Transdermal drug delivery has attracted much attention as an alternative to intravenous and oral methods of delivery. But the main barrier is stratum corneum. Terpenes classes of chemical enhancers are used in transdermal formulations for facilitating penetration of drugs. The aim of the study is to evaluate terpenes as skin penetration enhancers and correlate its relationship with permeation and lipophilicity. In this study, alfuzosin hydrochloride (AH) hydrogels were prepared with terpenes using Taguchi orthogonal array experimental design. The formulations contained one of eight terpenes, based on their lipophilicity (log P 2.13-5.36). The percutaneous permeation was studied in rat skin using diffusion cell technique. Flux, cumulative amount, lag time and skin content of AH were measured over 24 hours and compared with control gels. Nerolidol with highest lipophilicity (log P 5.36 ± 0.38) showed highest cumulative amount (Q24) of 647.29 ± 18.76 μg/cm2 and fluxrateof 28.16 ± 0.64 μg/cm2/hour. It showed decreased lag time of 0.76 ± 0.15 hours. Fenchone (2.5%) (log P 2.13 ± 0.30) produced the longest lag time 4.8 ± 0.20 hours. The rank order of enhancement effect was shown as nerolidol > farnesol > limonene > linalool > geraniol > carvone > fenchone > menthol. Lowest skin content was seen with carvone. Increase in lipophilicity of terpenes showed increase in flux, cumulative amount (Q24), and enhancement ratio which was significant with P < 0.000. But lag time was decreased and no correlation was found between lipophilicity and skin content. Histological studies showed changes in dermis which can be attributed to disruption of lipid packing of stratum corneum due to effect of nerolidol within lipid lamellae. It was found that small alcoholic terpenes with high degree of unsaturation enhance permeation of hydrophilic drugs, liquid terpenes enhance better than solid terpenes and terpenes with high lipophilicity are good penetration enhancers.Keywords: Alfuzosin hydrochloride, lipophilicity, taguchi robust design method, terpenes, transdermal permeation
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机译:透皮药物递送作为静脉内和口服递送方法的替代已经引起了广泛的关注。但是主要的障碍是角质层。萜类化学增强剂用于透皮制剂中,以促进药物渗透。该研究的目的是评估萜烯作为皮肤渗透促进剂,并将其与渗透性和亲脂性联系起来。在这项研究中,使用Taguchi正交阵列实验设计,用萜烯制备了盐酸阿夫唑嗪(AH)水凝胶。基于它们的亲脂性,该制剂包含八个萜烯之一(log P 2.13-5.36)。使用扩散池技术研究了大鼠皮肤中的经皮渗透。在24小时内测量AH的通量,累积量,滞后时间和皮肤含量,并与对照凝胶进行比较。亲脂性最高的Nerolidol(log P 5.36±0.38)显示最高累积量(Q24)为647.29±18.76μg/ cm2,通量率为28.16±0.64μg/ cm2 /小时。它显示出减少的滞后时间为0.76±0.15小时。 Fenchone(2.5%)(log P 2.13±0.30)产生了最长的滞后时间4.8±0.20小时。增强效果的等级顺序为神经甾醇>法尼醇>柠檬烯>芳樟醇>香叶醇>香芹酮>杏仁酮>薄荷醇。香芹酮的皮肤含量最低。萜烯的亲脂性增加表明通量,累积量(Q24)和增强比均增加,P <0.000时具有显着性。但是滞后时间减少了,亲脂性与皮肤含量之间没有相关性。组织学研究表明,真皮层的变化可归因于脂质片中神经胶醇的作用导致角质层脂质堆积的破坏。研究发现,高不饱和度的小醇萜类化合物增强亲水性药物的渗透性,液体萜烯类化合物比固体萜类化合物的增强性更好,而高亲脂性的萜烯是良好的渗透增强剂。关键词:盐酸阿夫唑嗪,亲脂性,Taguchi稳健设计方法,萜烯,透皮渗透
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