TY - JOUR
T1 - Relaxometric property of organosilica nanoparticles internally functionalized with iron oxide and fluorescent dye for multimodal imaging
AU - Nakamura, Michihiro
AU - Hayashi, Koichiro
AU - Kubo, Hitoshi
AU - Kanadani, Takafumi
AU - Harada, Masafumi
AU - Yogo, Toshinobu
N1 - Funding Information:
This work was supported in part by Grants-in-Aid for Scientific Research (C) (Nos. 21500409, 25350530, and 16K01358) (to M.N.) from the Ministry of Education, Science, Sports, and Culture of Japan; a grant from Research for Promoting Technological Seeds from the Japan Science and Technology Agency (JST) (to M.N.); and a grant for Practical Application of University R&D Results under the Matching Fund Method (to M.N.) from the New Energy and Industrial Technology Development Organization (NEDO) of Japan.
Publisher Copyright:
© 2017 Elsevier Inc.
PY - 2017/4/15
Y1 - 2017/4/15
N2 - Multimodal imaging using novel multifunctional nanoparticles provides a new approach for the biomedical field. Thiol-organosilica nanoparticles containing iron oxide magnetic nanoparticles (MNPs) as the core and rhodamine B in the thiol-organosilica layer (thiol OS-MNP/Rho) were synthesized in a one-pot process. The thiol OS-MNP/Rho showed enhanced magnetic resonance imaging (MRI) contrast and high fluorescence intensity. The relaxometry of thiol OS-MNP/Rho revealed a novel coating effect of the organosilica layer to the MNPs. The organosilica layer shortened the T2 relaxation time but not the T1 relaxation time of the MNPs. We injected thiol-OS-MNP/Rho into normal mice intravenously. Injected mice revealed an alteration of the liver contrast in the MRI and a fluorescent pattern based on the liver histological structure at the level between macroscopic and microscopic fluorescent imaging (mesoscopic FI). In addition, the labeled macrophages were observed at the single cell level histologically. We demonstrated a new approach to evaluate the liver at the macroscopic, microscopic level as well as the mesoscopic level using multimodal imaging.
AB - Multimodal imaging using novel multifunctional nanoparticles provides a new approach for the biomedical field. Thiol-organosilica nanoparticles containing iron oxide magnetic nanoparticles (MNPs) as the core and rhodamine B in the thiol-organosilica layer (thiol OS-MNP/Rho) were synthesized in a one-pot process. The thiol OS-MNP/Rho showed enhanced magnetic resonance imaging (MRI) contrast and high fluorescence intensity. The relaxometry of thiol OS-MNP/Rho revealed a novel coating effect of the organosilica layer to the MNPs. The organosilica layer shortened the T2 relaxation time but not the T1 relaxation time of the MNPs. We injected thiol-OS-MNP/Rho into normal mice intravenously. Injected mice revealed an alteration of the liver contrast in the MRI and a fluorescent pattern based on the liver histological structure at the level between macroscopic and microscopic fluorescent imaging (mesoscopic FI). In addition, the labeled macrophages were observed at the single cell level histologically. We demonstrated a new approach to evaluate the liver at the macroscopic, microscopic level as well as the mesoscopic level using multimodal imaging.
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U2 - 10.1016/j.jcis.2017.01.004
DO - 10.1016/j.jcis.2017.01.004
M3 - Article
C2 - 28086116
AN - SCOPUS:85008869265
SN - 0021-9797
VL - 492
SP - 127
EP - 135
JO - Journal of Colloid And Interface Science
JF - Journal of Colloid And Interface Science
ER -