Qing-Guo Ru scite author profile

The aim of this paper was to investigate and compare the penetration-enhancing characteristics of menthol and essential oil from Mentha haplocalyx(M.haplocalyx oil) on the transdermal absorption of the complex traditional Chinese medicine(TCM) components. A series of TCM components were selected as model drugs based on their lipophilicity (logP value), namely osthole(OT, logP=3.85), tetramethylpyrazine(TMP, logP=2.34), ferulic acid(FA, logP=1.26), puerarin(PR, logP=-0.35) and geniposide(GP, logP=-1.01), in order to simply and characterize the TCM complex components system. Transdermal experiment in vitro was employed to investigate and compare the penetration-enhancing characteristics of menthol and M.haplocalyx oil on the transdermal absorption of these model drugs. Meanwhile, Fourier transform infrared spectroscopy(FTIR) was used to further compare the effect of menthol and M. haplocalyx oil on the molecular structure of stratum corneum(SC). The results showed that both of menthol and M.haplocalyx oil at proper concentration could promote the transdermal absorption of the selected model drugs. After application of menthol, the drug logP values gradually tended to have negative linear relationship with the logarithm of penetration enhancement ratio(ER); while after application of M.haplocalyx oil, the logP values tended to have parabolic relationship with the logarithm of ER. However, both menthol and M.haplocalyx oil exhibited higher efficiency for the drugs with relative low lgP value(ie hydrophilic drugs), with similar penetration-enhancing characteristics between these two. Infrared spectroscopy results showed that menthol and M.haplocalyx oil could affect the skin barrier functions mainly via stratum corneum lipids, with similar effect intensity, and this was consistent with the results of transdermal experiment in vitro. Thus, Menthol had similar penetration-enhancing characteristics with M.haplocalyx oil, and had same effect on the SC molecular structure. Therefore, as transdermal penetration enhancer, the menthol with single composition could be considered to replace M.haplocalyx oil with complex compositions.

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Matrix formulation of chaizhi cataplasma optimized by D-optimal mixture design combined with multiple mechanical indicators and its in vitro evaluation

Zhang

Wang

et al. 2016

CJCMM

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To optimize the matrix formulation of Chaizhi cataplasma (CC) and investigate its release and transdermal absorption properties in vitro. The optimized matrix formulation of cataplasma containing liquid herbal extract is determined by using D-optimal mixture design, with initial bonding strength, endurance bonding strength and gel strength as the evaluating indicators. Modified Franz diffusion cells were used to study the in vitro release and transdermal absorption of geniposide in CC. The optimized matrix formulation of CC contained NP700, aluminum glycinate, tartaric acid, glycerin, PVPK90 and water (9∶0.7∶0.8∶30∶5∶30.5). Cumulative release rate of geniposide in CC was (77.02±3.73)% in 24 h. The percutaneous penetration rate of geniposide was 7.25 μg•cm⁻²•h⁻¹ and the 24 h permeated amount was (156.22±4.90) μg•cm⁻². The optimized CC prepared by the D-optimal mixture design showed a good adhesion and formability. The in vitro release of the geniposide in CC was in accordance with the first order equation, while its in vitro transdermal absorption was close to the zero order equation.

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Optimize preparation parameters of colon-specific pellets of Angelica Sinensis Radix supercritical fluid extraction with response surface analysis methodology

Peng

et al. 2016

CJCMM

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To prepare pellets of supercritical fluid extraction (SFE) of Angelica Sinensis Radix by using the ionic crosslinking method, and the drug loading and encapsulation efficiency were used as the index to investigate the multiple factors which may impact the drug loading and encapsulation efficiency. Box-Behnken design and response surface analysis method were then taken to optimize the prescription of pellets and study the coating technology. Through the study on the release of pellets in vitro, an optimal coating technology and prescription of colon-specific pellets of Angelica Sinensis Radix SFE were selected and their colon targeting was evaluated. The optimal preparation parameters of pellets were determined as follows： 3% pectin; 4∶1 for pectin/lecithin; 4∶5 for pectin/SFE of Angelica Sinensis Radix; 4% zinc acetate solution as crosslinking agent, blending temperature 35 ℃, crosslinking temperature 35 ℃, crosslinking time 30 min; coating technology： coating material Eudragit FS 30D, 1.5% triethyl citrate and polyoxyethylene sorbitan monooleate（tween-80）, 1.2% monostearin and 15% coating weight gained. The colon-specific pellets of Angelica Sinensis Radix SFE prepared with optimized conditions were almost not released in simulated gastric fluid in 2 h, released less than 20% in simulated intestine fluid in 4 h, and released more than 90% in simulated colon fluid in 6 h, indicating that the colon-specific pellets of Angelica Sinensis Radix SFE had an excellent colon targeting property.

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Qing-Guo Ru

On-line monitoring the extract process of Fu-fang Shuanghua oral solution using near infrared spectroscopy and different PLS algorithms

Effect of co-existent components in CO2 supercritical fluid extract of Angelica Sinensis Radix on metabolism of Z-ligustilide after oral administration in rats

Comparison of essential oil from Mentha haplocalyx and menthol used as penetration enhancers

Matrix formulation of chaizhi cataplasma optimized by D-optimal mixture design combined with multiple mechanical indicators and its in vitro evaluation

Optimize preparation parameters of colon-specific pellets of Angelica Sinensis Radix supercritical fluid extraction with response surface analysis methodology

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