Hydrolytic degradation behavior of poly(rac-lactide)-block-poly(propylene glycol)-block-poly(rac-lactide) Dimethacrylate derived networks designed for biomedical applications

Wischke C.; Tripodo G.; Choi N.-Y.; Lendlein A.

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Hydrolytic degradation behavior of poly(rac-lactide)-block-poly(propylene glycol)-block-poly(rac-lactide) Dimethacrylate derived networks designed for biomedical applications

机译：专为生物医学应用设计的聚（消旋丙交酯）-嵌段-聚（丙二醇）-嵌段-聚消旋（丙交酯）二甲基丙烯酸酯衍生网络的水解降解行为

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For polymer-based degradable implants, mechanical performance and degradation behavior need to be precisely controlled. Based on a rational design, this work comprehensively describes the properties of photo-crosslinked polymer networks prepared from poly(rac-lactide)-block-poly(propylene glycol)-block-poly(rac-lactide) dimethacrylate precursors during degradation. By varying the length of poly(rac-lactide) blocks connected to a central 4kDa polyether block, microphase separated networks with adjustable crosslinking density, hydrophilicity/hydrophobicity ratio, thermal, and mechanical properties are obtained. The materials are characterized by a low water uptake, controlled mass loss, and slowly decreasing wet-state E moduli in the kPa range.

机译：对于基于聚合物的可降解植入物，需要精确控制机械性能和降解行为。基于合理的设计，这项工作全面地描述了降解过程中由聚（消旋丙交酯）-嵌段-聚（丙二醇）-嵌段-聚消旋（丙交酯）二甲基丙烯酸酯前体制备的光交联聚合物网络的性能。通过改变连接到中心4kDa聚醚嵌段的聚（rac-丙交酯）嵌段的长度，可以获得具有可调节的交联密度，亲水/疏水比，热和机械性能的微相分离网络。该材料的特点是吸水率低，质量损失可控，并且在kPa范围内的湿态E模量缓慢降低。

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《Macromolecular bioscience》 |2011年第12期|共10页
作者
Wischke C.; Tripodo G.; Choi N.-Y.; Lendlein A.;
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正文语种 eng
中图分类高分子化学（高聚物）;
关键词
Biomaterials; Hydrolytic degradation; Poly(propylene glycol); Poly(rac-lactide); Polymer networks;

机译：生物材料;水解降解;聚丙二醇;聚乳酸-聚乳酸;聚合物网络;

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1. Hydrolytic degradation behavior of poly(rac-lactide)-block-poly(propylene glycol)-block-poly(rac-lactide) Dimethacrylate derived networks designed for biomedical applications [J] . Wischke C., Tripodo G., Choi N.-Y., Macromolecular bioscience . 2011,第12期

机译：专为生物医学应用设计的聚（消旋丙交酯）-嵌段-聚（丙二醇）-嵌段-聚消旋（丙交酯）二甲基丙烯酸酯衍生网络的水解降解行为
2. The Cloud Point Behavior and Liquid-Liquid Equilibrium of Poly(Ethylene Glycol)-Block-Poly(Propylene Glycol)-Block-Poly(Ethylene Glycol) with Five Salting-Out Salts (K2SO4, K2CO3, KCl, KNO3, KBr) at 283.15 K [J] . An Baodong, Zhang Wenli, Han Juan, Journal of Solution Chemistry . 2016,第12期

机译：聚（乙二醇）-Block-poly（丙二醇）-block-poly（乙二醇）的浊点行为和液体液平衡，其中503.15的盐（K2SO4，K2CO3，KCl，KNO3，KBR）在283.15 K.
3. Antitumor Properties of Irinotecan-Containing Nanoparticles Prepared Using Poly(DL-lactic acid) and Poly(ethylene glycol)-block-poly(propylene glycol)-block-poly(ethylene glycol). [J] . Onishi H, Machida Y, Machida Y Biological & pharmaceutical bulletin . 2003,第1期

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4. Fabrication of Triblock Copolymer of Poly(ρ-dioxanone-co-L-lactide)-Block-Poly(ethylene glycol) Nonwoven Mats by Electrospinning and Applications for Wound Dressing [C] . Hak Yong Kim, Byoung Min Lee, In Sik Kim Division of Polymeric Material: Science and Engineering American Chemical Society meeting . 2004

机译：用静电纺塑和伤口敷料制备聚（ρ-二氧硅氧烷-co-L-丙交酯） - 嵌段 - 聚（乙二醇）非织造垫的三嵌段共聚物
5. Poly(ethylene glycol)-block-poly(epsilon-caprolactone) micelles for the delivery of drugs with limited aqueous solubility. [D] . Jette, Karen K. 2004

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6. Synthesis of Di-Block Copolymers Poly (Propylene oxide)-block-Poly (9-(23-epoxypropyl) Carbazole) via Sequential Addition of Monomers in One Pot [O] . Lorella Izzo, Paola Lisa, Olga Sacco, 2021

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Hydrolytic degradation behavior of poly(rac-lactide)-block-poly(propylene glycol)-block-poly(rac-lactide) Dimethacrylate derived networks designed for biomedical applications

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