Multi-Armed Anti-CD40-Mediated Dual Drug Delivery System Based on Mesoporous Silica/Au Nanorod Nanocomposites for Multimodality Imaging and Combination Therapy

Feng, H. T.; Zhao, Yangjing; Li, Yeping; Qi, Xueyong; Shen, Song; Zhou, Shengwang

doi:10.1021/acsanm.3c01722

ACS Appl. Nano Mater.

2023

DOI: 10.1021/acsanm.3c01722

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Multi-Armed Anti-CD40-Mediated Dual Drug Delivery System Based on Mesoporous Silica/Au Nanorod Nanocomposites for Multimodality Imaging and Combination Therapy

H. T. Feng

Yangjing Zhao

Yeping Li

et al.

Abstract: Nanotechnology provides the platform to develop functional nanocomposites with outstanding features, such as persistent luminescence (PL), photothermal conversion, magnetic resonance (MR), and so on, that has been incorporated in nanomedicine for diagnosis and therapy. Herein, the nanocomposites of ZnGa 2 O 4 :Cr 3+ embedded in mesoporous silica coating surrounding gold nanorods (cGNR@MSNs) were developed for the codelivery of chemotherapeutic drugs and anti-CD40 antibodies. The nanocomposites were functionali… Show more

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Recent advances in near-infrared I/II persistent luminescent nanoparticles for biosensing and bioimaging in cancer analysis

Chan,

Chang

2024

Anal Bioanal Chem

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Photoluminescent materials (PLNs) are photoluminescent materials that can absorb external excitation light, store it, and slowly release it in the form of light in the dark to achieve long-term luminescence. Developing near-infrared (NIR) PLNs is critical to improving long-afterglow luminescent materials. Because they excite in vitro, NIR-PLNs have the potential to avoid interference from in vivo autofluorescence in biomedical applications. These materials are promising for biosensing and bioimaging applications by exploiting the near-infrared biological window. First, we discuss the biomedical applications of PLNs in the first near-infrared window (NIR-I, 700–900 nm), which have been widely developed and specifically introduce biosensors and imaging reagents. However, the light in this area still suffers from significant light scattering and tissue autofluorescence, which will affect the imaging quality. Over time, fluorescence imaging technology in the second near-infrared window (NIR-II, 1000–1700 nm) has also begun to develop rapidly. NIR-II fluorescence imaging has the advantages of low light scattering loss, high tissue penetration depth, high imaging resolution, and high signal-to-noise ratio, and it shows broad application prospects in biological analysis and medical diagnosis. This critical review collected and sorted articles from the past 5 years and introduced their respective fluorescence imaging technologies and backgrounds based on the definitions of NIR-I and NIR-II. We also analyzed the current advantages and dilemmas that remain to be solved. Herein, we also suggested specific approaches NIR-PLNs can use to improve the quality and be more applicable in cancer research. Graphical abstract

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Recent advances in near-infrared I/II persistent luminescent nanoparticles for biosensing and bioimaging in cancer analysis

Chan,

Chang

2024

Anal Bioanal Chem

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show abstract

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Multi-Armed Anti-CD40-Mediated Dual Drug Delivery System Based on Mesoporous Silica/Au Nanorod Nanocomposites for Multimodality Imaging and Combination Therapy

Cited by 1 publication

References 68 publications

Recent advances in near-infrared I/II persistent luminescent nanoparticles for biosensing and bioimaging in cancer analysis

Recent advances in near-infrared I/II persistent luminescent nanoparticles for biosensing and bioimaging in cancer analysis

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