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猫视网膜组织和血管层的磁共振成像

Magnetic resonance imaging of tissue and vascular layers in the cat retina.

作者信息

Shen Qiang, Cheng Haiying, Pardue Machelle T, Chang Thomas F, Nair Govind, Vo Van Toi, Shonat Ross D, Duong Timothy Q

机构信息

Yerkes Imaging Center, Division of Neuroscience, Department of Neurology, Emory University, Atlanta, Georgia 30329, USA.

出版信息

J Magn Reson Imaging. 2006 Apr;23(4):465-72. doi: 10.1002/jmri.20549.

DOI:10.1002/jmri.20549
PMID:16523482
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2949960/
Abstract

PURPOSE

To report the visual resolution of multiple cell and vascular "layers" in the cat retina using MRI.

MATERIALS AND METHODS

T2- and diffusion-weighted MRI at 4.7 Tesla was performed. Layer-specific thickness, T2, spin density, apparent diffusion coefficient perpendicular (ADC(perpendicular)) and parallel (ADC(parallel)) to the retinal surface were tabulated. T1-weighted MRI was acquired before and after intravenous administration of Gd-DTPA and subtraction images were obtained. Histology was performed for validation.

RESULTS

Three distinct "layers" were observed. The inner strip nearest to the vitreous (exhibiting large T2, ADC, spin density with Gd-DTPA enhancement) overlapped the ganglion cell layer, bipolar cell layer, and the embedded retinal vascular layer. The middle strip (exhibiting small T2, ADC, spin density without Gd-DTPA enhancement) overlapped the photoreceptor cell layer and the inner and outer segments. The outer strip (exhibiting large T2, ADC, spin density with Gd-DTPA enhancement) overlapped the tapetum and choroidal vascular layer. T2, spin density, ADC(perpendicular) and ADC(parallel) of different "layers" were tabulated. The inner strip was slightly thicker than the other two strips. The total thickness, including neural and nonneural retina, was 358 +/- 13 microm (N = 6) by MRI and 319 +/- 77 microm (N = 5) by histology.

CONCLUSION

MRI provides a noninvasive tool to study the retina with laminar specificity without depth limitation.

摘要

目的

报告使用MRI对猫视网膜中多个细胞层和血管“层”的视觉分辨率。

材料与方法

采用4.7特斯拉的T2加权和扩散加权MRI。记录各层特定的厚度、T2、自旋密度、垂直(ADC(垂直))和平行(ADC(平行))于视网膜表面的表观扩散系数。在静脉注射钆喷酸葡胺前后进行T1加权MRI检查,并获取减影图像。进行组织学检查以作验证。

结果

观察到三个不同的“层”。最靠近玻璃体的内带(T2、ADC、自旋密度大,钆喷酸葡胺增强)与神经节细胞层、双极细胞层和视网膜血管嵌入层重叠。中间带(T2、ADC、自旋密度小,无钆喷酸葡胺增强)与光感受器细胞层以及内、外节重叠。外带(T2、ADC、自旋密度大,钆喷酸葡胺增强)与脉络膜毯和脉络膜血管层重叠。列出了不同“层”的T2、自旋密度、ADC(垂直)和ADC(平行)。内带比其他两条带略厚。通过MRI测量,包括神经视网膜和非神经视网膜在内的总厚度为358±13微米(N = 6),通过组织学测量为319±77微米(N = 5)。

结论

MRI提供了一种无创工具,可用于研究具有层特异性且无深度限制的视网膜。

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