ABSTRACT
ObjectiveTo study the differences in volatile oil content of bran-processed Atractylodes lancea and its standard decoction concentrate and freeze-dried powder, as well as the differences in the types and contents of chemical components in volatile oil, and to clarify the quality value transmitting. MethodTen batches of A. lancea rhizoma were collected and prepared into raw products and bran-processed products of A. lancea, standard decoction concentrate and freeze-dried powder of bran-processed A. lancea in order to extract the volatile oil, and the transfer rate of volatile oil in each sample was calculated. Quantitative analysis of the main chemical components(β-eudesmol, atractylon, atractylodin) in each volatile oil was performed by gas chromatography(GC) on the HP-5 quartz capillary column(0.32 mm×30 m, 0.25 μm) with a flame ionization detector(FID), a split ratio of 10∶1 and a temperature program(initial temperature at 80 ℃, hold for 1 min, rise to 150 ℃ at 10 ℃·min-1, hold for 10 min, rise to 155 ℃ at 0.5 ℃·min-1, hold for 5 min, rise to 240 ℃ at 8.5 ℃·min-1, hold for 8 min). Cluster analysis and principal component analysis(PCA) were used to explore the overall differences in types and contents of chemical components between the standard decoction concentrate and freeze-dried powder. ResultThe transfer rates of volatile oil in the bran-processed products, standard decoction concentrate and freeze-dried powder were 70.51%, 1.57% and 40.90%, respectively. The average transfer rates of β-eudesmol, atractylon and atractylodin in the volatile oil of bran-processed A. lancea were 58.45%, 48.49% and 55.64%, respectively. In the standard decoction concentrate, only β-eudesmol and atractylodin were detected, and their average transfer rates were 0.22% and 0.10%, respectively. And only β-eudesmol was detected in the freeze-dried powder with the average transfer rate of 8.37%. The results of cluster analysis and PCA showed that there are obvious differences in the types and contents of chemical components between the standard decoction concentrate and freeze-dried powder. ConclusionThe quality value transmitting between bran-processed A. lancea and its standard decoction concentrate and freeze-dried powder is stable, and if the freeze-dried powder is selected as the reference material of dispensing granules, appropriate amount of volatile oil should be added back to make it consistent with the quality of the standard decoction concentrate.
ABSTRACT
OBJECTIVE To compare t he diff erences of the fingerprint and in vitro antioxidant activity between decoction pieces of Polygonum cuspidatum by integrated technology of habitat processing and processing (short for IPDP )and traditional processing decoction pieces (short for TPDP ). METHODS Ten batches of IPDP and ten batches of TPDP were prepared by integrated technology and traditional technology ,respectively. HPLC method was used to establish and compare the fingerprints of IPDP and TPDP. The scavenging rates of DPPH free radical ,ABTS free radical ,superoxide free radical and hydroxyl free radical and reducing activity of Fe 3+ were detected for IPDP and TPDP. In vitro antioxidant activities were compared between IPDP and TPDP. RESULTS There were 11 common peaks in the fingerprints of IPDP and TPDP ,among which 17 came from IPDP and 13 came from TPDP. The peak heights of peak 6(polydatin)and peak 15(emodin-8-O-β-D-glucoside)in IPDP were significantly higher than those in the TPDP ,and the peak heights of peak 13(resveratrol),peak 17(emodin)and peak 19(physcion)in the TPDP were significantly higher than those in the IPDP. The results of in vitro antioxidant test showed that IPDP and TPDP had a certain scavenging capacity on DPPH free radical ,ABTS free radical ,superoxide free radical and hydroxyl free radicals ,and also had a certain reducing capacity on Fe 3+. CONCLUSIONS The integrated processing technology of P. cuspidatum has a good retention effect on the glycosides in P. cuspidatum ,and the in vitro antioxidant activity of IPDP is stronger than that of TPDP.