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AD 转基因鼠脑内 MRI 检测淀粉样斑块的区域性差异。

Regional differences in MRI detection of amyloid plaques in AD transgenic mouse brain.

机构信息

Department of Neurology, Mayo Clinic College of Medicine, Rochester, MN 55905, USA.

出版信息

Neuroimage. 2011 Jan 1;54(1):113-22. doi: 10.1016/j.neuroimage.2010.08.033. Epub 2010 Aug 20.

DOI:10.1016/j.neuroimage.2010.08.033
PMID:20728546
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2962679/
Abstract

Our laboratory and others have reported the ability to detect individual Alzheimer's disease (AD) amyloid plaques in transgenic mouse brain in vivo by magnetic resonance imaging (MRI). Since amyloid plaques contain iron, most MRI studies attempting to detect plaques in AD transgenic mouse brain have employed techniques that exploit the paramagnetic effect of iron and have had mixed results. In the present study, using five-way anatomic spatial coregistration of MR images with three different histological techniques, properties of amyloid plaques in AD transgenic mouse brain were revealed that may explain their variable visibility in gradient- and spin-echo MR images. The results demonstrate differences in the visibility of plaques in the cortex and hippocampus, compared to plaques in the thalamus, by the different MRI sequences. All plaques were equally detectable by T(2)SE, while only thalamic plaques were reliably detectable by T(2)*GE pulse sequences. Histology revealed that cortical/hippocampal plaques have low levels of iron while thalamic plaques have very high levels. However, the paramagnetic effect of iron does not appear to be the sole factor leading to the rapid decay of transverse magnetization (short T(2)) in cortical/hippocampal plaques. Accordingly, MRI methods that rely less on iron magnetic susceptibility effect may be more successful for eventual human AD plaque MR imaging, particularly since human AD plaques more closely resemble the cortical and hippocampal plaques of AD transgenic mice than thalamic plaques.

摘要

我们的实验室和其他实验室已经报道了通过磁共振成像(MRI)在转基因小鼠脑内检测单个阿尔茨海默病(AD)淀粉样斑块的能力。由于淀粉样斑块含有铁,因此大多数试图在 AD 转基因小鼠脑内检测斑块的 MRI 研究都采用了利用铁顺磁性效应的技术,但结果喜忧参半。在本研究中,使用五种解剖空间的 MR 图像与三种不同的组织学技术的配准,揭示了 AD 转基因小鼠脑内淀粉样斑块的特性,这些特性可能解释了它们在梯度回波和自旋回波 MR 图像中的不同可见性。结果表明,不同的 MRI 序列对皮层和海马区斑块的可见度与丘脑斑块的可见度存在差异。所有斑块在 T2SE 上均能同等检测到,而只有丘脑斑块在 T2*GE 脉冲序列上能可靠检测到。组织学显示皮层/海马区斑块的铁含量较低,而丘脑斑块的铁含量非常高。然而,铁的顺磁性效应对导致皮层/海马区斑块横向磁化(短 T2)迅速衰减的影响似乎并非唯一因素。因此,依赖于铁磁敏感性效应的 MRI 方法可能更适合最终的 AD 斑块 MRI 成像,特别是因为人类 AD 斑块更类似于 AD 转基因小鼠的皮层和海马区斑块,而不是丘脑斑块。

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