Litcius/Paper detail

Soluble microneedle patch with photothermal and NO-release properties for painless and precise treatment of ischemic perforator flaps

Lubing Liu, Qingqing Wang, Huaiwei Liao, Jing Ye, Jinjun Huang, Shisheng Li, Haichuan Peng, Xiang Yu, Huicai Wen, Xiaolei Wang

2021Journal of Materials Chemistry B18 citationsDOI

Abstract

Skin necrosis is the most serious complication of flap plastic surgery, which means the failure of the operation. Systemic administration rarely benefits the local area and can lead to side effects, while topical administration has poor permeability due to the skin barrier function. Currently, few of these common medical interventions can totally respond to the blood supply of the skin after surgery. Herein, a soluble microneedle (MN) patch made of hyaluronic acid was used to target the ischemic area in a painless and precise manner for transdermal drug delivery. Based on the important role of nitric oxide (NO) in angiogenesis, the thermosensitive NO donor (BNN6) and gold nanorods (GNRs) acting as photothermal agents were introduced into the microneedles (MNs). The hyperthermia induced by GNRs under near infrared (NIR, 808 nm) irradiation could enhance the penetration of drugs and facilitate NO release from BNN6. A series of corresponding experiments proved that the system played a significant promotion role in vascular regeneration, providing a painless, precise and NO-assisted treatment method for the ischemic perforator flaps.

Topics & Concepts

TransdermalPhotothermal therapyNitric oxideHyaluronic acidMedicineSystemic administrationTransdermal patchBiomedical engineeringAngiogenesisMaterials sciencePharmacologyIn vivoNanotechnologyCancer researchInternal medicineBiotechnologyAnatomyBiologyAdvancements in Transdermal Drug DeliveryNanoplatforms for cancer theranosticsSkin Protection and Aging