纳米金刚石杂化材料在生物医学结构中的应用

R. Aversa, R. Petrescu, A. Apicella, F. Petrescu
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引用次数: 125

摘要

本研究提出了用于软骨细胞组织工程的新型金刚石基生物机械活性杂化纳米结构支架的开发。基于水凝胶的创新型组织工程仿生材料在多种生物医学应用中显示出诱人的物理、生物和机械性能。提出了一种基于纳米金刚石和亲水聚甲基丙烯酸羟乙基(pHEMA)的高生物相容性新型杂化材料。本文的目的是描述制备具有仿生、骨传导和骨诱导特性的纳米填充混合复合材料的化学和分析方法,这些复合材料可用于设计用于干细胞分化和生长的生物机械活性创新骨支架系统。一种更刚性和橡胶透明的杂化纳米复合材料预计具有更高的机械强度,克服了水凝胶的主要缺点之一,即其机械特性较差,可用于生物医学结构应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nano-Diamond Hybrid Materials for Structural Biomedical Application
The development of new diamond based bio-mechanically active hybrid nano-structured scaffolds for cartilage cells tissue engineering are proposed in this study. Innovative tissue engineering biomimetic materials based on hydrogel have shown attractive physical, biological and mechanical properties in several biomedical applications. A highly biocompatible novel hybrid material based on nanodiamonds and hydrophilic poly-(hydroxyl-ethyl-methacrylate) (pHEMA) is proposed. The aim of this paper is to describe the chemical and analytical procedures for the preparation of nanofilled hybrid composites possessing biomimetic, osteoconductive and osteoinductivity properties that can be useful in the design of bio-mechanically active innovative bone scaffolding systems for stem cell differentiation and growth. A more rigid and rubber transparent hybrid nano-composites are predicted to posses improved mechanical strength overwhelming one of the major weaknesses of hydrogels, which is due their poor mechanical characteristics, for applications in biomedical structural application.
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