Preparation of a polyurethane scaffold for tissue engineering made by a combination of salt leaching and freeze-drying of dioxane

R. G. J. C. Heijkants; T. G. Van Tienen; J. H. De Groot; A. J. Pennings; P. Buma; R. P. H. Veth; A. J. Schouten

首页> 外文期刊>Journal of Materials Science >Preparation of a polyurethane scaffold for tissue engineering made by a combination of salt leaching and freeze-drying of dioxane

【24h】

Preparation of a polyurethane scaffold for tissue engineering made by a combination of salt leaching and freeze-drying of dioxane

机译：通过盐浸和二恶烷冷冻干燥的组合制备用于组织工程的聚氨酯支架

获取原文

获取原文并翻译 | 示例

获取外文期刊封面封底 >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

In the past several types of synthetic porous materials have been made as meniscus reconstruction materials. Most of these materials lacked a good combination between suitable mechanical properties and a high interconnectivity. In this work porous scaffolds were made from the polyurethane Estane 5701-F1 by freeze drying of a dioxane and water solution in combination with salt leaching. It was possible to obtain very porous scaffolds with a very high interconnectivity. Porosity, pore size and interconnectivity can be independently adjusted by varying the amount of water, porogen size and the amount of porogen used. The obtained compression moduli of the scaffolds were between 40 kPa and 400 kPa with a variation in porosity between 72 and 87%. These scaffolds are very suitable for the use as meniscus replacement materials.

机译：在过去，已经制造了几种类型的合成多孔材料作为弯月面重建材料。这些材料中的大多数缺乏合适的机械性能和高互连性之间的良好结合。在这项工作中，多孔聚氨酯是由聚氨酯Estane 5701-F1通过将二恶烷和水溶液冷冻干燥并结合盐浸法制成的。有可能获得具有非常高的互连性的非常多孔的支架。孔隙率，孔径和互连性可以通过改变水量，成孔剂大小和所用成孔剂的量来独立调节。所获得的支架的压缩模量在40kPa至400kPa之间，孔隙率变化在72％至87％之间。这些支架非常适合用作弯月面替代材料。

著录项

来源
《Journal of Materials Science》 |2006年第8期|2423-2428|共6页
作者
R. G. J. C. Heijkants; T. G. Van Tienen; J. H. De Groot; A. J. Pennings; P. Buma; R. P. H. Veth; A. J. Schouten;
展开▼
作者单位

Department of Polymer Chemistry Faculty of Mathematics Natural Sciences State University of Groningen;

Orthopaedic Research Laboratory University Medical Center;

Orteq B.V.;

Orteq B.V.;

Orthopaedic Research Laboratory University Medical Center;

Orthopaedic Research Laboratory University Medical Center;

Department of Polymer Chemistry Faculty of Mathematics Natural Sciences State University of Groningen;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词

相似文献

外文文献
中文文献
专利

1. Preparation of a polyurethane scaffold for tissue engineering made by a combination of salt leaching and freeze-drying of dioxane [J] . Heijkants RGJC, Van Tienen TG, De Groot JH, Journal of Materials Science . 2006,第8期

机译：通过盐浸和二恶烷冷冻干燥的组合制备组织工程用聚氨酯支架
2. Preparation of di-butyryl-chitin scaffolds by using salt leaching method for tissue engineering and their characteristics [J] . Ozdemir D, Schoukens G, Goktepe O, Journal of Applied Polymer Science . 2008,第5期

机译：盐溶法制备组织工程用二丁酰甲壳素支架及其特性
3. Polyurethane scaffold formation via a combination of salt leaching and thermally induced phase separation. [J] . Heijkants RG, van-Calck RV, van-Tienen TG, Journal of biomedical materials research, Part A . 2008,第4期

机译：通过盐溶和热诱导相分离的组合形成聚氨酯支架。
4. PREPARATION OF THREE-DIMENSIONAL POLY(ε-CAPROLACTONE) POROUS TISSUE ENGINEERING SCAFFOLDS BY A COMBINATION OF MICROCELLULAR INJECTION FOAMING AND POLYMER LEACHING [C] . An Huang, Xiang-Fang Peng, Lih-Sheng Turng Technical Conference of the Society of Plastics Engineers . 2017

机译：微孔注射泡沫和聚合物浸出的组合制备三维聚（ε-己内酮）多孔组织工程支架
5. Characterization of a biodegradble electrospun polyurethane nanofiber scaffold suitable for annulus fibrosus tissue engineering. [D] . Yeganegi, Masoud. 2009

机译：适用于纤维环组织工程的可生物降解的静电纺丝聚氨酯纳米纤维支架的表征。
6. Combined Porogen Leaching and Emulsion Templating to produce Bone Tissue Engineering Scaffolds [O] . Robert Owen, Colin Sherborne, Richard Evans, 2020

机译：组合孔胶浸出和乳液模板生产骨组织工程支架
7. Preparation of a polyurethane scaffold for tissue engineering made by a combination of salt leaching and freeze-drying of dioxane [O] . Heijkants RGJC, Van Tienen TG, De Groot JH, 2006

机译：通过盐浸和二恶烷冷冻干燥的组合制备用于组织工程的聚氨酯支架

Preparation of a polyurethane scaffold for tissue engineering made by a combination of salt leaching and freeze-drying of dioxane

摘要

著录项

相似文献

相关主题

期刊订阅