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AgNPs 修饰的聚乳酸微针:制备及体内/体外抗菌研究。

AgNPs-Modified Polylactic Acid Microneedles: Preparation and In Vivo/In Vitro Antimicrobial Studies.

机构信息

School of Pharmacy, Fujian Medical University, Fuzhou, 350122, China.

School of Pharmacy and Medical Technology, Putian University, Putian, 351100, China.

出版信息

Pharm Res. 2024 Jan;41(1):93-104. doi: 10.1007/s11095-023-03634-6. Epub 2023 Nov 20.

DOI:10.1007/s11095-023-03634-6
PMID:37985572
Abstract

OBJECTIVE

To prepare polylactic acid microneedles (PLAMNs) with sustained antibacterial effect to avoid skin infection caused by traditional MNs-based biosensors.

METHODS

Silver nanoparticles (AgNPs) were synthesized using an in-situ reduction process with polydopamine (PDA). PLAMNs were fabricated using the hot-melt method. A series of pressure tests and puncture experiments were conducted to confirm the physicochemical properties of PLAMNs. Then AgNPs were modified on the surface of PLAMNs through in-situ reduction of PDA, resulting in the formation of PLAMNs@PDA-AgNPs. The in vitro antibacterial efficacy of PLAMNs@PDA-AgNPs was evaluated using agar diffusion assays and bacterial liquid co-culture approach. Wound healing and simulated long-term application were performed to assess the in vivo antibacterial effectiveness of PLAMNs@PDA-AgNPs.

RESULTS

The MNs array comprised 169 tiny needle tips in pyramidal rows. Strength and puncture tests confirmed a 100% puncture success rate for PLAMNs on isolated rat skin and tin foil. SEM analysis revealed the integrity of PLAMNs@PDA-AgNPs with the formation of new surface substances. EDS analysis indicated the presence of silver elements on the surface of PLAMNs@PDA-AgNPs, with a content of 14.44%. Transepidermal water loss (TEWL) testing demonstrated the rapid healing of micro-pores created by PLAMNs@PDA-AgNPs, indicating their safety. Both in vitro and in vivo tests confirmed antibacterial efficacy of PLAMNs@PDA-AgNPs.

CONCLUSIONS

In conclusion, the sustained antibacterial activity exhibited by PLAMNs@PDA-AgNPs offers a promising solution for addressing skin infections associated with MN applications, especially when compared to traditional MN-based biosensors. This advancement offers significant potential for the field of MN technology.

摘要

目的

制备具有持续抗菌效果的聚乳酸微针(PLAMNs),以避免传统基于 MNs 的生物传感器引起的皮肤感染。

方法

采用原位还原法用聚多巴胺(PDA)合成银纳米粒子(AgNPs)。采用热熔法制备 PLAMNs。通过一系列压力测试和穿刺实验,确认 PLAMNs 的物理化学性质。然后通过 PDA 的原位还原将 AgNPs 修饰在 PLAMNs 表面,形成 PLAMNs@PDA-AgNPs。采用琼脂扩散试验和细菌液共培养法评价 PLAMNs@PDA-AgNPs 的体外抗菌效果。进行伤口愈合和模拟长期应用实验,评估 PLAMNs@PDA-AgNPs 的体内抗菌效果。

结果

微针阵列由 169 个金字塔形排列的微小针尖组成。PLAMNs 在分离的大鼠皮肤和锡箔上的强度和穿刺测试均实现了 100%的穿刺成功率。SEM 分析显示 PLAMNs@PDA-AgNPs 完整,表面形成新物质。EDS 分析表明 PLAMNs@PDA-AgNPs 表面存在银元素,含量为 14.44%。经皮水分丢失(TEWL)测试表明 PLAMNs@PDA-AgNPs 形成的微孔迅速愈合,表明其安全性。体外和体内试验均证实了 PLAMNs@PDA-AgNPs 的抗菌效果。

结论

总之,PLAMNs@PDA-AgNPs 表现出的持续抗菌活性为解决 MNs 应用相关的皮肤感染提供了一种有前景的解决方案,特别是与传统基于 MNs 的生物传感器相比。这一进展为 MN 技术领域带来了重大潜力。

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