In vivo microdialysis for the investigation of drug levels in the dermis and the effect of barrier perturbation on cutaneous drug penetration. Studies in hairless rats and human subjects.

E. Benfeldt
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引用次数: 66

Abstract

The thesis opens with review chapters concerning theoretical and practical aspects of the investigation of drug contents in the skin. A discussion of the advantages and limitations of the established methods as well as the relatively new sampling method of microdialysis, which is employed in the experimental section, is given. Factors influencing the barrier function of the normal human skin are described as are the alterations in skin barrier function found in diseased and experimentally barrier perturbed skin. The microdialysis technique consists of introducing an ultra thin, semipermeable tube, a so-called probe, in the dermis. The tube is connected to a precision pump, which provides a steady flow of a tissue-compatible fluid through the probe at a very low flow. Smaller molecules in the tissue, among them the non-protein bound fraction of the drug content in the extracellular fluid, will passively diffuse across the surface of the membrane and thus enter the flow of the perfusate, which is sampled at regular intervals and analysed. Microdialysis is used for the determination of drug levels in the skin after topical as well as systemic drug delivery in the experimental part of the thesis. The method is not applicable to the investigation of all drugs or compounds, as we have shown that it is not feasible to sample highly protein-bound drugs or very lipophilic drugs by microdialysis without further development of the method. The investigation of topical drug administration consists of 2 studies of cutaneous penetration of a model drug, salicylic acid, initially investigated in hairless rats and subsequently in human volunteers. In both studies, barrier perturbation of the skin was undertaken by physical (removal of the stratum corneum by repeated tape stripping) or chemical (treatment with acetone) methods or by provocation of irritative dermatitis (by application of sodium lauryl sulphate, a detergent). Prior to the penetration experiment, the barrier damage inflicted was quantified by non-invasive measurements of transepidermal, water loss and erythema. The penetration of salicylic acid, applied in an ethanol solution in chambers glued to the skin in the barrier perturbed areas, was measured by microdialysis sampling of the drug level in the underlying dermis. At the end of the experiment, probe depth in the dermis and skin thickness were measured by ultrasound scanning. In humans and hairless rats alike, the cutaneous drug penetration was highly increased in tape stripped skin (157- and 170-fold increased, respectively, in comparison to the penetration in unmodified skin) and in skin with irritative dermatitis (46- and 80-fold increased). Delipidization by acetone led to a doubling of the penetration in humans but had no effect on penetration in hairless rats. In both studies a close correlation between the measurements of barrier perturbation by non-invasive methods and the cutaneous drug penetration in the same area was found. In the human study, the barrier perturbation in the acetone treated area was not measurable by non-invasive methods, whereas drug penetration, measured by microdialysis sampling, was significantly increased, indicating that the microdialysis method possesses high sensitivity in the detection and quantification of perturbed skin barrier function. In the human study, a dose-response relationship between the concentration of detergent used for the induction of irritant dermatitis and the ensuing increase in drug penetration across the skin could be demonstrated. In the hairless rat study a correlation between probe depth in the dermis and drug penetration was found, demonstrating that the more superficially a probe was placed, the earlier it would be reached by the influx of drug across the skin. Systemic drug distribution was studied in healthy volunteers following oral administration of 2 g acetylsalicylic acid. (ABSTRACT TRUNCATED)
体内微透析用于研究真皮中的药物水平和屏障扰动对皮肤药物渗透的影响。无毛大鼠和人类实验对象的研究。
论文以回顾章节开始,涉及皮肤中药物含量研究的理论和实践方面。讨论了现有方法的优点和局限性,以及实验部分采用的相对较新的微透析采样方法。影响正常人体皮肤屏障功能的因素被描述为在患病和实验中发现的皮肤屏障功能的改变。微透析技术包括在真皮中引入一根超薄的半透管,即所谓的探针。该管与精密泵相连,该泵以非常低的流量提供稳定的组织相容流体通过探头。组织中较小的分子,其中包括细胞外液中药物含量的非蛋白质结合部分,将被动地扩散穿过膜表面,从而进入灌注液的流动,定期取样并分析。在本文的实验部分中,微透析用于局部和全身给药后皮肤内药物水平的测定。该方法并不适用于所有药物或化合物的研究,因为我们已经证明,如果不进一步发展该方法,用微透析对高蛋白结合药物或非常亲脂的药物进行取样是不可行的。局部给药的研究包括两项模型药物水杨酸的皮肤渗透研究,最初在无毛大鼠中进行,随后在人类志愿者中进行。在这两项研究中,皮肤屏障的扰动是通过物理方法(通过反复剥离胶带去除角质层)或化学方法(用丙酮治疗)或刺激性皮炎(应用十二烷基硫酸钠,一种洗涤剂)进行的。在渗透实验之前,通过非侵入性测量经皮、失水和红斑来量化所造成的屏障损伤。水杨酸的渗透,应用于乙醇溶液的室粘在皮肤的屏障干扰区域,通过微透析取样的药物水平在真皮底层测量。实验结束时,通过超声扫描测量探针在真皮层的深度和皮肤厚度。在人类和无毛大鼠中,胶带剥离的皮肤(与未修饰的皮肤相比,分别增加了157倍和170倍)和刺激性皮炎皮肤(分别增加了46倍和80倍)的皮肤药物穿透性大大增加。丙酮的脱脂作用使人类的穿透力增加了一倍,但对无毛大鼠的穿透力没有影响。在这两项研究中,发现用非侵入性方法测量的屏障扰动与同一区域的皮肤药物穿透之间存在密切的相关性。在人体研究中,无创方法无法测量丙酮处理区域的屏障摄动,而微透析采样测量的药物穿透性明显增加,说明微透析方法在检测和定量皮肤屏障功能摄动方面具有很高的灵敏度。在人体研究中,可以证明用于诱导刺激性皮炎的洗涤剂浓度与随后药物穿透皮肤的增加之间的剂量-反应关系。在对无毛大鼠的研究中,发现了探针在真皮层的深度与药物渗透之间的相关性,表明探针放置得越浅,药物通过皮肤流入的时间就越早。研究了健康志愿者口服2g乙酰水杨酸后的全身药物分布。(抽象截断)
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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