Sosnovik David E, Garanger Elisabeth, Aikawa Elena, Nahrendorf Matthias, Figuiredo Jose-Luiz, Dai Guangping, Reynolds Fred, Rosenzweig Anthony, Weissleder Ralph, Josephson Lee
Center for Molecular Imaging Research, the Cardiology Division, Martinos Center for Biomedical Imaging, and the Center for Systems Biology, Massachusetts General Hospital, Harvard Medical School, Boston. Mass, USA.
Circ Cardiovasc Imaging. 2009 Nov;2(6):460-7. doi: 10.1161/CIRCIMAGING.109.859678. Epub 2009 Sep 29.
A novel dual-contrast molecular MRI technique to image both cardiomyocyte apoptosis and necrosis in vivo within 4 to 6 hours of ischemia is presented. The technique uses the annexin-based nanoparticle AnxCLIO-Cy5.5 (apoptosis) and simultaneous delayed-enhancement imaging with a novel gadolinium chelate, Gd-DTPA-NBD (necrosis).
Mice with transient coronary ligation were injected intravenously at the onset of reperfusion with AnxCLIO-Cy5.5 (n=7) or the control probe Inact_CLIO-Cy5.5 (n=6). T2*-weighted MR images (9.4 T) were acquired within 4 to 6 hours of reperfusion. The contrast-to-noise ratio between injured and uninjured myocardium was measured. The mice were then injected with Gd-DTPA-NBD, and delayed-enhancement imaging was performed within 10 to 30 minutes. Uptake of AnxCLIO-Cy5.5 was most prominent in the midmyocardium and was significantly greater than that of Inact_CLIO-Cy5.5 (contrast-to-noise ratio, 8.82+/-1.5 versus 3.78+/-1.1; P<0.05). Only 21+/-3% of the myocardium with accumulation of AnxCLIO-Cy5.5 showed delayed-enhancement of Gd-DTPA-NBD. Wall thickening was significantly reduced in segments with delayed enhancement and/or transmural accumulation of AnxCLIO-Cy5.5 (P<0.001). Fluorescence microscopy of AnxCLIO-Cy5.5 and immunohistochemistry of Gd-DTPA-NBD confirmed the presence of large numbers of apoptotic but potentially viable cardiomyocytes (AnxCLIO-Cy5.5 positive, Gd-DTPA-NBD negative) in the midmyocardium.
A novel technique to image cardiomyocyte apoptosis and necrosis in vivo within 4 to 6 hours of injury is presented and reveals large areas of apoptotic but viable myocardium in the midmyocardium. Strategies to salvage the numerous apoptotic but potentially viable cardiomyocytes in the midmyocardium in acute ischemia should be investigated.
本文介绍了一种新型双对比分子磁共振成像(MRI)技术,可在缺血4至6小时内对体内心肌细胞凋亡和坏死进行成像。该技术使用基于膜联蛋白的纳米颗粒AnxCLIO-Cy5.5(用于凋亡成像),并同时使用新型钆螯合物Gd-DTPA-NBD进行延迟增强成像(用于坏死成像)。
对短暂冠状动脉结扎的小鼠在再灌注开始时静脉注射AnxCLIO-Cy5.5(n = 7)或对照探针Inact_CLIO-Cy5.5(n = 6)。在再灌注4至6小时内采集T2 *加权磁共振图像(9.4 T)。测量损伤心肌与未损伤心肌之间的对比噪声比。然后给小鼠注射Gd-DTPA-NBD,并在10至30分钟内进行延迟增强成像。AnxCLIO-Cy5.5在心肌中层的摄取最为显著,且明显高于Inact_CLIO-Cy5.5(对比噪声比分别为8.82±1.5和3.78±1.1;P<0.05)。仅有21±3%积聚AnxCLIO-Cy5.5的心肌显示出Gd-DTPA-NBD的延迟增强。在出现延迟增强和/或AnxCLIO-Cy5.5透壁积聚的节段中,室壁增厚显著降低(P<0.001)。AnxCLIO-Cy5.5的荧光显微镜检查和Gd-DTPA-NBD的免疫组织化学检查证实,心肌中层存在大量凋亡但可能存活的心肌细胞(AnxCLIO-Cy5.5阳性,Gd-DTPA-NBD阴性)。
本文介绍了一种在损伤后4至6小时内对体内心肌细胞凋亡和坏死进行成像的新技术,该技术揭示了心肌中层存在大面积凋亡但仍存活的心肌。应研究在急性缺血时挽救心肌中层众多凋亡但可能存活的心肌细胞的策略。
