AI Article Synopsis
- - Recent research has focused on developing platinum (Pt) prodrugs that become active only when reduced within tumor environments, aiming for targeted cancer treatment.
- - There's a growing need for compounds that activate selectively when exposed to irradiation, but most current Pt complexes only respond to ultraviolet or blue light, which limits their effectiveness to surface tumors.
- - This study introduces the first Pt prodrug nanoparticles that can be activated using penetrating ultrasound radiation, demonstrating the ability to selectively target and successfully eradicate deep-seated tumors in mice.
Article Abstract
The development of Pt prodrugs that are reduced into the therapeutically active Pt species within the tumor microenvironment has received much research interest. In order to provide spatial and temporal control over the treatment, there is a high demand for the development of compounds that could be selectively activated upon irradiation. Despite recent progress, the majority of Pt complexes are excited with ultraviolet or blue light, limiting the use of such compounds to superficial application. To overcome this limitation, herein, the first example of Pt prodrug nanoparticles that could be reduced with deeply penetrating ultrasound radiation is reported, enabling the treatment of deep-seated or large tumors. The nanoparticles were found to selectively accumulate inside a mouse colon carcinoma tumor upon intravenous injection and were able to eradicate the tumor upon exposure to ultrasound radiation.
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| http://dx.doi.org/10.1002/anie.202301074 | DOI Listing |
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