1. Characterization and Water-Proton Longitudinal Relaxivities of Liposome-Type Radical Nanoparticles Prepared via a Supramolecular Approach
- Author
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Shiraishi, Ryoma, Matsumoto, Shota, Fuchi, Yasufumi, Naganuma, Tatsuya, Yoshihara, Daisuke, Usui, Kazuteru, Yamada, Ken-ichi, and Karasawa, Satoru
- Abstract
For the construction of metal-free magnetic resonance imaging (MRI) contrast agents, radical-based nanoparticles (RNPs) are promising materials because they allow the water-proton longitudinal relaxivity (r1) to be enhanced not only by paramagnetic resonance effects but also by prolonging the rotational correlation times (τR). However, the τReffect is limited because the radical units are often located within the central hydrophobic core of oil-in-water (o/w) emulsions, resulting in a lack of water molecules surrounding the radical units. In this study, to construct supramolecular RNPsthat have high r1values, we designed a liposome-type RNPin which the radical units are located at positions with sufficient surrounding water molecules. Using this strategy, PRO1with a PROXYL framework was prepared by introducing hydrophilic groups on both sides of the radical unit. The RNPcomposed of PRO1formed spherical nanoparticles approximately 100 nm in size and yielded a higher r1value (0.26 mM–1s–1) compared to those of small radical species and similar supramolecular o/w emulsion-type nanoparticles (0.17 mM–1s–1in PRO2).
- Published
- 2020
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