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Effects of surface topography, hydrophilicity and chemistry of surface-treated PCL scaffolds on chondrocyte infiltration and EGM production

机译：表面处理的PCL支架对软骨渗透和eGM生产的表面形貌，亲水性和化学性质的影响

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The interaction of chondrocytes with two surface-treated polycaprolactone (PCL) scaffolds was examined. The surface treatments of PCL scaffolds were performed by alkaline hydrolysis and followed by oxygen plasma treatment. The hydrolysis of PCL was conducted either prior to scaffold fabrication, yielding pre-hydrolyzed PCL, or after scaffold fabrication, yielding post-hydrolyzed PCL. Both hydrolyzed scaffolds were subsequently subjected to plasma treatment. The resulting scaffolds were denoted as plasma-treated pre-HPCL and plasma-treated post-HPCL scaffolds, respectively. The surface morphology, wettability and chemical composition of the surface-treated scaffolds were investigated. The histological results revealed that the chondrocytes infiltrated more thoroughly inside the plasma-treated pre-HPCL scaffold.

机译：检查了软骨细胞与两个表面处理的聚己内酯（PCL）支架的相互作用。 PCL支架的表面处理通过碱性水解进行，然后进行氧等离子体处理。 PCL的水解在支架制造之前，在支承预水解的PCL或支架制造之后进行，得到水后水解的PCL。随后对水解支架进行了血浆处理。得到的支架被用作等离子体处理的血浆处理的前HPCL和血浆处理的后HPCL支架支架。研究了表面处理的支架的表面形态，润湿性和化学成分。组织学结果表明，软骨细胞在等离子体处理的前HPCL支架内更彻底渗透。

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《International Conference on Tissue Engineering》|2013年||共8页
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W. Janvikul; P. Uppanan; B. Thavomyutikarn;
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中图分类生物医学工程;
关键词
Polycaprolactone; Hydrolysis; Plasma treatment; Topography; Hydrophilicity; Chondrocytes; Infiltration; Extracellular matrix.;

机译：聚己内酯;水解;等离子体处理;地形;亲水;chondrocytes;浸润;细胞外基质。;

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1. Chondrogenic phenotype in responses to po!y(ε -caprolactone) scaffolds catalyzed by bioenzymes: effects of surface topography and chemistry [J] . Kosorn Wasana, Sakulsumbat Morakot, Lertwimol Tareerat, Journal of materials science . 2019,第12期

机译：通过生物酶催化的Po！Y（ε-碳缩水酮）支架的响应中的软骨型表型：表面形貌和化学的影响
2. Preparation of hydrophilic PCL nanofiber scaffolds via electrospinning of PCL/PVP-b-PCL block copolymers for enhanced cell biocompatibility [J] . Cho Sung Ju, Jung Sang Myung, Kang Munhyung, Polymer: The International Journal for the Science and Technology of Polymers . 2015,第Null期

机译：通过电纺PCL / PVP-b-PCL嵌段共聚物制备亲水PCL纳米纤维支架以增强细胞的生物相容性
3. Surface chemistry, substrate, and topography guide the behavior of human articular chondrocytes cultured in vitro in vitro [J] . Bergholt Natasja Leth, Foss Morten, Saeed Anwer, Journal of biomedical materials research, Part A . 2018,第11期

机译：表面化学，基材和地形指导体外体外培养人关节软骨细胞的行为
4. Effects of surface topography, hydrophilicity and chemistry of surface-treated PCL scaffolds on chondrocyte infiltration and EGM production [C] . W. Janvikul, P. Uppanan, B. Thavomyutikarn International Conference on Tissue Engineering . 2013

机译：表面处理的PCL支架对软骨渗透和eGM生产的表面形貌，亲水性和化学性质的影响
5. Future of Soft Tissue Regeneration: 3D Printed PCLF Scaffolds, Progenitor Cell Proliferation and Differentiation, and Vascularization with Tissue Infiltration. [D] . Wagner, Eric Richard. 2016

机译：软组织再生的未来：3D打印的PCLF支架，祖细胞增殖和分化，以及具有组织浸润的血管形成。
6. Short Oxygen Plasma Treatment Leading to Long-Term Hydrophilicity of Conductive PCL-PPy Nanofiber Scaffolds [O] . Sajjad Shafei, Javad Foroughi, Zhiqiang Chen, 2017

机译：短氧等离子体处理导致导电PCL-PPy纳米纤维支架的长期亲水性
7. Effects of Surface Topography, Hydrophilicity and Chemistry of Surface-treated PCL Scaffolds on Chondrocyte Infiltration and ECM Production [O] . Janvikul W., Uppanan P., Thavornyutikarn B., 2013

机译：表面处理的PCL支架的表面形貌，亲水性和化学性质对软骨细胞浸润和ECM产生的影响

Effects of surface topography, hydrophilicity and chemistry of surface-treated PCL scaffolds on chondrocyte infiltration and EGM production

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