A responsive microneedle system for efficient anti-melanoma by combining self-enhanced chemodynamic therapy with photothermal therapy.

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Title: A responsive microneedle system for efficient anti-melanoma by combining self-enhanced chemodynamic therapy with photothermal therapy.
Authors: Chen, Jiajie1,2 (AUTHOR), Cao, Yi1,3 (AUTHOR), Lin, Shiyang1 (AUTHOR), Niu, Huicong1,4 (AUTHOR), Zhang, Hongjian1,2 (AUTHOR), Guan, Lei5 (AUTHOR), Shu, Chaoqin1,5 (AUTHOR), Wu, Aijun1,5 (AUTHOR), Bian, Yuhai1,6 (AUTHOR) oceanby@sina.com, Zhu, Yufang1,2 (AUTHOR) zjf2412@163.com
Source: Chemical Engineering Journal. Mar2022:Part 4, Vol. 431, pN.PAG-N.PAG. 1p.
Subjects: Dacarbazine, Hydroxyl group, Copper ions, Hydrogen peroxide, Thermotherapy, Copper oxide
Abstract: • A multifunctional responsive MN system was constructed for anti-melanoma. • MN@CuO 2 system showed good skin-insertion capability and dissolving property. • MN@CuO 2 system can achieve H 2 O 2 self-supplying and GSH depletion-enhanced CDT. • MN@CuO 2 system exhibited excellent NIR photothermal property. • MN@CuO 2 system realized the efficient melanoma inhibition by the combined CDT/PTT. Traditional therapies for melanoma suffer from many restrictions, that calls for the development of new treatments with high effectiveness and safety. Recently, employing transdermal microneedle (MN) systems for delivering therapeutic agents has obtained increasing interest as the efficient, minimally invasive, painless, and safe natures. Designing an "all-in-one" multifunctional MN system without complicated integration that can realize enhanced tumor therapy has presented huge promising for clinical application but is still a challenging strategy. Herein, a simple responsive MN system is developed for efficient anti-melanoma by combining self-enhanced chemodynamic therapy (CDT) and photothermal therapy (PTT). This MN system, constructed by biocompatible poly(vinylpyrrolidone) (PVP) as substrate and PVP-stabilized CuO 2 nanoparticles (CuO 2 NPs) as therapeutic agent, shows good skin-insertion capability and dissolving property that benefit in penetrating skin efficiently to deliver the therapeutic CuO 2 NPs into melanoma site. The released CuO 2 NPs from MN system can not only produce copper ion (Cu2+) and hydrogen peroxide (H 2 O 2) in response to the acidic environment for catalytic hydroxyl radical (OH) generation and thus achieve the H 2 O 2 self-supplying CDT, but also can be utilized as a glutathione (GSH)-scavenging agent for further enhancing CDT. Moreover, owing to the loading of CuO 2 NPs, such MN system exhibits excellent near-infrared (NIR) photothermal property that can induce local hyperthermia at the melanoma area for PTT. In result, the designed MN system realizes the efficient tumor inhibition with minimal side effects in vivo by the combination therapy , offering a safe and effective melanoma treatment option for patients. [ABSTRACT FROM AUTHOR]
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Abstract:• A multifunctional responsive MN system was constructed for anti-melanoma. • MN@CuO 2 system showed good skin-insertion capability and dissolving property. • MN@CuO 2 system can achieve H 2 O 2 self-supplying and GSH depletion-enhanced CDT. • MN@CuO 2 system exhibited excellent NIR photothermal property. • MN@CuO 2 system realized the efficient melanoma inhibition by the combined CDT/PTT. Traditional therapies for melanoma suffer from many restrictions, that calls for the development of new treatments with high effectiveness and safety. Recently, employing transdermal microneedle (MN) systems for delivering therapeutic agents has obtained increasing interest as the efficient, minimally invasive, painless, and safe natures. Designing an "all-in-one" multifunctional MN system without complicated integration that can realize enhanced tumor therapy has presented huge promising for clinical application but is still a challenging strategy. Herein, a simple responsive MN system is developed for efficient anti-melanoma by combining self-enhanced chemodynamic therapy (CDT) and photothermal therapy (PTT). This MN system, constructed by biocompatible poly(vinylpyrrolidone) (PVP) as substrate and PVP-stabilized CuO 2 nanoparticles (CuO 2 NPs) as therapeutic agent, shows good skin-insertion capability and dissolving property that benefit in penetrating skin efficiently to deliver the therapeutic CuO 2 NPs into melanoma site. The released CuO 2 NPs from MN system can not only produce copper ion (Cu2+) and hydrogen peroxide (H 2 O 2) in response to the acidic environment for catalytic hydroxyl radical (OH) generation and thus achieve the H 2 O 2 self-supplying CDT, but also can be utilized as a glutathione (GSH)-scavenging agent for further enhancing CDT. Moreover, owing to the loading of CuO 2 NPs, such MN system exhibits excellent near-infrared (NIR) photothermal property that can induce local hyperthermia at the melanoma area for PTT. In result, the designed MN system realizes the efficient tumor inhibition with minimal side effects in vivo by the combination therapy , offering a safe and effective melanoma treatment option for patients. [ABSTRACT FROM AUTHOR]
ISSN:13858947
DOI:10.1016/j.cej.2021.133466