新型 FeCo/GC 磁性纳米晶体实现活体高对比度微血管可视化。
High-contrast in vivo visualization of microvessels using novel FeCo/GC magnetic nanocrystals.
机构信息
Department of Electrical Engineering, Stanford University, Stanford, California 94305-5080, USA.
出版信息
Magn Reson Med. 2009 Dec;62(6):1497-509. doi: 10.1002/mrm.22132.
Abstract
FeCo-graphitic carbon shell nanocrystals are a novel MRI contrast agent with unprecedented high per-metal-atom-basis relaxivity (r(1) = 97 mM(-1) sec(-1), r(2) = 400 mM(-1) sec(-1)) and multifunctional capabilities. While the conventional gadolinium-based contrast-enhanced angiographic magnetic MRI has proven useful for diagnosis of vascular diseases, its short circulation time and relatively low sensitivity render high-resolution MRI of morphologically small vascular structures such as those involved in collateral, arteriogenic, and angiogenic vessel formation challenging. Here, by combining FeCo-graphitic carbon shell nanocrystals with high-resolution MRI technique, we demonstrate that such microvessels down to approximately 100 mum can be monitored in high contrast and noninvasively using a conventional 1.5-T clinical MRI system, achieving a diagnostic imaging standard approximating that of the more invasive X-ray angiography. Preliminary in vitro and in vivo toxicity study results also show no sign of toxicity.
摘要
FeCo-石墨碳壳纳米晶体是一种新型的 MRI 造影剂,具有前所未有的高单原子基础弛豫率(r1=97 mM-1sec-1,r2=400 mM-1sec-1)和多功能特性。虽然传统的基于钆的造影增强血管磁共振成像已被证明对血管疾病的诊断有用,但由于其循环时间短,相对灵敏度低,使得对形态较小的血管结构(如侧支、动脉生成和血管生成血管形成中涉及的血管)进行高分辨率 MRI 成像具有挑战性。在这里,我们通过将 FeCo-石墨碳壳纳米晶体与高分辨率 MRI 技术相结合,证明了使用常规的 1.5-T 临床 MRI 系统可以以高对比度非侵入性地监测低至约 100 μm 的微血管,达到了与更具侵入性的 X 射线血管造影术相当的诊断成像标准。初步的体外和体内毒性研究结果也表明没有毒性迹象。
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