A material's point of view on recent developments of polymeric biomaterials: control of mechanical and biochemical properties.

Varvara Gribova, Thomas Crouzier, Catherine Picart
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引用次数: 0

Abstract

Cells respond to a variety of stimuli, including biochemical, topographical and mechanical signals originating from their micro-environment. Cell responses to the mechanical properties of their substrates have been increasingly studied for about 14 years. To this end, several types of materials based on synthetic and natural polymers have been developed. Presentation of biochemical ligands to the cells is also important to provide additional functionalities or more selectivity in the details of cell/material interaction. In this review article, we will emphasize the development of synthetic and natural polymeric materials with well-characterized and tunable mechanical properties. We will also highlight how biochemical signals can be presented to the cells by combining them with these biomaterials. Such developments in materials science are not only important for fundamental biophysical studies on cell/material interactions but also for the design of a new generation of advanced and highly functional biomaterials.

从材料的角度看聚合物生物材料的最新发展:机械和生物化学特性的控制。
细胞会对各种刺激做出反应,包括来自其微环境的生化、地形和机械信号。近 14 年来,细胞对其基质机械特性的反应研究日益增多。为此,人们开发了几种基于合成和天然聚合物的材料。向细胞提供生化配体对于在细胞/材料相互作用的细节中提供额外功能或更多选择性也很重要。在这篇综述文章中,我们将着重介绍具有良好特性和可调机械性能的合成和天然聚合物材料的开发情况。我们还将重点介绍如何通过将生化信号与这些生物材料相结合,向细胞传递生化信号。材料科学的这些发展不仅对细胞/材料相互作用的基础生物物理研究很重要,而且对设计新一代先进的高功能生物材料也很重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Materials Chemistry
Journal of Materials Chemistry 工程技术-材料科学:综合
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审稿时长
1.5 months
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