Long-Lasting Simultaneous Epidermal and Dermal Microneedle-Enabled Drug Delivery

Misagh Rezapour Sarabi, Sara Soltanabadi Farshi, Zeynep Saltik, Saba Khosbakht, Nesimi Buyukbabani, Orhan Agcaoglu, Secil Vural, Metin Sitti, Savas Tasoglu
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Abstract

Different skin diseases, such as cancers, inflammatory conditions, and bacterial infections, manifest at distinct skin depths. Microneedle arrays, recognized for their painless and minimally invasive drug administration, can be customized to penetrate these layers simultaneously. Here, the design of the microneedles (MNs) in nonlinear ways with diverse needle heights on the array enabling concurrent drug delivery to various skin layers is engineered. Additionally, varying the base diameter of the needles in the array facilitates prolonged or intermittent drug release, depending on the biodegradation kinetics of these needles. MNs, microfabricated with a biocompatible and biodegradable polymer, are validated by skin administration. The nonlinear design of the MNs on the array introduces a novel perspective on addressing skin diseases at varying depths of the skin.

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表皮和真皮微针同时长效给药
不同的皮肤疾病,如癌症、炎症和细菌感染,在皮肤的不同深度都有表现。微针阵列因其无痛、微创的给药方式而闻名,可根据需要同时穿透这些层。在这里,我们设计了非线性微针(MNs),阵列上的微针高度各不相同,可同时向不同皮肤层给药。此外,根据针头的生物降解动力学,改变阵列中针头的基底直径可延长或间断释放药物。使用生物相容性和可生物降解聚合物微制造的 MN 通过皮肤给药进行了验证。阵列上 MN 的非线性设计为解决皮肤不同深度的皮肤疾病提供了一个新的视角。
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