在体外,通过增加纳曲酮和纳曲醇的电荷,经微针处理皮肤的通量会增加。
Flux across [corrected] microneedle-treated skin is increased by increasing charge of naltrexone and naltrexol in vitro.
作者信息
Banks Stan L, Pinninti Raghotham R, Gill Harvinder S, Crooks Peter A, Prausnitz Mark R, Stinchcomb Audra L
机构信息
Department of Pharmaceutical Sciences, University of Kentucky College of Pharmacy, Lexington, Kentucky 40536-0082, USA.
出版信息
Pharm Res. 2008 Jul;25(7):1677-85. doi: 10.1007/s11095-008-9578-3. Epub 2008 May 1.
PURPOSE
The purpose of this investigation was to evaluate the in vitro microneedle (MN) enhanced percutaneous absorption of naltrexone hydrochloride salt (NTX x HCl) compared to naltrexone base (NTX) in hairless guinea pig skin (GP) and human abdominal skin. In a second set of experiments, permeability of the major active metabolite 6-beta-naltrexol base (NTXOL) in the primarily unionized (unprotonated) form at pH 8.5 was compared to the ionized form (pH 4.5).
METHODS
In vitro fluxes of NTX, NTX.HCl and ionized and unionized NTXOL were measured through microneedle treated or intact full thickness human and GP skin using a flow through diffusion apparatus. Solubility and diffusion samples were analyzed by HPLC.
RESULTS
Both GP and human skin show significant increases in flux when treated with 100 MN insertions as compared to intact full thickness skin when treated with NTX.HCl or ionized NTXOL (pH 4.5; p < 0.05). MN increased GP skin permeability for the hydrophilic HCL salt of NTX by tenfold and decreased lag time by tenfold too. Similar results were found using human skin, such that skin permeability to NTX.HCl was elevated to 7.0 x 10(-5) cm/h. Permeability of the primarily unionized (unprotonated) form of NTXOL at pH 8.5 was increased by MN only threefold and lag time was only modestly reduced. However, MN treatment with the primarily ionized (protonated) form of NTXOL at pH 4.5 increased skin permeability fivefold and decreased lag time fourfold.
CONCLUSION
Enhancement was observed in vitro in both GP and human skin treated with MN compared to intact skin with the salt form of NTX and the ionized form of NTXOL. We conclude that transdermal flux can be optimized by using MN in combination with charged (protonated) drugs that have increased solubility in an aqueous patch reservoir and increased permeability through aqueous pathways created by MN in the skin.
目的
本研究旨在评估与纳曲酮碱(NTX)相比,盐酸纳曲酮盐(NTX·HCl)在无毛豚鼠皮肤(GP)和人体腹部皮肤中经微针(MN)增强的体外经皮吸收情况。在第二组实验中,比较了主要活性代谢物6-β-纳曲醇碱(NTXOL)在pH 8.5时主要以非离子化(未质子化)形式与离子化形式(pH 4.5)的渗透性。
方法
使用流通扩散装置,通过微针处理或完整全层人体及GP皮肤测量NTX、NTX·HCl以及离子化和非离子化NTXOL的体外通量。通过高效液相色谱法分析溶解度和扩散样品。
结果
与用NTX·HCl或离子化NTXOL(pH 4.5;p<0.05)处理的完整全层皮肤相比,用100次微针插入处理时,GP皮肤和人体皮肤的通量均显著增加。微针使NTX的亲水性盐酸盐在GP皮肤中的渗透率提高了10倍,滞后时间也减少了10倍。在人体皮肤中也发现了类似结果,即对NTX·HCl的皮肤渗透率提高到7.0×10⁻⁵ cm/h。在pH 8.5时,微针仅使主要以非离子化(未质子化)形式存在的NTXOL的渗透率提高了3倍,滞后时间仅略有缩短。然而,在pH 4.5时,用主要以离子化(质子化)形式存在的NTXOL进行微针处理使皮肤渗透率提高了5倍,滞后时间减少了4倍。
结论
与用NTX盐形式和离子化形式的NTXOL处理的完整皮肤相比,在经微针处理的GP皮肤和人体皮肤中均观察到体外增强效果。我们得出结论,通过将微针与在水性贴剂储库中溶解度增加且通过微针在皮肤中形成的水性途径渗透率增加的带电(质子化)药物联合使用,可以优化经皮通量。
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