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IMPROVED CHARACTERIZATION OF DENTAL BIOMATERIALS

改善牙科生物材料的特性

基本信息

批准号：
2131203
负责人：
Bill M. Culbertson
金额：
$ 3.65万
依托单位：
OHIO STATE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
1994
资助国家：
美国
起止时间：
1994-08-01 至 1996-07-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/2131203
关键词：
adhesions biomaterial development /preparation biomaterial evaluation composite resins diffusion electron spin resonance spectroscopy infrared spectrometry interferometry nuclear magnetic resonance spectroscopy scanning electron microscopy scanning transmission electron microscopy tensile strength thermogravimetry

项目摘要

It is commonly accepted that the service performance of current composite resin systems used in dentistry, such as anterior and posterior restoratives, need substantial improvement. In order to make needed improvements in composites we must more fully understand what causes deficiencies in existing systems, which calls for improved characterization techniques. In addition, to adequately evaluate new chemical concepts for improved composites it is also very important to have improved characterization techniques. As an example, a better understanding is needed for what happens at the molecular level when composites are exposed to the very aggressive environment of the oral cavity. In consideration of the above, this pilot proposal has a novel two-part thrust. First, the proposal outlines studies for the development of electron spin resonance (ESR) imaging as an extraordinarily powerful method for observing diffusion and changes at the molecular level in composites. The method, heretofore unexplored for dental composites, holds great promise for giving new and significant information on the characteristics of dental materials. Secondly, we propose to demonstrate that ESR imaging is an excellent tool to help guide the synthesis, characterization, and development of new chemistry for improved performance composites used in dentistry and other biomedical applications. In the initial effort, model (control) resin systems and currently available visible light cured (VLC) composites will be aged in water at 37 degrees C for various time segments, with the water containing a soluble nitroxide spin probe. ESR imaging will be used to study non-homogeneous, hygroscopic expansion or swelling characteristics of the VLC materials. Measurement of diffusion rates and/or processes and changes at the molecular level, due to water sorption, will be one area of ESR study, with results compared with gravimetric analysis and NMR imaging data. At the same time, the ESR technique will be examined for study of the failure mechanisms of both commercial and control dental biomaterials. The model system will be formulated to be more hydrophobic than existing composites, have greater creep resistance, improved compressive strength, etc., as compared to BisGMA based (control) VLC systems. Characterization methods developed in this study should help ascertain what materials currently in the market place are most worthy of use and how they may be modified to achieve improved performance. Thus, achieving the intended goals should facilitate bringing to the dental chair improved performance materials, contributing to enhanced dental health.

目前普遍认为，用于牙科的树脂系统，例如前牙和后牙需要大量的改进。为了使所需复合材料的改进，我们必须更充分地了解是什么原因现有系统的缺陷，需要改进表征技术。此外，为了充分评估新的对于改进复合材料的化学概念，已经改进了表征技术。例如，一个更好的我们需要了解在分子水平上发生了什么，复合材料暴露于口腔的非常侵蚀性的环境中，腔考虑到上述情况，本试验性提案有一个新颖的两部分，推力首先，该提案概述了为发展电子自旋共振（ESR）成像作为一种非常强大的在分子水平上观察扩散和变化的方法复合材料.该方法，迄今尚未探索的牙科复合材料，提供新的和重要的信息，牙科材料的特性。第二，我们要证明 ESR成像是一个很好的工具来帮助指导合成，表征和开发新的化学方法，牙科和其他生物医学用高性能复合材料应用. 在最初的努力中，模型（对照）树脂系统和目前的可用的可见光固化（VLC）复合材料将在37 ℃的水中老化摄氏度的各种时间段，与水含有可溶性氮氧自旋探针ESR成像将用于研究非均匀， VLC材料的吸湿膨胀或溶胀特性。测量扩散速率和/或过程以及分子水平，由于水的吸附，将是ESR研究的一个领域，并将结果与重量分析和NMR成像数据进行比较。在同时，将对ESR技术进行研究，以研究失效商业和对照牙科生物材料的机制。模型系统将被配制成比现有的复合材料更疏水，具有更大的抗蠕变性、改善的抗压强度等，作为与基于BisGMA的（对照）VLC系统相比。本研究中开发的表征方法应有助于确定目前市场上的哪些材料最值得使用，如何修改它们以实现更好的性能。因此，实现预期的目标应有助于使牙科椅得到改善，高性能材料，有助于增强牙齿健康。