J A Laux, T Ohigashi, M R Bittermann, T Araki, H Yuzawa, F Rancan, A Vogt, E Rühl
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引用次数: 0
摘要
扫描透射 X 射线显微镜(STXM)是一种灵敏的选择性探针,可用于探测雷帕霉素的渗透情况,雷帕霉素可在体外局部应用于人体皮肤,并可通过微针穿刺皮肤进行治疗。通过光密度的变化以及使用最丰富物种的参考光谱进行线性组合建模,内壳激发可作为检测雷帕霉素的选择性探针。结果表明,微针引起的机械损伤可使这种药物在角质层积聚,而不会到达有活力的皮肤层。这与完全没有药物渗透的完整皮肤不同,突出了微针治疗对皮肤的机械影响。这些结果与其他药物的药物渗透情况进行了比较,突出了皮肤屏障的重要性。高空间分辨率研究还表明,在角质细胞中观察到了亲脂性药物雷帕霉素。数据评估报告尝试在角质细胞之间的脂质层中也探测雷帕霉素,这在以前是没有实现过的。这些结果与最近有关雷帕霉素在皮肤中吸收的结果进行了比较,后者是通过胰蛋白酶预处理和导致闭塞的药物配方引起屏障受损。
Scanning Transmission Soft X-Ray Microscopy Probes Topical Drug Delivery of Rapamycin Facilitated by Microneedles.
Scanning Transmission X-ray microscopy (STXM) is a sensitive and selective probe for the penetration of rapamycin which is topically applied to human skin ex vivo and is facilitated by skin treatment with microneedles puncturing the skin. Inner-shell excitation serves as a selective probe for detecting rapamycin by changes in optical density as well as linear combination modeling using reference spectra of the most abundant species. The results indicate that mechanical damage induced by microneedles allows this drug to accumulate in the stratum corneum without reaching the viable skin layers. This is unlike intact skin which shows no drug penetration at all and underscores the mechanical impact of microneedle skin treatment. These results are compared to drug penetration profiles of other drugs highlighting the importance of skin barriers. High spatial resolution studies also indicate that the lipophilic drug rapamycin is observed in corneocytes. Attempts in data evaluation are reported to probe rapamycin also in the lipid layers between the corneocytes, which was not accomplished before. These results are compared to recent results on rapamycin uptake in skin where barrier impairment was induced by pre-treatment with the enzyme trypsin and drug formulations leading to occlusion.
期刊介绍:
ChemPhysChem is one of the leading chemistry/physics interdisciplinary journals (ISI Impact Factor 2018: 3.077) for physical chemistry and chemical physics. It is published on behalf of Chemistry Europe, an association of 16 European chemical societies.
ChemPhysChem is an international source for important primary and critical secondary information across the whole field of physical chemistry and chemical physics. It integrates this wide and flourishing field ranging from Solid State and Soft-Matter Research, Electro- and Photochemistry, Femtochemistry and Nanotechnology, Complex Systems, Single-Molecule Research, Clusters and Colloids, Catalysis and Surface Science, Biophysics and Physical Biochemistry, Atmospheric and Environmental Chemistry, and many more topics. ChemPhysChem is peer-reviewed.