Fabrication of 3D PCL/PVP scaffolds using monosodium glutamate as porogen by solvent casting/particulate leaching method for oral and maxillofacial bone tissue engineering.

Thanh Huy Thai, Thy Minh Nguyen, Minh-Dung Truong, Thi Thanh Tam Phan, Dinh Thanh Le, Hoan Ngoc Doan, Thi-Hiep Nguyen
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Abstract

The design of three-dimensional (3D) scaffolds should focus on creating highly porous, 3D structures with an interconnected pore network that supports cell growth. The scaffold's pore interconnectivity is directly linked to vascularization, cell seeding, guided cell migration, and transportation of nutrients and metabolic waste. In this study, different types of food flavors including monosodium glutamate, sugar, and sodium chloride were used as the porogens along with PCL/PVP blend polymer for solvent casting/particulate leaching method. The morphology, porosity, interconnectivity, chemical composition, water absorption, and mechanical properties of the fabricated scaffolds are carefully characterized. The scaffolds are biocompatible in bothin vitroandin vivoexperiments and do not trigger any inflammatory response while enhancing new bone formation and vascularization in rabbit calvaria critical-sized defects. The new bone merges and becomes denser along with the experiment timeline. The results indicate that the 3D PCL/PVP scaffolds, using monosodium glutamate as porogen, exhibited suitable biological performance and held promise for bone tissue engineering in oral and maxillofacial surgery.

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利用溶剂浇铸/微粒浸出法,以谷氨酸钠为致孔原制备用于口腔颌面骨组织工程的三维 PCL/PVP 支架。
三维(3D)支架的设计应着眼于创造一种具有相互连接的孔隙网络、支持细胞生长的高多孔性三维结构。支架的孔隙互连性与血管形成、细胞播种、引导细胞迁移以及营养物质和代谢废物的运输直接相关。本研究采用不同类型的食品香精(包括味精、糖和氯化钠)作为致孔剂,与 PCL/PVP 共混聚合物一起进行溶剂浇铸/微粒浸出法。对制作的支架的形态、孔隙率、互联性、化学成分、吸水性和机械性能进行了仔细的表征。在体外和体内实验中,这种支架都具有良好的生物相容性,不会引发任何炎症反应,同时还能促进兔小腿临界大小缺损中新骨的形成和血管化。随着实验时间的推移,新骨逐渐融合并变得更加致密。结果表明,以谷氨酸钠为致孔材料的三维 PCL/PVP 支架具有合适的生物学性能,有望用于口腔颌面外科的骨组织工程。
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