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AIM: To investigate the effect of l menthol on percutaneous absorption of metronidazole through changing the skin character in rabbits. METHODS: Using rabbit skin with different character as transdermal barrier, and l menthol as transdermal enhancer, the absorbance of metronidazole was determined with a two cells diffusion apparatus in vitro, and its permeability was figured out. RESULTS: The transdermal action of l menthol on percutaneous absorption of metronidazole was very evident when the corneum was eliminated; l menthol and azone could increase the desposit function of metronidazole in the intact skin, but had no effect on the skin without corneum. The result also showed that the percutaneous absorption and intact skins desposit function of metronidazole had no difference between l menthol and azone. CONCLUSION: L menthol can increase the percutaneous absorption of metronidazole. The site of the action is mainly the corneum which has desposit function.
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AIM: To compare the permeation enhancing characters of menthol and azone on the model drug of indomethacin and to study the enhancing effect when the two agents were used in combination. METHODS: The transdermal test was conduced on the penetration experiment apparatus of isolated skin. The cumulate penetrated amount, penetrating rate, stable flux and lag time were calculated upon the concentrations. RESULTS: After adding the penetration enhancer, the penetrating rate of indomethacin increased remarkably. It was 6.21 , 4.91 and 6.92 times of that of the controls respectively. When used in combination, the two penetration enhancers increased much more the penetrating rate than being used separately (P
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AIM: To study the enhancing effect of penetration enhancer on percutaneous absorption of antifungal agents. METHODS: Percutaneous penetration experiment was performed on device in vitro, and the deposit effects were observed with vivoperception. RESULTS: Combination of 1-menthol (1%) and azone (1%) showed the best effect on percutaneous absorption of cidopicox olamine, and 1-menthol (1%) had the best effect on percutaneous absorption of salysic acid. The compound penetration enhancer, consisting of 1-menthol (1%), azone (1%), propylene glycol ( 2.5%) and oleic acid ( 2.5%), had prominent action on absorption of cidopirox olamine through rabbit skins, and shorten the lag times obviously. CONCLUSION: L-menthol and azone can significantly enhance the percutaneous absorption of both salysic acid and cidopicox olamine. Combination of 1-menthol and azone can further increase the absorption.c
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OBJECTIVE:Indomethacinum(Ind) and diclofenac sodium(Dcs) were taken as model drugs to study the enhancing effect of l-menthol on percutaneous absorption of two compounds with different characteristics,and to probe into the effect of combined use of l-menthol with azone.METHODS:Percutaneous penetration experiment was performed on in vitro device and deposit effect was observed with vivoperception.RESULTS:l-menthol could significantly enhance the percutaneous absorption and shorten the lag times(T1ag) of both Ind and Dcs.The enhancing effects of l-menthol,used either alone or in combination with azone,were several times stronger on Ind than on Dcs.Combined use of two enhances was more effective in enhancing penetration and longer in T1ag than single use of l-menthol,especially for Dcs.The study on deposit effect showed that l-menthol could increase the penetration rate than control agent(P
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OBJECTIVE:To observe the antifungal activity of azone against dermatophytes and candida albicans.METHO_ DS:The MIC of azone was determined by NCCLS M27,M38method and MTT assay.MFC was also determined.RESULTS:MIC and MFC of azone against dermatophytes were0.02%and0.08%respectively.CONCLUSION:Azone has significant action in inhibiting candida albicans and fungicidal effect on dermatophytes.