Objective:To compare the effects of different drying methods on the chemical constituents of Trichosanthis Fructus. Method:Trichosanthis Fructus was dried by means of air drying， sun drying， hot air drying （40， 60， 80 ℃） and variable temperature drying （50-80， 80-50 ℃）. The contents of nucleosides and flavonoids in Trichosanthis Fructus peels and seeds treated by different methods were compared by high performance liquid chromatography （HPLC）， mobile phase was acetonitrile-0.2% acetic acid aqueous solution （3∶7） （A）-acetonitrile （B） for gradient elution （0-15 min， 97-95%B； 15-30 min， 95%-90%B； 30-35 min， 90%-87%B； 35-40 min， 87%-86.5%B； 40-48 min， 86.5%-97%B； 48-50 min， 97%B）， the detection wavelength was 260 nm， and the flow rate was 0.4 mL·min^-1. Gas chromatography-ion mobility spectrometry （GC-IMS） was used to compare the changes of volatile components in the samples treated by different treatments. The volatile components were incubated on a SE-54 capillary column （0.32 mm×30 m， 0.25 μm） at 80 ℃ and 500 r·min^-1 for 15 min， the injection temperature was 85 ℃， the injection volume was 400 μL， the analysis time was 35 min， carrier gas was high purity nitrogen， the flow rate of carrier gas was 2.0 mL·min^-1， the flow rate of drift gas was 150 mL·min^-1， and the temperature of IMS detector was 45 ℃. Result:The contents of uridine， adenosine and adenine were higher after hot air drying at >50 ℃. Low temperature drying was conducive to maintaining the stability of cytidine， cytosine， rutin， luteolin and 2ʹ-deoxyadenosine. GC-IMS technology could realize the analysis and identification of Trichosanthis Fructus samples after different treatments. There were more volatile components after hot air drying at 80 ℃ and variable temperature drying. Conclusion:Hot air drying at 40 ℃ and 60 ℃ can retain nucleosides and flavonoids， and the volatile components are similar to those in traditional drying methods， which has the advantages of high efficient， controllable and suitable for industrial production.

Panacis Quinquefolii Radix is the dry root of Panax quinquefolium, which is a perennial plant of Araliaceae. The plant has a long growth cycle and serious growth barrier problem, which leads to the use of pesticides. As a result, the pesticide residues in Panacis Quinquefolii Radix are arousing great concern. This paper reviews the research findings on the investigation, detection methods, content analysis and risk assessment of pesticide residues in Panacis Quinquefolii Radix since 1993, and compares the pesticide residue limit standards of different countries and regions. The pesticide residues in Panacis Quinquefolii Radix have been changing from organochlorines with high toxicity to triazines and triazoles with low toxicity. The pesticide residues are generally low, while the pollution of pentachloronitrobenzene and other pesticides still exist. The detection method has evolved from chromatography to chromatography-mass spectrometry. There are no reports of health risks caused by pesticide residues of Panacis Quinquefolii Radix. Pesticide residue is a major factor restricting the sound development of Panacis Quinquefolii Radix industry in China. Therefore, we suggest to improve the registration of pesticides applied to the plant, popularize mature ecological planting mode and supporting technology, and strengthen the research on the risk assessment and limit standard of pesticide residue in Panacis Quinquefolii Radix.
Drugs, Chinese Herbal/chemistry* ; Ginsenosides/analysis* ; Mass Spectrometry ; Panax/chemistry* ; Pesticide Residues/analysis*