Abstract
A preparation method for Gd-ethylenediaminetetraacetic acid disodium salt dihydrate (ETDA) complex-immobilized silica particles (Gd-EDTA/SiO2) is proposed. Preparation of spherical silica particles was performed by a sol-gel method at 35°C using 0.2 M tetraethylorthosilicate, 25 M H2O, and 0.01 M NaOH in ethanol, which produced silica particles with an average size of nm. Immobilization of Gd-EDTA on the silica particles was conducted at 35°C by introducing amino groups on the silica particles with (3-aminopropyl)trimethoxysilane at pH 3 (NH2/SiO2) and then making Gd-EDTA act on the NH2/SiO2 particles at pH 5. The as-prepared Gd-EDTA/SiO2 particle colloid solution was concentrated up to a Gd concentration of 0.347 mM by centrifugation. The sphere structure of Gd-EDTA/SiO2 particles was undamaged, and the colloid solution was still colloidally stable, even after the concentrating process. The concentrated Gd-EDTA/SiO2 colloid solution revealed good MRI properties. A relaxivity value for T1-weighted imaging was as high as 5.15 mM−1 s−1, that was comparable to that for a commercial Gd complex contrast agent.
Highlights
Gadolinium complexes (GdC) function as contrast agents for magnetic resonance imaging (MRI) [1,2,3,4,5,6,7,8], and solutions dissolving the GdC homogeneously at molecular level are available commercially
Since silica particles prepared by a sol-gel method are colloidally stable [9,10,11], GdC-immobilized silica particles may function as the MRI contrast agent that shows long residence time and nonaggregation in living bodies
Though the solutions were opaque, neither precipitation nor flocculation was observed in the solutions to the silica particle colloid solution, which indicated that the procedure of surface modification with amino groups did not affect colloidal stability of the particle colloid solutions
Summary
Gadolinium complexes (GdC) function as contrast agents for magnetic resonance imaging (MRI) [1,2,3,4,5,6,7,8], and solutions dissolving the GdC homogeneously at molecular level are available commercially. Since silica particles prepared by a sol-gel method are colloidally stable [9,10,11], GdC-immobilized silica particles may function as the MRI contrast agent that shows long residence time and nonaggregation in living bodies. Our group proposed a method for fabricating silica-coated Gd compound nanoparticles, which was a combination process of a homogeneous precipitation method and a solgel method [13]. Their particles contain the Gd compound particles as core. The present work studied on MRI properties of the colloid solution of Gd-EDTA/SiO2 particles
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