A gadolinium-based contrast agent (GBCA) disulfide homodimer (Gd3+SS) has been incorporated into a lipoic acid (LA)-based hydrogel (Gd3+Gel) for enhanced magnetic resonance imaging (MRI). This study evaluates the magnetic properties and in vitro behavior of Gd3+Gel for potential applications in tracking internal injuries. Results indicate a direct shortening in the relaxation rate with greater magnitude of LA polymerization and a 2.8-fold enhancement in relaxivity (r1) at 1.4 T when Gd3+SS was conjugated into the hydrogel. This effect is attributed to a significant increase in the rotational correlation time (τr) from 0.22 ± 0.05 ns (Gd3+SS) to 6 ± 1 ns (Gd3+Gel). Retention studies confirm that Gd3+SS remains covalently within the hydrogel, with retention of 64.7 ± 1.9% for Gd3+SS and 14.0 ± 1.4% for noncovalent binding gadoterate. The hydrogel relaxation rate (1/T1) increases from 1.1 to 3.5 s–1at 7 T from blank gel to Gd3+Gel (0.24 mM Gd3+). Cell studies show that PC3-PIP and RAW 264.7 cells maintain high viability with Gd3+SS but exhibit reduced viability with Gd3+Gel, consistent with known lipoic acid effects on immortalized cell lines. Cellular uptake studies using ICP-MS and confocal fluorescence microscopy confirm that monomeric Gd3+SS is readily internalized, whereas Gd3+Gel significantly limits diffusion and uptake. Rheology was conducted to determine the zero-shear viscosity of the LA hydrogel at various concentrations of LA. These findings suggest that the LA hydrogel scaffold enhances MRI contrast, minimizes leaching, and is easily injectable. Gd3+Gel is a promising tool for potential targeted imaging and controlled uptake during healing processes.
Gadolinium-Conjugated Lipoic Acid Hydrogels for Magnetic Resonance Imaging / Brotherton, Andrew R.; Phillips-Sorich, Bennett; DomNwachukwu, Naedum; Bailey, Matthew D.; Patel, Aarnav S.; Luchinat, Claudio; Parigi, Giacomo; Meade, Thomas J.. - In: ACS APPLIED BIO MATERIALS. - ISSN 2576-6422. - STAMPA. - 8:(2025), pp. 5903-5911. [10.1021/acsabm.5c00584]
Gadolinium-Conjugated Lipoic Acid Hydrogels for Magnetic Resonance Imaging
Luchinat, Claudio;Parigi, Giacomo;
2025
Abstract
A gadolinium-based contrast agent (GBCA) disulfide homodimer (Gd3+SS) has been incorporated into a lipoic acid (LA)-based hydrogel (Gd3+Gel) for enhanced magnetic resonance imaging (MRI). This study evaluates the magnetic properties and in vitro behavior of Gd3+Gel for potential applications in tracking internal injuries. Results indicate a direct shortening in the relaxation rate with greater magnitude of LA polymerization and a 2.8-fold enhancement in relaxivity (r1) at 1.4 T when Gd3+SS was conjugated into the hydrogel. This effect is attributed to a significant increase in the rotational correlation time (τr) from 0.22 ± 0.05 ns (Gd3+SS) to 6 ± 1 ns (Gd3+Gel). Retention studies confirm that Gd3+SS remains covalently within the hydrogel, with retention of 64.7 ± 1.9% for Gd3+SS and 14.0 ± 1.4% for noncovalent binding gadoterate. The hydrogel relaxation rate (1/T1) increases from 1.1 to 3.5 s–1at 7 T from blank gel to Gd3+Gel (0.24 mM Gd3+). Cell studies show that PC3-PIP and RAW 264.7 cells maintain high viability with Gd3+SS but exhibit reduced viability with Gd3+Gel, consistent with known lipoic acid effects on immortalized cell lines. Cellular uptake studies using ICP-MS and confocal fluorescence microscopy confirm that monomeric Gd3+SS is readily internalized, whereas Gd3+Gel significantly limits diffusion and uptake. Rheology was conducted to determine the zero-shear viscosity of the LA hydrogel at various concentrations of LA. These findings suggest that the LA hydrogel scaffold enhances MRI contrast, minimizes leaching, and is easily injectable. Gd3+Gel is a promising tool for potential targeted imaging and controlled uptake during healing processes.
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