Doxorubicin-Fe(III)-Gossypol Infinite Coordination Polymer@PDA:CuO 2 Composite Nanoparticles for Cost-Effective Programmed Photothermal-Chemodynamic-Coordinated Dual Drug Chemotherapy Trimodal Synergistic Tumor Therapy.
Hongrui ZhuChenqi HuangJingran DiZepu ChangKe LiShuo ZhangXueping LiDaocheng WuPublished in: ACS nano (2023)
To achieve the maximum therapeutic effects and minimize adverse effects of trimodal synergistic tumor therapies, a cost-effective programmed photothermal (PTT)-chemodynamic (CDT)-coordinated dual drug chemotherapy (CT) trimodal synergistic therapy strategy in chronological order is proposed. According to the status or volumes of the tumors, the intensity and time of each therapeutic modality are optimized, and three modalities are combined programmatically and work in chronological order. The optimal synergistic therapy begins with high-intensity PTT for 10 min to ablate larger tumors, followed by medium-intensity CDT for several hours to eliminate medium-sized tumors, and then low-intensity coordinated dual drugs CT lasts over 48 h to clear smaller residual tumors. Composite nanoparticles, made of Fe-coordinated polydopamine mixed with copper peroxide as the cores and their surface dotted with lots of doxorubicin-Fe(III)-gossypol infinite coordination polymers (ICPs), have been developed to implement the strategy. These composite nanoparticles show excellent synergistic effects with the minimum dose of therapeutic agents and result in nearly 100% tumor inhibition for mice bearing PC-3 tumors and no observed recurrence within 60 days of treatment. The ratios of the different therapeutic agents in the composite nanoparticles can be adjusted to accommodate different types of tumors with this cost-effective programmed trimodal therapy strategy.
Keyphrases
- cancer therapy
- high intensity
- drug delivery
- computed tomography
- photodynamic therapy
- squamous cell carcinoma
- locally advanced
- type diabetes
- emergency department
- resistance training
- body composition
- positron emission tomography
- stem cells
- contrast enhanced
- bone marrow
- electronic health record
- cell therapy
- magnetic nanoparticles