Photosensitive drug delivery systems for cancer therapy: Mechanisms and applications

Over the past three decades, various photosensitive nanoparticles have been developed as potential therapies in human health, ranging from photodynamic therapy technologies that have already reached clinical use, to drug delivery systems that are still in the preclinical stages. Many of these system...

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Bibliographic Details
Published in:Journal of controlled release 2021-10, Vol.338, p.446-461
Main Authors: Pan, Patrick, Svirskis, Darren, Rees, Shaun W.P., Barker, David, Waterhouse, Geoffrey I.N., Wu, Zimei
Format: Article
Language:English
Subjects:
Combination therapy
Drug delivery
Photodynamic therapy
Photosensitive drug systems
Photothermal therapy
Phototriggered
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Summary:Over the past three decades, various photosensitive nanoparticles have been developed as potential therapies in human health, ranging from photodynamic therapy technologies that have already reached clinical use, to drug delivery systems that are still in the preclinical stages. Many of these systems are designed to achieve a high spatial and temporal on-demand drug release via phototriggerable mechanisms. This review examines the current clinical and experimental applications in cancer treatment of photosensitive drug release systems, including nanocarriers such as liposomes, micelles, polymeric nanoparticles, and hydrogels. We will focus on the three main physicochemical mechanisms of imparting photosensitivity to a delivery system: i) photochemical reactions (oxidation, cleavage, and polymerization), ii) photoisomerization, iii) and photothermal reactions. Photosensitive nanoparticles have a multitude of different applications including controlled drug release, resulting from physical/conformational changes in the delivery systems in response to light of specific wavelengths. Most of the recent research in these delivery systems has primarily focused on improving the efficacy and safety of cancer treatments such as photodynamic and photothermal therapy. Combinations of multiple treatment modalities using photosensitive nanoparticulate delivery systems have also garnered great interest in combating multi-drug resistant cancers due to their synergistic effects. Finally, the challenges and future potential of photosensitive drug delivery systems in biomedical applications is outlined. [Display omitted] •Photosensitivity is achieved via photochemical/thermal reactions or photoisomerization.•Phototriggered release localizes chemical damage to the target tissues or cells.•Photosensitivity augments photothermal or photodynamic therapy.•Photosensitive nanocarriers allow co-delivery of chemotherapy and photothermal therapy.
ISSN:0168-3659
1873-4995
DOI:10.1016/j.jconrel.2021.08.053