纳米探针
钆
持续发光
材料科学
磁共振成像
纳米载体
体内
纳米技术
临床前影像学
纳米颗粒
生物医学工程
发光
医学
光电子学
放射科
生物技术
热释光
生物
冶金
作者
Thomas Maldiney,Bich‐Thuy Doan,Damien Alloyeau,Michel Bessodes,Daniel Scherman,Cyrille Richard
标识
DOI:10.1002/adfm.201401612
摘要
Recent breakthroughs in the rational development of multifunctional nanocarriers have highlightened the advantage of combining the complementary forces of several imaging modalities into one single nanotool fully dedicated to the biomedical field and diagnosis applications. A novel multimodal optical‐magnetic resonance imaging nanoprobe is introduced. Designed on the basis of a spinel zinc gallate structure doped with trivalent chromium and gadolinium, this nanocrystal bears the ability to serve as both a highly sensitive persistent luminescence nanoprobe for optical imaging, and a negative contrast agent for highly resolved magnetic resonance imaging (MRI). Additional proof is given that surface coverage can be modified in order to obtain stealth nanoparticles highly suitable for real‐time in vivo application in mice, showing delayed reticulo‐endothelial uptake and longer circulation time after systemic injection.
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