Automated 3D Analysis of Cortical Geometry in MR Images

MR 图像中皮质几何形状的自动 3D 分析

• 批准号: 6830149
• 负责人: Jerry L Prince
• 金额: $ 39.38万
• 依托单位: JOHNS HOPKINS UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 1998
• 资助国家: 美国
• 起止时间: 1998-08-20 至 2007-11-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6830149
• 关键词: Automated; 3D; Analysis; Cortical; Geometry

EXCEED THE SPACE PROVIDED. Characterizing the relationship between the structure of the human brain and its function is one of the most important goals in neuroscience today. Medical imaging has been used to gain significant new insights into this relationship through the use of both anatomical and physiological imaging methods. Despite significant recent advances, the current methodology is still limited by the lack of automatic methods for the detailed segmentation, geometric analysis, and labeling of the cerebral cortex. The major goals of the proposed research are to develop fully automated methods to find and mathematically represent the cerebral cortex in volumetric magnetic resonance (MR) images and to automatically identify and label the major sulci and gyri on the cortex using a detailed statistical analysis of cortical geometry. Specifically, we propose to 1) develop and validate methods to find and mathematically represent the cerebral cortex from volumetric MR images; 2) develop and validate methods to calculate regional measures of cortical shape and volume; 3) develop and validate automatic labelling of sulci and gryi; and 4) conduct studies of cortical variability and volume changes in normal aging. All methods will be extensively validated using both computer phantoms and manual in vivo truth models. The methods we develop to automatically represent and label the cortex in large numbers of subjects should also be useful in 1) the development of a description of normal versus diseased cortical geometry, 2) automatic landmark generation for deformable atlas registration, 3) statistical correlation studies of structure/function relationships, and 4) the analysis of morphological changes in ontogenesis, phylogenesis, aging, and disease. PERFORMANCE SITE ========================================Section End===========================================

超出所提供的空间。描述人类大脑的结构和功能之间的关系是当今神经科学最重要的目标之一。医学成像已被用于通过使用解剖和生理成像方法来获得对这种关系的重要新见解。尽管最近取得了重大进展，但目前的方法仍然受到缺乏对大脑皮层进行详细分割、几何分析和标记的自动方法的限制。该研究的主要目标是开发完全自动化的方法，在体积磁共振（MR）图像中发现和数学表示大脑皮层，并使用皮层几何结构的详细统计分析自动识别和标记皮层上的主要脑沟和脑回。具体来说，我们建议1)开发和验证从体积MR图像中寻找和数学表示大脑皮层的方法；2)开发和验证计算皮质形状和体积的区域测量方法；3)开发并验证了sulci和gryi的自动标记；4)进行正常衰老过程中皮质变异性和体积变化的研究。所有的方法都将通过计算机模拟和人工体内真值模型进行广泛的验证。我们开发的在大量受试者中自动表示和标记皮质的方法也应该在以下方面有用：1)发展正常与病变皮质几何的描述，2)可变形图谱注册的自动地标生成，3)结构/功能关系的统计相关性研究，以及4)个体发生、系统发生、衰老和疾病的形态学变化分析。网站性能 ======================================== 节结束 ===========================================