权益分类	功能权益	普通用户	{{item.name}}会员
{{category.name}}	{{benefitItem.name}}

NOVEL X-RAY TECHNOLOGY FOR DEGENERATIVE JOINT DISEASE

用于治疗退行性关节疾病的新型 X 射线技术

基本信息

批准号：
6424599
负责人：
KLAUS E KUETTNER
金额：
$ 66.7万
依托单位：
RUSH UNIVERSITY MEDICAL CENTER
依托单位国家：
美国
项目类别：
财政年份：
2002
资助国家：
美国
起止时间：
2002-06-01 至 2007-05-31
项目状态：
已结题

项目摘要

We propose a program to integrate biomedical (Rush Medical College) with bioengineering (Illinois Institute of Technology and Massachusetts Institute of Technology) approaches to test and refine a novel X-ray technology for the diagnosis of joint pathology, particularly osteoarthritis. This technology may aid in the development of disease modifying agents and treatment strategies for the prevention and treatment of joint diseases. This project utilizes a novel synchrotron x-ray technique called diffraction enhanced imaging (DEI) which derives dramatic gains in contrast over conventional radiographs by exploiting x-ray refraction and scatter rejection (extinction) in addition to the usual absorption of conventional radiography. This technique, originally developed for mammary carcinoma imaging analyzes soft tissue as high contrast images with very high (greater than 0.05mm) spatial resolution. Although the synchrotron is currently used for DE imaging, the technique is not, in principle, tied to it. We have already shown that DEI is capable of imaging normal and degenerated articular cartilage of synovial joints showing features unique to this type of imaging using exposure times comparable to those of ordinary radiography. Beginning in the first year, we will interpret the cartilage and bone data obtained through our DEI methodologies by using the biological profiles of the matrix components as garnered through morphologic, biochemical and biophysical analysis. Some of the features observed in the DE images are not immediately explainable in molecular, chemical or structural terms. By using a unique integrated experimental approach, correlating biochemical and morphological tissue profiles with DE images, we hope to refine the overall DEI system for the detection of joint disease and, potentially, for other pathologies. We will image human and animal synovial joints and begin the refinement of the imaging technique for the optimal identification of early cartilage lesions. Animal models of cartilage degeneration will be used particularly for DE imaging of cartilage prior to visible signs of degeneration. Beginning in year two, we will image human cartilage that has been biomechanically damaged under controlled conditions for observation through DE imaging. We will also begin developing new DEI methodologies to produce images conveying more comprehensive information about the properties of the cartilage tissue, first for planar and then for 3D computed tomography. Throughout years one through five of the proposed project, there will be an iterative process of comparing biological analytical data with imaging data for the refinement of the DEI technique for joint tissues. Our long-term goal is to identify and localize initial phases of cartilage degeneration and follow their progression with the ultimate aim of monitoring disease progression and therapeutic interventions.

我们提出了一个计划，将生物医学（拉什医学院）与生物工程（伊利诺伊理工学院和马萨诸塞州理工学院）的方法，以测试和完善一种新的X射线技术，用于诊断关节病理，特别是骨关节炎。这项技术可能有助于开发疾病修饰剂和治疗策略，以预防和治疗关节疾病。该项目利用了一种新的同步加速器X射线技术，称为衍射增强成像（DEI），通过利用X射线折射和散射抑制（消光）以及传统射线照相术的通常吸收，获得了与传统射线照相术相比的显着对比度增益。这种技术最初是为乳腺癌成像而开发的，它将软组织分析为具有非常高（大于0.05 mm）空间分辨率的高对比度图像。虽然同步加速器是目前用于DE成像，该技术是不，在原则上，绑定到it.We已经表明，DEI是能够成像正常和退化的关节软骨的滑膜关节显示功能独特的这种类型的成像使用曝光时间可比的普通X线摄影。从第一年开始，我们将使用通过形态学、生物化学和生物物理学分析获得的基质成分的生物学特征来解释通过我们的DEI方法获得的软骨和骨数据。 DE图像中观察到的一些特征无法立即用分子、化学或结构术语解释。通过使用一种独特的综合实验方法，将生化和形态组织特征与DE图像相关联，我们希望改进整个DEI系统，用于检测关节疾病，并可能用于其他病理。我们将对人类和动物的滑膜关节进行成像，并开始改进成像技术，以最佳地识别早期软骨病变。软骨退变的动物模型将特别用于可见退变迹象之前的软骨DE成像。从第二年开始，我们将通过DE成像在受控条件下观察生物力学损伤的人类软骨。我们还将开始开发新的DEI方法，以产生传达有关软骨组织特性的更全面信息的图像，首先用于平面计算机断层扫描，然后用于3D计算机断层扫描。在拟议项目的第一到第五年，将有一个迭代过程，将生物分析数据与成像数据进行比较，以完善关节组织的DEI技术。我们的长期目标是识别和定位软骨退变的初始阶段，并跟踪其进展，最终目的是监测疾病进展和治疗干预。