Inhibit diffusion of the small molecule drug lidocaine hydrochloride in dissolving microneedles based on a phase separation approach
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Release time:2025-02-16 Impact Factor:4.5 DOI number:10.1016/j.jddst.2024.106030 Affiliation of Author(s):Xiangya School of Pharmaceutical Sciences in Central South University, Changsha, Hunan, China Journal:Journal of Drug Delivery Science and Technology Place of Publication:法国 Key Words:Dissolving microneedlesDrug diffusionTransdermal drug deliveryPhase separationViscosity Abstract:Dissolving microneedles (DMNs) have emerged as a promising transdermal drug delivery modality. However, in the case of small-molecule drug delivery, there is a tendency for the drug to disperse from the needle layer into the backing layer, resulting in reduced drug concentration at the needle site and consequently compromising drug delivery efficiency. In this study, lidocaine hydrochloride (Lido) was employed as a model drug to prepare a series of Lido dissolving microneedles (Li-DMNs) through a two-step casting method. We detail their fabrication process and the composition of needle and backing solutions, conduct in vitro characterization, and investigate the impact of viscosity and phase separation effects on drug distribution. Li-DMNs exhibit excellent visual appearance, adequate mechanical strength, favorable puncture permeability, and effective transdermal release property which can effectively facilitate the transdermal delivery of Lido. The phase separation effect significantly impedes Lido diffusion into the backing layer during DMNs preparation. This approach holds immense potential for broad applications and bears great significance in enhancing both drug loading capacity and transdermal delivery efficiency of DMNs. Co-author:J. Liu, Y. Liu, R. Zhao, Z. Cheng First Author:S. Huang Indexed by:Journal paper Correspondence Author:C. Chen, W. Liu Discipline:Medicine First-Level Discipline:Pharmaceutical Science Volume:100 Page Number:106030 ISSN No.:2588-8943 Translation or Not:no Date of Publication:2024-08-08 Included Journals:SCI -
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柳文洁-微针-Journal of Drug Delivery Science and Technology 2024.pdf
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