Nanoprobes based on quantum dots and Gd(III) complexes for dual optical and magnetic resonance imaging

[Display omitted] •CdTe-GdDOTA bimodal nanoprobes were prepared in water for optical imaging and MRI.•CdTe-GdDOTA bimodal nanoprobes presented higher fluorescence than bare QDs.•CdTe-GdDOTA bimodal nanoprobes showed higher relaxivity than GdDOTA chelates.•CdTe-GdDOTA bimodal systems are promissing n...

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Bibliographic Details
Published in:Materials letters 2024-09, Vol.371, p.136921, Article 136921
Main Authors: Albuquerque, Gabriela M., Melo, Rebeca M., Coiado, Samantha D., Pereira, Giovannia A.L., Pereira, Goreti
Format: Article
Language:English
Subjects:
Bimodal system
Fluorescence
Paramagnetic complexes
Semiconductors
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Summary:[Display omitted] •CdTe-GdDOTA bimodal nanoprobes were prepared in water for optical imaging and MRI.•CdTe-GdDOTA bimodal nanoprobes presented higher fluorescence than bare QDs.•CdTe-GdDOTA bimodal nanoprobes showed higher relaxivity than GdDOTA chelates.•CdTe-GdDOTA bimodal systems are promissing nanoprobes for medical diagnosis. The combination of more than one clinical technique has been increasingly explored to improve imaging diagnosis, suppressing the limitations of individual procedures. Quantum dots (QDs) have been associated with paramagnetic complexes (GdDOTA) to develop optical-magnetic nanoprobes for imaging techniques. Herein, we report the preparation of bimodal nanoprobes by conjugating fluorescent QDs with GdDOTA complexes through dative bonds. These nanoprobes showed an enhancement in their emission intensity compared to bare QDs. Moreover, the nanosystems exhibited r1 values up to 69% higher than the clinical GdDOTA. Therefore, the bimodal systems demonstrated promising performance for both optical and magnetic resonance imaging, exhibiting potential as bimodal contrast agents.
ISSN:0167-577X
1873-4979
DOI:10.1016/j.matlet.2024.136921