Cold‐Responsive Hyaluronated Upconversion Nanoplatform for Transdermal Cryo‐Photodynamic Cancer Therapy

Molkenova, Anara; Choi, Hye Eun; Lee, Gibum; Baek, Hayeon; Kwon, Mina; Lee, Su Bin; Park, Jeong‐Min; Kim, Jae‐Hyuk; Han, Dong‐Wook; Park, Jungwon; Hahn, Sei Kwang; Kim, Ki Su

doi:10.1002/advs.202306684

Advanced Science

2024

DOI: 10.1002/advs.202306684

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Cold‐Responsive Hyaluronated Upconversion Nanoplatform for Transdermal Cryo‐Photodynamic Cancer Therapy

Anara Molkenova,

Hye Eun Choi,

Gibum Lee

et al.

Abstract: Cryotherapy leverages controlled freezing temperature interventions to engender a cascade of tumor‐suppressing effects. However, its bottleneck lies in the standalone ineffectiveness. A promising strategy is using nanoparticle therapeutics to augment the efficacy of cryotherapy. Here, a cold‐responsive nanoplatform composed of upconversion nanoparticles coated with silica – chlorin e6 – hyaluronic acid (UCNPs@SiO2‐Ce6‐HA) is designed. This nanoplatform is employed to integrate cryotherapy with photodynamic the… Show more

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Cited by 4 publications

References 66 publications

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Multifunctional Photonic Nanomaterials and Devices for Digital Photomedicine via Neuro‐Immune Cross‐Talks

Kim,

Kim

et al. 2024

Advanced Materials

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The nervous and immune systems are closely interconnected, and influence the onset and progress of various diseases. Accordingly, understanding the interaction of the neural system and the immune system becomes very important for the treatment of intractable diseases with the analysis of therapeutic mechanisms, such as autoimmune diseases, neurodegenerative diseases, cancers, and so on. The conventional immunomodulation treatments have been mainly carried out by drug administration, but they have suffered from systemic negative side‐effects with only limited effects on the specific disease. In this Perspective, photonic nanomaterials and devices are reviewed and discussed for digitally controlled neurostimulating photomedicine via photobiomodulation and optogenetics from the unique viewpoint of neuro‐immune cross‐talks. The prospects and perspectives to integrate photonic nanomaterials with advanced wearable and implantable healthcare devices are also provided and highlighted to revolutionize the therapeutic strategies by the interaction of neural and immune systems, and optimize the treatment protocols for futuristic digital photomedicine. This approach will revolutionize the fields of neurostimulation and immune regulation for further clinical applications.

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Multifunctional Photonic Nanomaterials and Devices for Digital Photomedicine via Neuro‐Immune Cross‐Talks

Kim,

Kim

et al. 2024

Advanced Materials

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Nanomaterial-based regulation of redox metabolism for enhancing cancer therapy

Jia,

Wang,

Qiao

et al. 2024

Chem. Soc. Rev.

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Enhancing Cancer Treatment Through Combined Approaches: Photodynamic Therapy in Concert with Other Modalities

Hong,

Chang

2024

Pharmaceutics

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This review explores the role of photodynamic therapy (PDT) as an adjunctive treatment for cancers, with a focus on its potential to enhance the effects of established therapies like chemotherapy, surgery, and radiotherapy. Given the limitations of conventional cancer treatments, PDT’s ability to improve therapeutic outcomes through combination strategies is examined. In cancers such as lung, breast, cholangiocarcinoma, and cervical, PDT shows promise in enhancing response rates, reducing recurrence, and minimizing adverse effects when used alongside standard modalities. This study highlights current findings on PDT’s mechanisms in complementing chemotherapy, augmenting surgical precision, and enhancing radiotherapeutic effects, thus offering a multi-faceted approach to cancer treatment. Additionally, insights into the clinical application of PDT in these cancers emphasize its potential for reducing tumor resistance and supporting more effective, personalized care. By providing an overview of PDT’s synergistic applications across diverse cancer types, this review underscores its emerging significance in oncology as a tool to address traditional treatment limitations. Ultimately, this review aims to inform and inspire researchers and clinicians seeking to refine and innovate cancer therapy strategies through PDT integration, contributing to the advancement of more effective, synergistic cancer treatments.

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Cold‐Responsive Hyaluronated Upconversion Nanoplatform for Transdermal Cryo‐Photodynamic Cancer Therapy

Cited by 4 publications

References 66 publications

Multifunctional Photonic Nanomaterials and Devices for Digital Photomedicine via Neuro‐Immune Cross‐Talks

Multifunctional Photonic Nanomaterials and Devices for Digital Photomedicine via Neuro‐Immune Cross‐Talks

Nanomaterial-based regulation of redox metabolism for enhancing cancer therapy

Enhancing Cancer Treatment Through Combined Approaches: Photodynamic Therapy in Concert with Other Modalities

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