Mimicked Periosteum Layer Based on Deposited Particle Silk Fibroin Membrane for Osteogenesis and Guided Bone Regeneration in Alveolar Cleft Surgery: Formation and in Vitro Testing.

IF 1.6 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Organogenesis Pub Date : 2021-10-02 Epub Date: 2021-11-01 DOI:10.1080/15476278.2021.1991743

Yadanar Mya Moe, Thongchai Nuntanaranont, Matthana Khangkhamano, Jirut Meesane

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Abstract

An alveolar cleft is a critical tissue defect often treated with surgery. In this research, the mimicked periosteum layer based on deposited silk fibroin membrane was fabricated for guided bone regeneration in alveolar cleft surgery. The deposited silk fibroin particle membranes were fabricated by spray-drying with different concentrations of silk fibroin (v/v): 0.5% silk fibroin (0.5% SFM), 1% silk fibroin (1% SFM), 2% silk fibroin (2% SFM), and 1% silk fibroin film (1% SFF) as the control. The membranes were then characterized and the molecular organization, structure, and morphology were observed with FT-IR, DSC, and SEM. Their physical properties, mechanical properties, swelling, and degradation were tested. The membranes were cultured with osteoblast cells and their biological performance, cell viability and proliferation, total protein, ALP activity, and calcium deposition were evaluated. The results demonstrated that the membranes showed molecular transformation of random coils to beta sheets and stable structures. The membranes had a porous layer. Furthermore, they had more stress and strain, swelling, and degradation than the film. They had more unique cell viability and proliferation, total protein, ALP activity, calcium deposition than the film. The results of the study indicated that 1% SFM is promising for guided bone regeneration for alveolar cleft surgery.

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基于沉积颗粒丝纤维蛋白膜的模拟骨膜层用于牙槽骨裂手术中的成骨和引导骨再生：形成和体外测试。

牙槽裂是一种严重的组织缺损，通常需要通过手术进行治疗。本研究基于沉积蚕丝纤维素膜制作了模拟骨膜层，用于引导牙槽裂手术中的骨再生。沉积蚕丝纤维素颗粒膜是用不同浓度的蚕丝纤维素（v/v）喷雾干燥制成的：0.5%蚕丝纤维素（0.5% SFM）、1%蚕丝纤维素（1% SFM）、2%蚕丝纤维素（2% SFM）和 1%蚕丝纤维素薄膜（1% SFF）作为对照。然后用傅立叶变换红外光谱（FT-IR）、DSC 和扫描电子显微镜观察了这些膜的分子组织、结构和形态。测试了膜的物理性质、机械性能、膨胀和降解。用成骨细胞培养膜，评估其生物学性能、细胞活力和增殖、总蛋白、ALP 活性和钙沉积。结果表明，膜的分子结构由无规线圈转变为β片，结构稳定。膜具有多孔层。此外，与薄膜相比，它们有更大的应力和应变、膨胀和降解。与薄膜相比，它们具有更独特的细胞活力和增殖、总蛋白、ALP 活性、钙沉积。研究结果表明，1% SFM 很有希望用于牙槽骨裂手术的引导骨再生。

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

Organogenesis BIOCHEMISTRY & MOLECULAR BIOLOGY-DEVELOPMENTAL BIOLOGY

CiteScore

4.10

自引率

4.30%

发文量

审稿时长

>12 weeks

期刊介绍： Organogenesis is a peer-reviewed journal, available in print and online, that publishes significant advances on all aspects of organ development. The journal covers organogenesis in all multi-cellular organisms and also includes research into tissue engineering, artificial organs and organ substitutes. The overriding criteria for publication in Organogenesis are originality, scientific merit and general interest. The audience of the journal consists primarily of researchers and advanced students of anatomy, developmental biology and tissue engineering. The emphasis of the journal is on experimental papers (full-length and brief communications), but it will also publish reviews, hypotheses and commentaries. The Editors encourage the submission of addenda, which are essentially auto-commentaries on significant research recently published elsewhere with additional insights, new interpretations or speculations on a relevant topic. If you have interesting data or an original hypothesis about organ development or artificial organs, please send a pre-submission inquiry to the Editor-in-Chief. You will normally receive a reply within days. All manuscripts will be subjected to peer review, and accepted manuscripts will be posted to the electronic site of the journal immediately and will appear in print at the earliest opportunity thereafter.