A piezoelectric-driven microneedle platform for skin disease therapy

压电 医学 材料科学 复合材料
作者
Ziyan Chen,Xin Liu,Zixi Jiang,Huayi Wu,Tao Yang,Lanyuan Peng,Lisha Wu,Zhongling Luo,Mi Zhang,Juan Su,Yan Tang,Jinmao Li,Yang Xie,Shan Han,Qibo Lin,Xiu‐Li Wang,Xiang Chen,Hanmin Peng,Shuang Zhao,Zeyu Chen
出处
期刊:The Innovation [Elsevier BV]
卷期号:5 (3): 100621-100621 被引量:22
标识
DOI:10.1016/j.xinn.2024.100621
摘要

With over a million cases detected each year, skin disease is a global public health problem that diminishes the quality of life due to its difficulty to eradicate, propensity for recurrence, and potential for post-treatment scarring. Photodynamic therapy (PDT) is a treatment with minimal invasiveness or scarring and few side effects, making it well tolerated by patients. However, this treatment requires further research and development to improve its effective clinical use. Here, a piezoelectric-driven microneedle (PDMN) platform that achieves high efficiency, safety, and non-invasiveness for enhanced PDT is proposed. This platform induces deep tissue cavitation, increasing the level of protoporphyrin IX and significantly enhancing drug penetration. A clinical trial involving 25 patients with skin disease was conducted to investigate the timeliness and efficacy of PDMN-assisted PDT (PDMN-PDT). Our findings suggested that PDMN-PDT boosted treatment effectiveness and reduced the required incubation time and drug concentration by 25% and 50%, respectively, without any anesthesia compared to traditional PDT. These findings suggest that PDMN-PDT is a safe and minimally invasive approach for skin disease treatment, which may improve the therapeutic efficacy of topical medications and enable translation for future clinical applications.
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