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iDQC MR Imaging of Tumor Pathophysiology

肿瘤病理生理学的 iDQC MR 成像

基本信息

批准号：
6439033
负责人：
JIANHUI ZHONG
金额：
$ 14.69万
依托单位：
UNIVERSITY OF ROCHESTER
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：
2002-04-05 至 2004-03-31
项目状态：
已结题

项目摘要

DESCRIPTION (provided by applicant): MR imaging has been used extensively in clinical practice for tumor diagnosis. A wide variety of functional MRI techniques have also been developed to non-invasively assess tumor flow and oxygenation. In particular dynamic contrast enhancement (DCE) MRI has been shown to correlate well with tumor angiogenesis. BOLD effects have also been used to measure changes due to blood oxygenation and flow in tumor studies. With careful experimental design, BOLD effects may also provide quantitative information about oxygen saturation. Recently we have been developing a novel MR imaging technique based on intermolecular double-quantum coherences (iDQCs), which is inherently more sensitive to some physical processes relevant to tumor physiological characterization. In this application, we propose three different types of MRI measurements based on iDQCs, which will provide more sensitive and specific characterization of tumors in terms of: (1) oxygenation; (2) spatial distributions of microvessels at spatial resolutions far below conventional MRI; and (3) necrotic fraction. In the this phase, iDQC imaging methods suitable for tumor characterization will be developed and compared with conventional SQC MRI. Experimental murine tumor models, MCA-35 and MCA-4, which have been extensively characterized by the co-PI, Dr. Fenton, with immunohistochemical techniques, will be used for iDQC MR imaging on a 9.4T MR scanner. Histograms of physiological parameters measured with iDQC imaging will be compared to results from immunohistochemical measurements and conventional SQC MR/. Correlation will be sought in selected regions in the tumor core and periphery, as well as normal tissues. In the next phase, methods for multispectral analysis of images will be developed to address the multi-dimensional nature of tumor pathophysiology with integrated data from oxygen saturation, microvascular distribution, and tumor necrotic fraction measurements. Spatial correlation between MRI and immunohistochemical images for quantifying blood vessel distribution and oxygen saturation will also be pursued in this phase. Response to increased oxygen and effects of radiation therapy on tumor oxygenation and angiogenesis will be studied to validate the utility of new iDQC imaging techniques. The novel iDQC MR imaging proposed in this study will provide enhanced sensitivity and specificity for measurements based on the BOLD effect, and provide a new measurement for tumor vascularity complementary to conventional DCE techniques. Since the iDQC techniques proposed in this application do not involve changes in hardware, they can be translated into clinical applications relatively quickly once the methods are carefully validated.

描述(由申请人提供)：磁共振成像已广泛应用于临床肿瘤诊断。各种各样的功能核磁共振技术也被开发出来无创评估肿瘤血流和氧合情况。尤其是动态对比增强(DCE)MRI已被证明与肿瘤有很好的相关性血管生成。大胆的效应也被用来衡量血液引起的变化肿瘤研究中的氧合和血流。精心的实验设计，大胆这些效应还可以提供有关血氧饱和度的定量信息。最近，我们一直在开发一种新的磁共振成像技术，基于分子间双量子相干(IDQCs)，它本质上比对某些与肿瘤生理学有关的物理过程敏感人物刻画。在本申请中，我们提出了三种不同类型的MRI 基于iDQC的测量，这将提供更敏感和更具体的肿瘤的特征：(1)氧合；(2)空间微血管在远低于常规空间分辨率的分布 MRI；(3)坏死区。在这一阶段，iDQC成像方法将开发适合于肿瘤表征的产品并与之进行比较常规SQC磁共振成像。实验性小鼠肿瘤模型MCA-35和MCA-4，它被广泛地描述为共同的PI，Fenton博士和免疫组织化学技术，将用于9.4T磁共振上的iDQC磁共振成像扫描仪。IDQC成像测量的生理参数直方图将与免疫组织化学测量的结果进行比较常规SQC MR/。将在选定的区域内寻找相关关系肿瘤核心和周围，以及正常组织。在下一阶段，方法用于图像的多光谱分析将被开发以解决肿瘤病理生理学的多维性质与综合数据血氧饱和度、微血管分布和肿瘤坏死分数测量。磁共振成像与免疫组织化学图像的空间相关性为了量化血管分布和氧饱和度，还将在这一阶段追求的。对氧气增加的反应和辐射的影响将研究肿瘤氧合和血管生成的治疗方法，以验证新的iDQC成像技术的应用。年提出的新型iDQC磁共振成像这项研究将提高测量的灵敏度和特异度。基于BOLD效应，为肿瘤血管提供了一种新的测量方法是对传统DCE技术的补充。由于iDQC技术在本申请中提出的不涉及硬件更改，它们可以一旦这些方法被相对较快地转化为临床应用经过仔细验证。