posted on 2023-10-19, 10:58authored byWeiyuan Xu, Xinjian Ye, Min Wu, Xin Jiang, Lik Hang Hugo TSE, Yanjuan Gu, Kun Shu, Liuhui Xu, Yong Jian, Gengshen Mo, Jiao Xu, Yinghui Ding, Ruonan Gao, Jianliang Shen, Fangfu Ye, Zhihan Yan, Lixiong Dai
The leakage of gadolinium ions (Gd3+) from
commercial
Gd3+-based contrast agents (GBCAs) in patients is currently
the major safety concern in clinical magnetic resonance imaging (MRI)
scans, and the lack of task-specific GBCAs limits its usage in the
early detection of disease and imaging of specific biological regions.
Herein, ultrastable GBCAs were constructed via decorating chiral Gd-DOTA
with a phenylic analogue to one of the pendent arms, and the stability
constant was determined as high as 27.08, accompanied by negligible
decomplexation in 1 M of HCl over 2 years. A hepatic-specific chiral
Gd-DOTA was screened out as a potential alternative to commercial
Gd-EOB-DTPA, while combination with functional molecules favored chiral
Gd-DOTA as tumor targeting probes. Therefore, the novel chiral Gd-DOTA
is believed to be an ideal platform for designing the next generation
of GBCAs for various clinical purposes due to its outstanding inert
nature.