The ultrasonic nebulization extraction(UNE) was developed and applied to the extraction of volatile components from traditional Chinese patent medicine Xiaoyao Pills. Several parameters of ultrasonic nebulization ex...The ultrasonic nebulization extraction(UNE) was developed and applied to the extraction of volatile components from traditional Chinese patent medicine Xiaoyao Pills. Several parameters of ultrasonic nebulization extraction including the sample particle size, solvent volume, extraction time and ultrasonic power were studied and selected. As a result, 2.4 g of sample with particle size of 80 mesh was extracted with 15 mL of n-hexane for 20 min at an ultrasonic power of 35 W. The volatile components were analyzed by gas chromatography-mass spectrometry (GC-MS) under the optimal conditions and 57 compounds were identified. The precision, repeatability and stability of the proposed method were also studied. Compared with ultrasonic-assisted extraction(UAE) and hydrodistillation(HD) extraction, the proposed method is more efficient, faster and easier to be operated at room temperature with smaller sample and energy consumption. It is suggested that the ultrasonic nebulization extraction can be used as a novel alternative method for the extraction of volatile components from traditional Chinese patent medicine.展开更多
目的研究中药挥发油透皮促渗苷类成分效果与对经皮水分散失量(Transepidermal water loss,TEWL)的相关性。方法采用HPLC法测定3种苷类成分(栀子苷、龙胆苦苷、芍药苷)的含量及油水分配系数,采用改良Franz扩散池法以离体SD大鼠腹部皮肤...目的研究中药挥发油透皮促渗苷类成分效果与对经皮水分散失量(Transepidermal water loss,TEWL)的相关性。方法采用HPLC法测定3种苷类成分(栀子苷、龙胆苦苷、芍药苷)的含量及油水分配系数,采用改良Franz扩散池法以离体SD大鼠腹部皮肤为透皮吸收屏障进行体外透皮实验,考察高良姜、干姜、薄荷、胡椒和吴茱萸5种中药挥发油对3种苷类成分的体外透皮促渗效果,采用经皮水分散失量评价5种中药挥发油对大鼠皮肤屏障功能的影响,通过相关性分析考察中药挥发油透皮促渗苷类成分效果与其对皮肤屏障功能影响之间的相关性。结果高良姜油、干姜油、薄荷油、胡椒油能促进3种苷类成分的透皮吸收,也能显著降低大鼠的皮肤屏障功能,相关性分析结果表明中药挥发油对苷类成分的透皮促渗效果与其对皮肤经皮水分散失量的影响显著相关。结论TEWL为中药挥发油透皮促渗剂的快速筛选提供了一种简便快捷的在体评价方法。展开更多
A novel magnetic method using polystyrene modified magnetic nanoparticles to perform thermoheadspace extraction was successfully developed for extraction and preconcentration of volatile organic components in dry Trad...A novel magnetic method using polystyrene modified magnetic nanoparticles to perform thermoheadspace extraction was successfully developed for extraction and preconcentration of volatile organic components in dry Traditional Chinese Medicine(TCM) based on gas chromatography-ion trap/mass spectrometry with a Chromato Probe direct sample introduction device. The dried fruit of Amomum testaceum Ridl. was used as the object TCM. The optimum parameters of headspace magnetic solid-phase extraction were investigated, in which desorption solvent ethyl acetate played a key role in this method,and the headspace extraction temperature of 90℃ and the headspace extraction time of 15 min finally decided. Headspace solid-phase microextraction method was also used to analyze volatile compounds in the TCM to compare with the proposed method. The results show that 60 components were identified totally by two methods; most of the low boiling point chemical compounds are isolated by this new method. In this work, an environmental-friendly and cheap analytical method was established, and a new approach to analyze volatile compounds in dry Traditional Chinese Medicine was also provided.展开更多
基金Supported by the Basic Research Foundation from Jilin University China(No.200903131)
文摘The ultrasonic nebulization extraction(UNE) was developed and applied to the extraction of volatile components from traditional Chinese patent medicine Xiaoyao Pills. Several parameters of ultrasonic nebulization extraction including the sample particle size, solvent volume, extraction time and ultrasonic power were studied and selected. As a result, 2.4 g of sample with particle size of 80 mesh was extracted with 15 mL of n-hexane for 20 min at an ultrasonic power of 35 W. The volatile components were analyzed by gas chromatography-mass spectrometry (GC-MS) under the optimal conditions and 57 compounds were identified. The precision, repeatability and stability of the proposed method were also studied. Compared with ultrasonic-assisted extraction(UAE) and hydrodistillation(HD) extraction, the proposed method is more efficient, faster and easier to be operated at room temperature with smaller sample and energy consumption. It is suggested that the ultrasonic nebulization extraction can be used as a novel alternative method for the extraction of volatile components from traditional Chinese patent medicine.
文摘目的研究中药挥发油透皮促渗苷类成分效果与对经皮水分散失量(Transepidermal water loss,TEWL)的相关性。方法采用HPLC法测定3种苷类成分(栀子苷、龙胆苦苷、芍药苷)的含量及油水分配系数,采用改良Franz扩散池法以离体SD大鼠腹部皮肤为透皮吸收屏障进行体外透皮实验,考察高良姜、干姜、薄荷、胡椒和吴茱萸5种中药挥发油对3种苷类成分的体外透皮促渗效果,采用经皮水分散失量评价5种中药挥发油对大鼠皮肤屏障功能的影响,通过相关性分析考察中药挥发油透皮促渗苷类成分效果与其对皮肤屏障功能影响之间的相关性。结果高良姜油、干姜油、薄荷油、胡椒油能促进3种苷类成分的透皮吸收,也能显著降低大鼠的皮肤屏障功能,相关性分析结果表明中药挥发油对苷类成分的透皮促渗效果与其对皮肤经皮水分散失量的影响显著相关。结论TEWL为中药挥发油透皮促渗剂的快速筛选提供了一种简便快捷的在体评价方法。
基金Support of this work by the Department of Education of Zhejiang Province (No. Pd2013016)Hangzhou Qianjiang Distinguished Experts Project (2014)+2 种基金the Science and Technology Department of Zhejiang Province (No. 2015C32006)Key Laboratory of Detection for Pesticide Residues of Ministry of Agriculture Projectthe Sprout Talented Project Program (No. 2011443)
文摘A novel magnetic method using polystyrene modified magnetic nanoparticles to perform thermoheadspace extraction was successfully developed for extraction and preconcentration of volatile organic components in dry Traditional Chinese Medicine(TCM) based on gas chromatography-ion trap/mass spectrometry with a Chromato Probe direct sample introduction device. The dried fruit of Amomum testaceum Ridl. was used as the object TCM. The optimum parameters of headspace magnetic solid-phase extraction were investigated, in which desorption solvent ethyl acetate played a key role in this method,and the headspace extraction temperature of 90℃ and the headspace extraction time of 15 min finally decided. Headspace solid-phase microextraction method was also used to analyze volatile compounds in the TCM to compare with the proposed method. The results show that 60 components were identified totally by two methods; most of the low boiling point chemical compounds are isolated by this new method. In this work, an environmental-friendly and cheap analytical method was established, and a new approach to analyze volatile compounds in dry Traditional Chinese Medicine was also provided.