OBJECTIVE To study regularity of different components whose skin permeability is enhanced by essential oils(EOs)from traditional Chinese medicine(TCM)with hot property.METHODS Five EOs from TCM with hot property,namely Galangal oil,Dried Ginger oil,Cinnamon oil,Pepper oil,and Evodia oil were prepared and used in further studies.The in vitro skin cytotoxici-ty of these EOs and chemical penetration enhancer(PE)Azone were compared.HPLC method was established to determine 9 TCM components that are usually used in permeation studies.And the in vitro permeation experiments were carried out using the modified Franz diffusion cell method to evaluate the penetration enhancement effects of five EOs.RESULTS The cytotoxicity test revealed the IC50 value of EOs was 3.63-8.15 times of that of Azone,the classical chemical PE.HPLC method showed perfect specificity and 9 TCM components performed well in linear relationship,precision,repeatability,stability,and average recovery rate.The results of multiple linear regression showed a significant association between the penetration enhancement effects of EOs from TCM with hot prop-erty and log P values of the TCM components.EOs from TCM with hot property showed satisfactory penetration enhancement effects for hydrophobic components with log P values in the range of 2.6-3.5,e.g.resveratrol,tetrahydropalmatine and quercetin.CONCLU-SION EOs from TCM with hot property should be reasonably selected as PE according to the oil-water partition coefficient of the in-gredients.

OBJECTIVE To study regularity of different components whose skin permeability is enhanced by essential oils(EOs)from traditional Chinese medicine(TCM)with hot property.METHODS Five EOs from TCM with hot property,namely Galangal oil,Dried Ginger oil,Cinnamon oil,Pepper oil,and Evodia oil were prepared and used in further studies.The in vitro skin cytotoxici-ty of these EOs and chemical penetration enhancer(PE)Azone were compared.HPLC method was established to determine 9 TCM components that are usually used in permeation studies.And the in vitro permeation experiments were carried out using the modified Franz diffusion cell method to evaluate the penetration enhancement effects of five EOs.RESULTS The cytotoxicity test revealed the IC50 value of EOs was 3.63-8.15 times of that of Azone,the classical chemical PE.HPLC method showed perfect specificity and 9 TCM components performed well in linear relationship,precision,repeatability,stability,and average recovery rate.The results of multiple linear regression showed a significant association between the penetration enhancement effects of EOs from TCM with hot prop-erty and log P values of the TCM components.EOs from TCM with hot property showed satisfactory penetration enhancement effects for hydrophobic components with log P values in the range of 2.6-3.5,e.g.resveratrol,tetrahydropalmatine and quercetin.CONCLU-SION EOs from TCM with hot property should be reasonably selected as PE according to the oil-water partition coefficient of the in-gredients.

Acute hepatic failure (AHF) is a severe liver disease associated with a variety of clinical symptoms . AHF is difficult to treat and with a high mortality rate.Therefore, it is necessary to establish animal models of AHF for the investigation of therapy.In this article, the preparation methods of AHF animal models are reviewed which are applicable to different types of animals.

This study investigated the ability of millimeter-wave (MMW) to promote the differentiation of bone marrow stromal cells (BMSCs) into cells with a neural phenotype. The BMSCs were primarily cultured. At passage 3, the cells were induced by beta-mercaptoethanol (BME) in combination with MMW or BME alone. The expressions of nucleostemin (NS) and neuron-specific enolase (NSE) were detected by immunofluorescent staining and Western blotting respectively to identify the differentiation. The untreated BMSCs predominately expressed NS. After induced by BME and MMW, the BMSCs exhibited a dramatic decrease in NS expression and increase in NSE expression. The differentiation rate of the cells treated with BME and MMW in combination was significantly higher than that of the cells treated with BME alone (P<0.05). It was concluded that MMW exposure enhanced the inducing effect of BME on the differentiation of BMSCs into cells with a neural phenotype.

t of the cells treated with BME alone (P<0.05). It was concluded that MMW exposure enhanced the induc-ing effect of BME on the differentiation of BMSCs into cells with a neural phenotype.