Polyamide/PEG Blends as Biocompatible Biomaterials for the Convenient Regulation of Cell Adhesion and Growth

Malte Winnacker; Andreas J. G. Beringer; Thomas F. Gronauer; Hicran H. Güng?r; Leonhard Reinschlüssel; Bernhard Rieger; Stephan A. Sieber

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Polyamide/PEG Blends as Biocompatible Biomaterials for the Convenient Regulation of Cell Adhesion and Growth

机译：聚酰胺/ PEG作为生物相容性生物材料，用于方便调节细胞粘附和生长

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In addition to their established usage in textiles, commodities, and automotives, classical polyamides (nylons) are recently becoming increasingly interesting for applications in (bio)medicine. This fact relies on many prosperous properties of these polymers, which are toughness, resistance, biocompatibility, low immunogenicity, tunable biodegradability, and their similarity to natural peptides (amide bonds). Some nylon-based medical products do already exist for wound treatment applications, implants, and biomoleculeinteracting membranes, but the systematic use of these polymers for tissue engineering is-although desired-still to be accomplished. Inspired by this, the suitability of nylon 6 and of a related biobased and more hydrophobic terpene-derived polyamide as surfaces for the controlled interaction with HaCat cells (human keratinocytes) are investigated herein with regard to possible applications for regenerative skin replacement. The nylons are applied as neat polymers and as hydrophilized blends/composites with polyethylene glycol and confirm their excellent suitability as biomaterials.

机译：除了在纺织品，商品和汽车中的既定用途外，古典聚酰胺（尼龙）最近对（生物）药物的应用越来越有趣。这一事实依赖于这些聚合物的许多繁荣性质，这是韧性，抗性，生物相容性，低免疫原性，可调谐生物降解性及其与天然肽（酰胺键）的相似性。一些基于尼龙的医疗产品已经存在于伤口治疗应用，植入物和生物体互换膜中，但是这些聚合物用于组织工程的系统使用是 - 尽管仍然可以实现。由此引发，尼龙6和相关的生物化和更多的疏水性萜烯衍生的聚酰胺作为用于受到HACAT细胞（人角蛋白细胞）的表面的表面的适用性在本文中关于可能的替代皮肤置换的可能应用。将尼龙用作整齐的聚合物，并用聚乙二醇的亲水化共混物/复合材料，并确认它们作为生物材料的优异适用性。

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《Macromolecular rapid communications: Publishing the newsletters of the European Polymer Federation》 |2019年第12期|共7页
作者
Malte Winnacker; Andreas J. G. Beringer; Thomas F. Gronauer; Hicran H. Güng?r; Leonhard Reinschlüssel; Bernhard Rieger; Stephan A. Sieber;
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作者单位

WACKER-Lehrstuhl für Makromolekulare Chemie Lichtenbergstra?e 4 Department of Chemistry Technische Universit?t München 85747 Garching bei München Germany;

WACKER-Lehrstuhl für Makromolekulare Chemie Lichtenbergstra?e 4 Department of Chemistry Technische Universit?t München 85747 Garching bei München Germany;

WACKER-Lehrstuhl für Makromolekulare Chemie Lichtenbergstra?e 4 Department of Chemistry Technische Universit?t München 85747 Garching bei München Germany;

WACKER-Lehrstuhl für Makromolekulare Chemie Lichtenbergstra?e 4 Department of Chemistry Technische Universit?t München 85747 Garching bei München Germany;

WACKER-Lehrstuhl für Makromolekulare Chemie Lichtenbergstra?e 4 Department of Chemistry Technische Universit?t München 85747 Garching bei München Germany;

WACKER-Lehrstuhl für Makromolekulare Chemie Lichtenbergstra?e 4 Department of Chemistry Technische Universit?t München 85747 Garching bei München Germany;

WACKER-Lehrstuhl für Makromolekulare Chemie Lichtenbergstra?e 4 Department of Chemistry Technische Universit?t München 85747 Garching bei München Germany;

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原文格式 PDF
正文语种 eng
中图分类高分子化学（高聚物）;
关键词
biomaterials; keratinocytes; polyamides; polyethylene glycol; terpenes;

机译：生物材料;角质形成细胞;聚酰胺;聚乙二醇;Terpenes;

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专利

1. Polyamide/PEG Blends as Biocompatible Biomaterials for the Convenient Regulation of Cell Adhesion and Growth [J] . Malte Winnacker, Andreas J. G. Beringer, Thomas F. Gronauer, Macromolecular rapid communications: Publishing the newsletters of the European Polymer Federation . 2019,第12期

机译：聚酰胺/ PEG作为生物相容性生物材料，用于方便调节细胞粘附和生长
2. PEG-variant biomaterials as selectively adhesive protein templates: model surfaces for controlled cell adhesion and migration. [J] . Tziampazis E, Kohn J, Moghe PV Biomaterials . 2000,第5期

机译：PEG变异生物材料作为选择性粘附蛋白模板：用于控制细胞粘附和迁移的模型表面。
3. Degradation and biocompatibility of photoembossed PLGA-acrylate blend for improved cell adhesion [J] . Hughes-Brittain Nanayaa F., Qiu Lin, Wang Wen, Journal of biomedical materials research. Part B, Applied biomaterials. . 2018,第1期

机译：光血杂交PLGA - 丙烯酸酯混合物的降解和生物相容性，提高细胞粘附性
4. Plaetelet Adhesion and Bacterial Adhesion on PEG-Modified Textured Biomaterial Surfaces [C] . Li-Chong Xu, Christopher A. Siedlecki Society for Biomaterials annual meeting and exposition . 2015

机译：PEG修饰的纹理生物材料表面上的小球粘附和细菌粘附。
5. Electrical field effects on endothelial cell adhesion and growth on conducting biomaterials surfaces. [D] . Clark, Gwen Elaine. 1999

机译：电场对导电生物材料表面上内皮细胞粘附和生长的影响。
6. Regulation of adhesion and growth of fibrosarcoma cells by NF-kappa B RelA involves transforming growth factor beta. [O] . J R Perez, K A Higgins-Sochaski, J Y Maltese, 1994

机译：NF-κBRelA对纤维肉瘤细胞的粘附和生长的调节涉及转化生长因子β。
7. Cell Adhesion and Spreading on an Intrinsically Anti-Adhesive PEG Biomaterial [O] . Marga C., Vera A., Mar Diez 2011

机译：细胞粘附和在本质上抗粘性PEG生物材料上展开
8. Identification of Proteins Interacting at Blood or Plasma/Biomaterial Interfaces: Relation to Platelet and White Cell Adhesion, and to Clotting, and to Interactions Among White Cells and Platelets at Interfaces [R] . Vroman, L. , Munoz, P. C. 1981

机译：在血液或血浆/生物材料界面相互作用的蛋白质的鉴定：与血小板和白细胞粘附，凝血以及界面处白细胞和血小板之间的相互作用的关系

Polyamide/PEG Blends as Biocompatible Biomaterials for the Convenient Regulation of Cell Adhesion and Growth

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