Cytocompatibility of Novel Algae-PLA Membranes For Guided Bone Regeneration At The Level of Types I, III And V Collagen Expression

Kapadokya Üniversitesi Pub Date : 1900-01-01 DOI:10.54995/asc.2.2.3

Y. Açil, Fatih Karayürek, Hela Helene Uplegger, O. C. Aktas

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Abstract

Statement of the problem: In recent years, the development of innovative and increasingly optimized barrier membranes has focused on marine algae, which as a biopolymer can form a membrane composite together with polylactic acid, thus a combination could show numerous advantages such as antioxidant, antitumor, antibacterial, antiviral as well as antiallergic properties. Furthermore, algae can be produced in an ecologically sustainable way and offer an alternative for patients who refuse treatment with bovine or porcine derived membranes due to ethical or religious reasons. Objective: In this study, four different algal membranes were evaluated for their cytocompatibility with cultured human fibroblasts and osteoblasts. Materials & Methods: Mem-Lok® (Collagen Matrix, New Jersey, USA) as a resorbable collagen membrane and ArgonautTM (Botiss Biomaterials, Zossen, Germany) as a native pericardium GBR/GTR membrane served as reference membranes (RMs). As the negative control cells incubated with normal culture medium only were used. In addition to the cell viability and proliferation assays water soluble tetrazolium (WST), MTT and BrdU, a real time semiquantitative real time PCR (RT-PCR) was developed to investigate in vitro cytocompatibility at the level of types I, III and V collagen expression. A sandblasted- large grid-acid ached titanium surface (Dentcon® Dental Implant Systems, Ankara, Turkey) served as a positive inactive control group for osteoblastic cytocompatibility. Results: For human osteoblasts, the algal membranes showed very good proliferation levels in WST-1, MTT as well as BrdU, indicating cytocompatibility. Examination of the expression behavior of type I, type III, and type V collagen genes showed no evaluable results. However, the RT-PCR should be repeated with the incorporated optimizations to be able to make a statement regarding the success of bone, skin, and connective tissue regeneration after a possible application of the membrane in maxillofacial injury treatment. Conclusion: The investigated collagen types are essential for a proper healing of defects in both soft and bone tissue, as they have fundamental functions such as stability and structural integrity of the tissues.

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新型海藻-聚乳酸膜在I、III和V型胶原表达水平上的细胞相容性

问题说明:近年来，创新和日益优化的屏障膜的发展集中在海藻上，海藻作为一种生物聚合物可以与聚乳酸形成膜复合材料，因此这种组合可以显示出许多优点，如抗氧化、抗肿瘤、抗菌、抗病毒和抗过敏等。此外，藻类可以以生态可持续的方式生产，并为因伦理或宗教原因拒绝使用牛或猪衍生膜治疗的患者提供替代方案。目的:研究四种不同的海藻膜与培养的人成纤维细胞和成骨细胞的相容性。材料与方法:Mem-Lok®(Collagen Matrix，美国新泽西州)作为可吸收胶原膜，ArgonautTM (Botiss Biomaterials，德国佐森)作为天然心包GBR/GTR膜作为参考膜(RMs)。阴性对照细胞仅用正常培养基孵育。除了水溶性四氮唑(WST)、MTT和BrdU的细胞活力和增殖测定外，我们还开发了实时半定量荧光定量PCR (RT-PCR)来研究I型、III型和V型胶原表达水平下的体外细胞相容性。喷砂大栅格酸蚀钛表面(Dentcon®Dental Implant Systems,Ankara, Turkey)作为成骨细胞相容性的阳性非活性对照组。结果:在人成骨细胞中，藻膜在WST-1、MTT和BrdU中均表现出很好的增殖水平，具有细胞相容性。检查I型、III型和V型胶原基因的表达行为没有可评估的结果。然而，RT-PCR应该与合并优化一起重复，以便能够在可能应用于颌面部损伤治疗后，对骨、皮肤和结缔组织再生的成功做出声明。结论:所研究的胶原蛋白类型对软组织和骨组织缺陷的正常愈合至关重要，因为它们具有组织稳定性和结构完整性等基本功能。

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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Kapadokya Üniversitesi

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