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Restorative biodegradable two-layered hybrid microneedles for melanoma photothermal/chemo co-therapy and wound healing

Yue Shan, Bowen Tan, Min Zhang, Xi Xie, Jinfeng Liao

2022Journal of Nanobiotechnology74 citationsDOIOpen Access PDF

Abstract

Tumor killing and wound healing are two complementary and influential processes during the treatment of melanoma. Herein, a two-layered microneedle platform was developed with bifunctional effect of chemo-photothermal synergistic melanoma therapy and skin regeneration. The bifunctional platform composed of embeddable curcumin nanodrugs/new Indocyanine Green/hyaluronic acid (Cur NDs/IR820/HA) microneedles and sodium alginate/gelatin/hyaluronic acid (SA/Ge/HA) supporting backing layer was prepared through a two-step casting process. With uniform incorporation of curcumin nanodrugs and IR820, the microneedles exhibited excellent photothermal performance under external near-infrared (NIR) light stimulation and tumor co-therapy ability. Once the embeddable microneedles were inserted into skin, they would rapidly dissolve and activate drug release successfully for tumor treatment. Moreover, the SA/Ge/HA supporting backing layer was left behind to cover the wound and promote the proliferation of endothelial and fibroblasts cells for enhanced skin regeneration. The two-layered microneedles platform can simultaneously eliminate the tumor and accelerate wounding healing, which may be potentially employed as a competitive strategy for the treatment of melanoma.

Topics & Concepts

Photothermal therapyWound healingBiomedical engineeringWound dressingMedicineMaterials scienceNanotechnologySurgeryComposite materialAdvancements in Transdermal Drug DeliverySkin Protection and AgingPhotodynamic Therapy Research Studies
Restorative biodegradable two-layered hybrid microneedles for melanoma photothermal/chemo co-therapy and wound healing | Litcius