier transform infrared spectroscopy (FTIR), and evaluating the orthotopic in vivo response of BS/SPG scaffolds in tibial defects of osteoporotic fractures in rats (histology, histomorphometry, and immunohistochemistry) in two experimental periods (15 and 30 days). SEM showed that scaffolds were porous, showing the spicules of BS and fibrous aspect of SPG. FTIR showed characteristic peaks of BS and SPG. For the in vivo studies, after 30 days, BS and BS/SPG showed a higher amount of newly formed bone compared to the first experimental period, observed both in the periphery and in the central region of the bone defect. For histomorphometry, BS/SPG presented higher %BV/TV compared to the other experimental groups. After 15 days, BS presented higher volumes of collagen type I. After 30 days, all groups demonstrated higher volumes of collagen type III compared to volumes at 15 days. After 30 days, BS/SPG presented higher immunostaining of osteoprotegerin compared to the other experimental groups at the same experimental period. The results showed that BS and BS/SPG scaffolds were able to improve bone healing. Future research should focus on the effects of BS/SPG on longer periods in vivo studies.

Abstract Image

Abstract Image

生物硅胶和海绵样胶原支架对骨质疏松大鼠愈合过程的体内影响
由于具有生物活性特性,在从海洋海绵中提取的生物硅胶(BS)中引入海绵蛋白样胶原(SPG)将会成为一种增强型生物材料,通过提高骨形成率来改善骨质疏松性骨折的愈合。我们的目的是用扫描电子显微镜(SEM)观察 BS/SPG 支架的形态,用傅里叶变换红外光谱(FTIR)观察材料的化学键,并分两个实验阶段(15 天和 30 天)评估 BS/SPG 支架在骨质疏松性骨折大鼠胫骨缺损中的正位体内反应(组织学、组织形态计量学和免疫组化)。扫描电子显微镜显示,支架是多孔的,显示出 BS 的棘状和 SPG 的纤维状。傅立叶变换红外光谱显示出 BS 和 SPG 的特征峰。在体内研究方面,30 天后,BS 和 BS/SPG 在骨缺损的外围和中心区域都显示出比第一个实验期更高的新形成骨量。在组织形态学方面,BS/SPG 与其他实验组相比,显示出更高的 %BV/TV。15 天后,BS 组的 I 型胶原含量更高。30 天后,与 15 天时的含量相比,所有实验组的 III 型胶原含量都更高。30 天后,BS/SPG 的骨保护素免疫染色高于同一实验期间的其他实验组。结果表明,BS 和 BS/SPG 支架能够改善骨愈合。未来的研究应重点关注 BS/SPG 对更长时间的体内研究的影响。
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来源期刊
Marine Biotechnology
Marine Biotechnology 工程技术-海洋与淡水生物学
CiteScore
4.80
自引率
3.30%
发文量
95
审稿时长
2 months
期刊介绍: Marine Biotechnology welcomes high-quality research papers presenting novel data on the biotechnology of aquatic organisms. The journal publishes high quality papers in the areas of molecular biology, genomics, proteomics, cell biology, and biochemistry, and particularly encourages submissions of papers related to genome biology such as linkage mapping, large-scale gene discoveries, QTL analysis, physical mapping, and comparative and functional genome analysis. Papers on technological development and marine natural products should demonstrate innovation and novel applications.
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