3.0特斯拉磁共振成像未检测到脑血管疾病早期微血管功能障碍:一项对自发性高血压卒中易发大鼠的纵向研究

Experimental & Translational Stroke Medicine Pub Date : 2013-06-25 eCollection Date: 2013-01-01 DOI:10.1186/2040-7378-5-8
Stine Mencl, Cornelia Garz, Solveig Niklass, Holger Braun, Eva Göb, György Homola, Hans-Jochen Heinze, Klaus G Reymann, Christoph Kleinschnitz, Stefanie Schreiber
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引用次数: 18

摘要

背景:人类脑血管病(CSVD)在其晚期具有独特的组织病理学和影像学表现。在一种成熟的CSVD动物模型——自发性高血压卒中易发大鼠(SHRSP)中,我们最近证明,早期微血管功能障碍导致血脑屏障破裂,激活的凝血状态导致毛细血管和小动脉红细胞积聚(阶段),从而引发脑微血管病变。在本研究中,我们研究了是否可以通过序列磁共振成像(MRI)检测到初始微血管功能障碍和病理性CSVD级联的其他阶段。结果:采用3.0 Tesla (3t) MRI对14只SHRSP大鼠和3只对照(Wistar)大鼠(26-44周龄)进行两周扫描。灌注后,对脑组织进行苏木精-伊红染色,并与MRI数据进行组织学对比。三个SHRSP发展为终末期CSVD,包括皮质、海马和纹状体梗死和大量出血,MRI可以一致检测到。相应的组织学显示小血管血栓形成和梗死区域小血管周围出血数量增加。然而,3t MRI无法显示血管内红细胞积聚,即使在那些受影响血管密度最高和受分期影响血管最大的脑区域,也无法检测到小的血管周围出血。结论:3t场强的连续MRI未能发现SHRSP患者初始微血管功能障碍和随后的小血管周围出血;只有终末期的脑微血管病可以可靠地检测到。在更高磁场强度(7t)下使用血液和血流敏感序列的进一步研究目前正在进行中。
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Early microvascular dysfunction in cerebral small vessel disease is not detectable on 3.0 Tesla magnetic resonance imaging: a longitudinal study in spontaneously hypertensive stroke-prone rats.

Background: Human cerebral small vessel disease (CSVD) has distinct histopathologic and imaging findings in its advanced stages. In spontaneously hypertensive stroke-prone rats (SHRSP), a well-established animal model of CSVD, we recently demonstrated that cerebral microangiopathy is initiated by early microvascular dysfunction leading to the breakdown of the blood-brain barrier and an activated coagulatory state resulting in capillary and arteriolar erythrocyte accumulations (stases). In the present study, we investigated whether initial microvascular dysfunction and other stages of the pathologic CSVD cascade can be detected by serial magnetic resonance imaging (MRI).

Findings: Fourteen SHRSP and three control (Wistar) rats (aged 26-44 weeks) were investigated biweekly by 3.0 Tesla (3 T) MRI. After perfusion, brains were stained with hematoxylin-eosin and histology was correlated with MRI data. Three SHRSP developed terminal CSVD stages including cortical, hippocampal, and striatal infarcts and macrohemorrhages, which could be detected consistently by MRI. Corresponding histology showed small vessel thromboses and increased numbers of small perivascular bleeds in the infarcted areas. However, 3 T MRI failed to visualize intravascular erythrocyte accumulations, even in those brain regions with the highest densities of affected vessels and the largest vessels affected by stases, as well as failing to detect small perivascular bleeds.

Conclusion: Serial MRI at a field strength of 3 T failed to detect the initial microvascular dysfunction and subsequent small perivascular bleeds in SHRSP; only terminal stages of cerebral microangiopathy were reliably detected. Further investigations at higher magnetic field strengths (7 T) using blood- and flow-sensitive sequences are currently underway.

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