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http://dx.doi.org/10.4333/KPS.2005.35.4.273

In Vivo Prediction and Biopharmaceutical Evaluation of Nicotine Transdermal Patch  

Lee, Woo-Young (Pharmaceutical Development Labs, SamChunDang Pharma. Co., LTD.)
Baek, Seung-Hee (Pharmaceutical Development Labs, SamChunDang Pharma. Co., LTD.)
Park, Eun-Seok (College of Pharmacy, SungKyunKwan University)
Chi, Sang-Cheol (College of Pharmacy, SungKyunKwan University)
Publication Information
Journal of Pharmaceutical Investigation / v.35, no.4, 2005 , pp. 273-278 More about this Journal
Abstract
Nicotine transdermal therapeutic systems $(TTS_S)$ have been regarded as an effective mean to aid smoking cessation. However, most of nicotine $TTS_S$ in the market have some problems such as unpleasant side effects and skin irritation due to the excess amount of the drug permeated and the properties of the additives employed. In order to solve these problems, new nicotine $TTS_S$ were formulated using biocompatible additives. The optimized formula of the drug layer consisted of nicotine, propylene glycol and poloxamer 188 at the ratio of 1.2: 17.0: 2.0. The drug layer had the sickness of $1,250\;{\mu}m$, the pH of 8.12. The skin permeation rate of nicotine from optimized nicotine patch (NP) was $21.5\;{\mu}g/cm^2/h$. Transdermal administration of nicotine patch has been carried out for the determination of pharmacokinetic parameters in rats. Steady-state plasma concentration of nicotine following transdermal application of NP (area of patch = $15\;cm^2$) on the dorsal skin of rats was 143.2 ng/ml and AUC for 24 hrs was 3,022 ng h/ml. In case of $EXODUS^{\circledR}$ and Nicotinell $TTS^{\circledR}$, the steady-state plasma concentration of nicotine and ACU for 24 hrs were 428.9 ng/ml, $9,121\;ng{\cdot}hr/ml$ and 155.3 ng/ml, $3,152\;ng{\cdot}h/ml$, respectively. NP showed the experimental plasma nicotine concentration profile was very similar to the simulated one and had an appropriate skin permeation rate and a steady-state concentration of nicotine, which can show therapeutic blood levels of the drug for 24 hrs without severe side effects.
Keywords
In vivo prediction; Nicotine patch; Biopharmaceutical evaluation;
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