An electrospun degradable scaffold based on a novel hydrophilic polyester for tissue-engineering applications

Seyednejad H.; Ji W.; Schuurman W.; Dhert W.J.A.; Malda J.; Yang F.; Jansen J.A.; van Nostrum C.; Vermonden T.; Hennink W.E.

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An electrospun degradable scaffold based on a novel hydrophilic polyester for tissue-engineering applications

机译：基于新型亲水性聚酯的静电纺丝可降解支架，用于组织工程应用

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Scaffolds based on a novel functionalized polyester, pHMGCL, are electrospun and characterized morphologically and physically. In vitro degradation studies of pHMGCL films show considerable mass loss and molecular weight reduction within 70 weeks. Scaffolds composed of fibers with uniform diameter (≈ 900nm) and with melting temperatures higher than body temperature are prepared. As an indication for the feasibility of this material for regenerative medicine approaches, articular chondrocytes are seeded onto electrospun pHMGCL scaffolds. Chondrocytes attach to the fibers and re-differentiate as demonstrated by the production of GAG and collagen type II within four weeks of in vitro culture. Hydrophilic pHMGCL scaffolds may thus be useful for tissue engineering applications.

机译：对基于新型功能化聚酯pHMGCL的支架进行电纺并在形态和物理上进行表征。 pHMGCL膜的体外降解研究表明，在70周内质量损失显着，分子量降低。准备了由直径均匀（≈900nm）且熔点高于体温的纤维组成的支架。为了表明这种材料用于再生医学方法的可行性，将关节软骨细胞接种到静电纺丝的pHMGCL支架上。软骨细胞附着在纤维上并重新分化，如体外培养四周内GAG和II型胶原蛋白的产生所证明的。亲水pHMGCL支架因此可用于组织工程应用。

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《Macromolecular bioscience》 |2011年第12期|共9页
作者
Seyednejad H.; Ji W.; Schuurman W.; Dhert W.J.A.; Malda J.; Yang F.; Jansen J.A.; van Nostrum C.; Vermonden T.; Hennink W.E.;
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正文语种 eng
中图分类高分子化学（高聚物）;
关键词
Cartilage; Degradation; Electrospinning; Functionalization of polymers; Poly(ε-caprolactone);

机译：软骨;降解;静电纺丝;聚合物功能化;聚ε-己内酯;

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1. An electrospun degradable scaffold based on a novel hydrophilic polyester for tissue-engineering applications [J] . Seyednejad H., Ji W., Schuurman W., Macromolecular bioscience . 2011,第12期

机译：基于新型亲水性聚酯的静电纺丝可降解支架，用于组织工程应用
2. Control of degradation rate and hydrophilicity in electrospun non-woven poly(D,L-lactide) nanofiber scaffolds for biomedical applications. [J] . Kim K, Yu M, Zong X, Biomaterials . 2003,第27期

机译：用于生物医学应用的电纺非织造聚（D，L-丙交酯）纳米纤维支架中降解速率和亲水性的控制。
3. A review of key challenges of electrospun scaffolds for tissue-engineering applications [J] . Khorshidi Sajedeh, Solouk Atefeh, Mirzadeh Hamid, Journal of tissue engineering and regenerative medicine . 2016,第9期

机译：综述用于组织工程应用的电纺支架的主要挑战
4. The effect of nanoapatite (nAp) on degradation behavior and inflammatory response of PLGA-based electrospun scaffolds [C] . Wei Ji, Fang Yang, Hajar Seyednejad, World biomaterials congress . 2012

机译：纳米磷灰石（nAp）对基于PLGA的电纺支架的降解行为和炎症反应的影响
5. Fabrication and Evaluation of PVA Modified Hydrophilic Cellulose Membrane and TiO2/FAS Modified Superhydrophobic PVDF Electrospun Nanofiber Membrane for Applications in Membrane Bioreactor and Membrane Distillation [D] . Qi, Yufan. 2019

机译：PVA改性亲水性纤维素膜和TiO2 / Fas改性超疏水PVDF电纺纳米纤维膜在膜生物反应器和膜蒸馏中的制备和评价
6. Hybrid Polyester-Hydrogel Electrospun Scaffolds for Tissue Engineering Applications [O] . Ana Rita Gonçalves de Pinho, Ines Odila, Anne Leferink, 2019

机译：用于组织工程的杂化聚酯-水凝胶电纺支架
7. Fabrication and Degradation of Electrospun Scaffolds from L-Tyrosine-Based Polyurethane Blends for Tissue Engineering Applications [O] . Michael Spagnuolo, Lingyun Liu 2012

机译：基于L-酪氨酸的聚氨酯混合物的制造和降解组织工程应用

An electrospun degradable scaffold based on a novel hydrophilic polyester for tissue-engineering applications

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