Comparison of Membrane Depth Determination Techniques for Active Ingredient Skin Penetration Studies Using Microdialysis.

IF 2.8 4区 医学 Q2 DERMATOLOGY
Skin Pharmacology and Physiology Pub Date : 2021-01-01 Epub Date: 2021-05-21 DOI:10.1159/000515113
Markus Lubda, Maximilian Zander, Andrew Salazar, Harald Kolmar, Jörg von Hagen
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引用次数: 6

Abstract

Introduction: The skin is a major physical barrier to the environment, and thus, percutaneous delivery of active ingredients to the dermal target site faces a unique set of hurdles. The efficacy of these active ingredients is governed by their release into the underlying epidermal and dermal tissue, especially when administered topically.

Objective: The aim of this study was to understand if different physicochemical properties influence the skin penetration of active ingredients and the depth to which they penetrate into the dermis.

Methods: A microdialysis (MD) setup was used to compare the percutaneous penetration in superficial and deep implanted MD membranes in porcine skin. The precise MD membrane depth was determined using histological sectioning paired with microscopy, ultrasound, and a novel computed tomographic approach.

Results: In study A, the measured depth of the superficial and deep implanted MD membranes was compared using histological sectioning, ultrasound, and computed tomography. Experimental determination of the depth up to which penetration occurs was found to be crucial to percutaneous penetration studies. In study B, the lipophilic differences of the active ingredients and its influences on the penetration was tested using hydrophilic caffeine and lipophilic LIP1 as model compounds, which have an identical molecular weight with different lipophilic characteristics. It is assumed that the lipophilic characteristics of active ingredients influence their penetration and thus governs the concentration of these molecules reaching their target site.

Conclusion: The transdermal penetration of caffeine was found to exceed that of LIP1 through the hydrophilic environment of the dermis. Thus, the findings of this study show that the precise MD dermis localization and the physicochemical properties, such as lipophilicity, influence the penetration rate of active ingredients and lay the foundation for creating optimized transdermal delivery systems.

微透析法测定活性成分透皮研究膜深度的方法比较。
简介:皮肤是环境的主要物理屏障,因此,经皮将活性成分输送到真皮目标部位面临着一系列独特的障碍。这些活性成分的功效取决于其释放到表皮和真皮组织,特别是局部施用时。目的:本研究的目的是了解不同的物理化学性质是否影响有效成分的皮肤渗透及其渗透到真皮层的深度。方法:采用微透析(MD)装置,比较微透析膜在猪皮肤浅层和深层的透皮渗透情况。精确的MD膜深度是通过组织切片、显微镜、超声和一种新的计算机断层扫描方法来确定的。结果:在研究A中,使用组织学切片、超声和计算机断层扫描比较了浅层和深层植入MD膜的测量深度。实验确定渗透发生的深度被认为是经皮渗透研究的关键。在研究B中,以亲水的咖啡因和亲脂的LIP1为模型化合物,测试了活性成分的亲脂性差异及其对渗透的影响,这两种化合物具有相同的分子量,但亲脂性不同。据推测,活性成分的亲脂特性影响其渗透,从而控制这些分子到达目标部位的浓度。结论:通过真皮亲水性环境,发现咖啡因的透皮渗透超过LIP1。因此,本研究结果表明,精确的MD真皮定位和亲脂性等理化性质会影响活性成分的渗透速度,为创建优化的透皮给药系统奠定基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Skin Pharmacology and Physiology
Skin Pharmacology and Physiology 医学-皮肤病学
CiteScore
5.20
自引率
7.40%
发文量
23
审稿时长
>12 weeks
期刊介绍: In the past decade research into skin pharmacology has rapidly developed with new and promising drugs and therapeutic concepts being introduced regularly. Recently, the use of nanoparticles for drug delivery in dermatology and cosmetology has become a topic of intensive research, yielding remarkable and in part surprising results. Another topic of current research is the use of tissue tolerable plasma in wound treatment. Stimulating not only wound healing processes but also the penetration of topically applied substances into the skin, this novel technique is expected to deliver very interesting results.
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