ZHAO Rui, YAO Yu-yu, DENG Gang, JU Sheng-hong, WANG Zhong-juan, WEN Song, CHEN Jun, JIN Hui
Department of Radiology, Zhongda Hospital, Southeast University, Nanjing 210009, China.
Zhonghua Xin Xue Guan Bing Za Zhi. 2010 Sep;38(9):823-8.
to explore the value of in vivo dynamic monitoring of abdominal aortic atherosclerosis (AS) by high field magnetic resonance (MR) imaging (MRI) in apoE-/- mice fed a high fat diet or infused with angiotensin.
high fat diet or angiotensin II infusion was applied to apoE-/- mice for establishment of abdominal aortic atherosclerosis model. Abdominal aorta MRI was performed at 3 time points (baseline, 3 and 6 months) in 13 high fat diet fed apoE-/- mice aged 10-12 months and 3 wild-type control mice; 10 apoE-/- mice aged 6 months were infused with angiotensin II (1000 or 500 ng × kg(-1)× min(-1), n = 5 each) or saline for 14 d through Osmotic minipump. The abdominal aortic artery MRI was performed at baseline and 14 d after infusion. Black blood sequences of FLASH T1 weighted images and Proton density weighted-T2 weighted dual echo images were obtained. At each observation time post MRI, mice (n = 3, 5 and 5 for high fat diet group and n = 5 and 5 for angiotensin II infusion group) were sacrificed for pathological examination of the abdominal artery.
(1) the abdominal aorta atherosclerosis was identified in both high fat diet and angiotensin II treated apoE-/- mice but in WT controls. Lesion progression was documented in high fat diet fed apoE-/- mice characterized by significantly increased vessel wall (a marker of atherosclerotic burden, F = 29.94, P < 0.05) and gradually increased plaque signal in PDW and T2W images. Results derived from MRI corresponded histopathology findings in high fat diet fed apoE-/- mice (correlative coefficient = 0.84, 0.95, 0.90, P < 0.05, respectively). Both MRI and histology showed increased lipid composition and decreased fibrotic composition in these mice. (2) The vessel wall area increased significantly [(1.21 ± 0.21) mm(2) vs. (2.65 ± 0.48) mm(2), P < 0.05] and the abdominal aortic dissection aneurysms was identified in apoE-/- mice infused with high angiotensin II. The vessel wall area also increased [(0.85 ± 0.11) mm(2) vs. (1.01 ± 0.17) mm(2), P < 0.05] in low angiotensin II infused apoE-/- mice and the coefficient between MR and histopathology is 0.934.
abdominal aortic unstable plaque model could be established by both high fat diet and angiotensin II infusion in apoE mice, angiotensin II infusion can transiently accelerate the progression of AS and can induce abdominal aortic dissection. Serial MR black blood sequences could demonstrate the development and progression of atherosclerosis in mouse abdominal aorta with excellent agreement to histopathology finding in terms of atherosclerotic burden and plaque composition. Thus, MRI appears to be a useful tool for in vivo AS plaque dynamic monitoring in mice.
探讨高场磁共振成像(MRI)对高脂饮食喂养或输注血管紧张素的载脂蛋白E基因敲除(apoE-/-)小鼠腹主动脉粥样硬化(AS)进行体内动态监测的价值。
对apoE-/-小鼠采用高脂饮食或输注血管紧张素II建立腹主动脉粥样硬化模型。对13只10-12月龄高脂饮食喂养的apoE-/-小鼠和3只野生型对照小鼠在3个时间点(基线、3个月和6个月)进行腹主动脉MRI检查;对10只6月龄的apoE-/-小鼠通过渗透微型泵输注血管紧张素II(1000或500 ng×kg-1×min-1,每组n = 5)或生理盐水14天。在输注前基线及输注后14天进行腹主动脉MRI检查。获取快速小角度激发(FLASH)T1加权像的黑血序列和质子密度加权- T2加权双回波图像。在每次MRI检查后的观察时间点,处死小鼠(高脂饮食组n = 3、5和5,血管紧张素II输注组n = 5和5)进行腹主动脉病理检查。
(1)高脂饮食组和血管紧张素II处理组的apoE-/-小鼠均出现腹主动脉粥样硬化,而野生型对照小鼠未出现。高脂饮食喂养的apoE-/-小鼠病变进展表现为血管壁显著增厚(动脉粥样硬化负荷的标志物,F = 29.94,P < 0.05),且质子密度加权(PDW)和T2加权图像中斑块信号逐渐增加。高脂饮食喂养的apoE-/-小鼠MRI结果与组织病理学结果相符(相关系数分别为0.84、0.95、0.90,P < 0.05)。MRI和组织学均显示这些小鼠脂质成分增加,纤维化成分减少。(2)高剂量血管紧张素II输注的apoE-/-小鼠血管壁面积显著增加[(1.21±0.21)mm2 vs.(2.65±0.48)mm2,P < 0.05],并发现腹主动脉夹层动脉瘤。低剂量血管紧张素II输注的apoE-/-小鼠血管壁面积也增加[(0.85±0.11)mm2 vs.(1.01±0.17)mm2,P < 0.05],MR与组织病理学的相关系数为0.934。
高脂饮食和血管紧张素II输注均可在apoE小鼠中建立腹主动脉不稳定斑块模型,血管紧张素II输注可短暂加速AS进展并可诱发腹主动脉夹层。系列MR黑血序列可显示小鼠腹主动脉粥样硬化的发生和发展,在动脉粥样硬化负荷和斑块成分方面与组织病理学结果高度一致。因此,MRI似乎是小鼠体内AS斑块动态监测的有用工具。
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