QUANTITATIVE 3D ULTRASOUND IMAGING OF THE MURINE HEART

小鼠心脏的定量 3D 超声成像

• 批准号: 6800830
• 负责人: John A Hossack
• 金额: $ 24.75万
• 依托单位: UNIVERSITY OF VIRGINIA
• 依托单位国家: 美国
• 财政年份: 2003
• 资助国家: 美国
• 起止时间: 2003-09-05 至 2007-07-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6800830
• 关键词: bioimaging /biomedical imaging; biomedical equipment development; contrast media; heart imaging /visualization /scanning; image enhancement; image processing; intracardiac volume; laboratory mouse; magnetic resonance imaging; myocardial infarction; phantom model; three dimensional imaging /topography; ultrasound blood flow measurement

DESCRIPTION (provided by applicant): The mouse has become the preferred species for cardiovascular research into the genetic mechanisms that underpin cardiovascular disease. In addition, mice are increasingly being used to study the evolution of anatomic and physiological responses to disease and therapy. The availability of transgenic and "knockout" mice, combined with conventional pharmacologic approaches, make the mouse a uniquely powerful species in which to study cardiovascular disease. One current method for non-invasive mouse imaging (MRI) has excellent image quality but its potential for widespread application is limited by its high cost, poor temporal resolution and low throughput. We propose an ultrasound method that provides accurate, low-cost, fast and non-invasive quantification of cardiac left ventricular (LV) volumes and function in small animals. Additionally, it is easy-to-use, requires minimal mouse preparation and minimal scanning time. The spatial resolution is sufficient to enable calculation of important anatomic and physiologic parameters (chamber volumes, ejection fraction, cardiac output, etc.) Furthermore, we take advantage of the superior temporal resolution to enable assessment of mouse LV perfusion using analysis of the time evolution of myocardial video intensity following bolus injection of microbubble contrast agents. The Specific Aims of this project are to: 1) Develop a dedicated murine ultrasound transducer array / scanner pair capable of a spatial resolution of 200 microns laterally and 100 microns axially with a frame rate of 100+ frames per second. It is believed that this may be the first phased array transducer optimized specifically for mouse heart imaging. 2) Develop a volumetric (3D) ultrasound scanner, specially matched for murine heart imaging, based on the array in Aim 1. Using positional knowledge of the acquired 2D image frames, we will interpolate to form a 3D volumetric data set. 3) Expand the capability and utility of the murine heart scanner to include advanced image processing, novel approaches to automatic LV border detection and include quantitative analysis of contrast agent-based perfusion images. 4) Perform a validation study in vitro using an ultrasound phantom and in vivo in infarcted mouse hearts using Magnetic Resonance Imaging (MRI) as a standard.

描述（由申请人提供）：小鼠已成为心血管疾病遗传机制研究的首选物种。此外，小鼠越来越多地被用于研究对疾病和治疗的解剖和生理反应的演变。转基因和“基因敲除”小鼠的可用性，结合传统的药理学方法，使小鼠成为研究心血管疾病的独特的强大物种。一种用于非侵入性小鼠成像（MRI）的当前方法具有优异的图像质量，但其广泛应用的潜力受到其高成本、差的时间分辨率和低通量的限制。我们提出了一种超声方法，提供准确，低成本，快速和非侵入性的定量心脏左心室（LV）的体积和功能的小动物。此外，它易于使用，需要最少的鼠标准备和最少的扫描时间。空间分辨率足以计算重要的解剖和生理参数（腔室容积、射血分数、心输出量等）。此外，我们利用上级的时间分辨率，使评估小鼠左心室灌注使用的心肌视频强度的时间演变分析团注微泡造影剂。该项目的具体目标是： 1)开发一种专用的鼠超声换能器阵列/扫描仪对，其横向空间分辨率为200微米，轴向空间分辨率为100微米，帧速率为100+帧/秒。据信，这可能是第一个专门针对小鼠心脏成像优化的相控阵换能器。2)基于目标1中的阵列，开发一种体积（3D）超声扫描仪，专门用于小鼠心脏成像。使用所获取的2D图像帧的位置知识，我们将插值以形成3D体积数据集。 3)扩展鼠心脏扫描仪的功能和实用性，以包括先进的图像处理、自动LV边界检测的新方法，并包括基于造影剂的灌注图像的定量分析。 4)使用超声体模进行体外验证研究，并使用磁共振成像（MRI）作为标准在梗死小鼠心脏中进行体内验证研究。