Singh Gursharanjit, Ghosh Bijaya, Kaushalkumar Dave, Somsekhar Vanita
Research associate, Formulation and Development, Cadila Pharmaceuticals Ltd., Ahmedabad, India.
AAPS PharmSciTech. 2008;9(3):791-7. doi: 10.1208/s12249-008-9111-3. Epub 2008 Jul 1.
The objective of the study was to investigate in vitro transdermal delivery of venlafaxine hydrochloride across the pigskin by passive diffusion and iontophoresis. For passive diffusion, experiments were carried out in Franz diffusion cell whereas for iontophoretic permeation, the diffusion cell was modified to contain both the donor and return electrode on the same side of skin. Anodal iontophoresis was carried out using a current density of 0.5 mA/cm(2). Donor concentrations used were 585.5 mg/ml (saturated solution) and 100 mg/ml. Experiments initially performed to determine the transport efficiency of venlafaxine ions showed promising results. Iontophoresis increased the permeation rate at both concentration levels over their passive counterparts (P < 0.01), but surprisingly higher steady-state flux was obtained from lower donor drug load (P < 0.01). The favorable pH of the unsaturated solutions is suggested to be the cause for this effect. Mild synergistic effect was observed when iontophoresis was carried out incorporating peppermint oil in the donor but the same was not found in passive diffusion. Highest steady-state flux obtained in the experiment was 3.279 mumol/cm(2)/h when peppermint oil (0.1%) was included in the donor. As the maintenance requirement of venlafaxine hydrochloride is approximately 9.956 mumol/h, the results suggested that the drug is a promising candidate for iontophoretic delivery.
本研究的目的是通过被动扩散和离子电渗法研究盐酸文拉法辛在猪皮上的体外透皮给药。对于被动扩散,实验在Franz扩散池中进行;而对于离子电渗渗透,扩散池经过改造,在皮肤的同一侧包含供体电极和回流电极。阳极离子电渗法使用的电流密度为0.5 mA/cm²。使用的供体浓度为585.5 mg/ml(饱和溶液)和100 mg/ml。最初进行的确定文拉法辛离子转运效率的实验显示出有希望的结果。在两个浓度水平下,离子电渗法均比被动扩散法提高了渗透速率(P < 0.01),但令人惊讶的是,较低的供体药物载量获得了更高的稳态通量(P < 0.01)。不饱和溶液的适宜pH值被认为是造成这种效应的原因。当在供体中加入薄荷油进行离子电渗法时,观察到轻微的协同效应,但在被动扩散中未发现。当供体中包含0.1%的薄荷油时,实验中获得的最高稳态通量为3.279 μmol/cm²/h。由于盐酸文拉法辛的维持需求量约为9.956 μmol/h,结果表明该药物是离子电渗给药的有希望的候选药物。