使用9.4特斯拉磁共振成像对离体小鼠全肾进行快速肾小球定量分析。

Fast glomerular quantification of whole ex vivo mouse kidneys using Magnetic Resonance Imaging at 9.4 Tesla.

作者信息

Chacon-Caldera Jorge, Geraci Stefania, Krämer Philipp, Cullen-McEwen Luise, Bertram John F, Gretz Norbert, Schad Lothar R

机构信息

Computer Assisted Clinical Medicine, Medical Faculty Mannheim, Heidelberg University, Mannheim, Germany.

Medical Research Centre, Medical Faculty Mannheim, Heidelberg University, Mannheim, Germany.

出版信息

Z Med Phys. 2016 Mar;26(1):54-62. doi: 10.1016/j.zemedi.2015.12.008. Epub 2016 Jan 7.

DOI:10.1016/j.zemedi.2015.12.008

PMID:26777317

Abstract

A method to measure total glomerular number (Nglom) in whole mouse kidneys using MRI is presented. The method relies on efficient acquisition times. A 9.4 T preclinical MRI system with a surface cryogenic coil and a 3D gradient echo sequence were used to image nine whole ex vivo BALB/c mouse kidneys labelled with cationized-ferritin (CF). A novel method to segment the glomeruli was developed. The quantification of glomeruli was achieved by identifying and fitting the probability distribution of glomeruli thus reducing variations due to noise. For validation, Nglom of the same kidneys were also obtained using the gold standard: design-based stereology. Excellent agreement was found between the MRI and stereological measurements of Nglom, with values differing by less than 4%: (mean ± SD) MRI = 15 606±1 178; stereology = 16 273±1 523. Using a robust segmentation method and a reliable quantification method, it was possible to acquire Nglom with a scanning time of 33minutes and 20seconds. This was more than 8 times faster than previously presented MRI-based methods. Thus, an efficient approach to measure Nglom ex vivo in health and disease is provided.

摘要

本文介绍了一种使用磁共振成像（MRI）测量完整小鼠肾脏中肾小球总数（Nglom）的方法。该方法依赖于高效的采集时间。使用配备表面低温线圈的9.4T临床前MRI系统和三维梯度回波序列对9个用阳离子铁蛋白（CF）标记的完整离体BALB/c小鼠肾脏进行成像。开发了一种新的肾小球分割方法。通过识别和拟合肾小球的概率分布实现肾小球的量化，从而减少噪声引起的变化。为了进行验证，还使用金标准：基于设计的体视学方法获得了相同肾脏的Nglom。在MRI测量和体视学测量的Nglom之间发现了极好的一致性，两者的值相差不到4%：（平均值±标准差）MRI = 15606±1178；体视学 = 16273±1523。使用稳健的分割方法和可靠的量化方法，可以在33分20秒的扫描时间内获得Nglom。这比之前提出的基于MRI的方法快8倍多。因此，提供了一种在健康和疾病状态下离体测量Nglom的有效方法。

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使用9.4特斯拉磁共振成像对离体小鼠全肾进行快速肾小球定量分析。

Fast glomerular quantification of whole ex vivo mouse kidneys using Magnetic Resonance Imaging at 9.4 Tesla.

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