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Microneedle-mediated hypoxic extracellular vesicle-encapsulated selenium nanoparticles delivery to treat androgenetic alopecia

Shuili Jing, Yonghao Liu, Ben Wang, Heng Zhou, Hui Zhang, Prakriti Siwakoti, Xiangyu Qu, Peng Ye, Yan He, Tushar Kumeria, Qingsong Ye

2025Journal of Controlled Release24 citationsDOIOpen Access PDF

Abstract

Androgenetic alopecia (AGA) is the most common type of hair loss, and there is a lack of ideal treatment options. The damage and shedding of hair follicles are closely associated with niche dysregulation, including reactive oxygen species (ROS) accumulation, microvascular damage, and persistent inflammation. In this study, a biocomposite microneedle system comprising hypoxic extracellular vesicle (EV)-encapsulated selenium nanozyme (Se-HEVs-AMN) was designed to create a favorable perifollicular microenvironment. The novel Se-HEVs-AMN biocomposite patch features microneedles with sufficient mechanical strength, tailored dissolution properties, and a convenient detachable backing layer. The microneedles are modified with Astragalus polysaccharide (APS) and loaded with hypoxia-induced EVs containing selenium nanozyme. When applied to the dorsal skin of AGA mice, the microneedles rapidly dissolve, releasing active ingredients that increase hair density and enlarge hair follicle diameter through regulating inflammation, promoting angiogenesis, scavenging ROS, and resisting androgen. • A multidimensional biocomposite strategy for androgenetic alopecia. • Ultra-small Selenium nanoparticles exhibit potent antioxidant activity. • Hypoxic Extracellular vesicles serve as carriers for nanoparticles. • Astragalus polysaccharide microneedles achieve painless and efficient delivery.

Topics & Concepts

Extracellular vesiclesChemistryNanoparticleSeleniumVesicleMicrovesiclesPharmacologyMedicineNanotechnologyCell biologyBiochemistryMaterials scienceBiologyMembraneOrganic chemistryGenemicroRNAAdvancements in Transdermal Drug DeliveryHair Growth and DisordersDermatologic Treatments and Research