[Quality value transfer of substance benchmarks in Sanpian Decoction].

According to the polarity of different components in Sanpian Decoction, two fingerprints were established. Then the substance benchmark freeze-dried powder of 15 batches of Sanpian Decoction was prepared, followed by the determination of the fingerprints, index component content, and dry extract rates, the identification of attribution of characteristic peaks, and the calculation of similarities between these fingerprints and the reference(R), the content and transfer rate ranges of ferulic acid, sinapine thiocyanate, liquiritin, and glycyrrhizic acid, and the dry extract rate range. The results showed that the similarities of 15 batches of the substance benchmark fingerprints with R were all greater than 0.900.Further summarization of the characteristic peaks revealed that there were a total of 20 characteristic peaks in fingerprint 1, among which, eight were from Sinapis Semen, four from Paeoniae Radix Alba, six from Chuanxiong Rhizoma, and two from Glycyrrhizae Radix et Rhizoma. A total of 16 characteristic peaks were observed in fingerprint 2, including one from Sinapis Semen, three from Paeoniae Radix Alba, eight from Chuanxiong Rhizoma, and four from Glycyrrhizae Radix et Rhizoma. The average dry extract rate of 15 batches of substance benchmarks was 18.25%, with a dry extract rate range of 16.28%-20.76%. The index component content and transfer rate ranges were listed as follows: 0.15%-0.18% and 38.81%-58.05% for ferulic acid; 0.26%-0.42% and 36.51%-51.02% for sinapine thiocyanate; 0.09%-0.15% and 48.80%-76.61% for liquiritin; 0.13%-0.24% and 23.45%-35.61% for glycyrrhizic acid. The fingerprint, dry extract rate, and index component content determination was combined for analyzing the quality value transfer of substance benchmarks in the classic prescription Sanpian Decoction.The established quality evaluation method for the substance benchmarks was stable and feasible, which has provided a basis for the quality control of Sanpian Decoction and the follow-up development of related preparations.

[Quality value transmitting of substance benchmarks of Zhuru Decoction].

A total of 18 batches of Zhuru Decoction samples were prepared. Chromatographic fingerprints were established for Zhuru Decoction and single decoction pieces, the content of which was then determined. The extraction rate ranges, content, and transfer rate ranges of puerarin, liquiritin, and glycyrrhizic acid, together with the common peaks and the similarity range of the fingerprints, were determined to clarify key quality attributes of Zhuru Decoction. The 18 batches of Zhuru Decoction samples had 25 common peaks and the fingerprint similarity higher than 0.95. Puerariae Lobatae Radix, Glycyrrhizae Radix et Rhizoma, and Zingiberis Rhizoma Recens had 21, 3, and 1 characteristic peaks, respectively. The 18 batches of samples showed the extraction rates within the range of 18.45%-25.29%. Puerarin had the content of 2.20%-3.07% and the transfer rate of 38.5%-45.9%; liquiritin had the content of 0.24%-0.85% and the transfer rate of 15.9%-37.5%; glycyrrhizic acid had the content of 0.39%-1.87% and the transfer rate of 16.2%-32.8%. In this paper, the quality value transmitting of substance benchmarks of Zhuru Decoction was analyzed based on chromatographic fingerprints, extraction rate, and the content of index components. A scientific and stable method was preliminarily established, which provided a scientific basis for the quality control and formulation development of Zhuru Decoction.

[Quality value transmitting of substance benchmarks in Danggui Buxue Decoction].

To clarify the key quality attributes of substance benchmarks in Danggui Buxue Decoction(DBD), this study prepared 21 batches of DBD substance benchmarks, and established two methods for detecting their fingerprints, followed by the identification of peak attribution and similarity range as well as the determination of extract and transfer rate ranges and contents of index components ferulic acid, calycosin-7-O-ß-D-glucoside, and astragaloside Ⅳ. The mass fractions and transfer rates of DBD substance benchmarks from different batches were calculated as follows: ferulic acid(index component in Angelicae Sinensis Radix): 0.037%-0.084% and 31.41%-98.88%; astragaloside Ⅳ(index component in Astragali Radix): 0.021%-0.059% and 32.18%-118.57%; calycosin-7-O-ß-D-glucoside: 0.002%-0.023% and 11.51%-45.65%, with the extract rate being 18.4%-36.1%. The similarity of fingerprints among 21 batches of DBD substance benchmarks was all higher than 0.9. The quality control method for DBD substance benchmarks was preliminarily established based on the HPLC fingerprint analysis and index component determination, which has provided a basis for the subsequent development of DBD and the quality control of novel related preparations.

[Quality value transfer of substance benchmarks in Huanglian Decoction].

Following the preparation of substance benchmarks in Huanglian Decoction from 18 batches, the method for detecting their characteristic spectra was established to identify the similarity range and peak attribution. The content and transfer rate ranges of the index components coptisine, palmatine, berberine, liquiritin, glycyrrhizic acid, 6-gingerol, and cinnamaldehyde and the extraction amount were combined for analyzing the quality value transfer from the Chinese medicinal pieces to substance benchmarks and clarifying the key quality attributes of substance benchmarks in Huanglian Decoction. The results showed that the substance benchmarks in Huang-lian Decoction of 18 batches exhibited good similarity in characteristic spectra(all greater than 0.98). There were 17 characteristic peaks identified in the substance benchmarks of Huanglian Decoction, including 10 from Coptidis Rhizoma, 3 from Glycyrrhizae Radix Et Rhizoma Praeparata Cum Melle(processed with water), 1 from Zingiberis Rhizoma, and 3 from Cinnamomi Ramulus. The contents and average transfer rates of the index components were listed as follows: coptisine 2.20-6.46 mg·g~(-1) and 18.50%±2.93%; palmatine 3.03-8.13 mg·g~(-1) and 26.56%±4.69%; berberine 7.71-22.29 mg·g~(-1) and 17.34%±3.00%; liquiritin 0.88-2.18 mg·g~(-1) and 9.88%±4.88%; glycyrrhizic acid 1.83-4.44 mg·g~(-1) and 8.50%±3.72%; 6-gingerol 0.56-1.43 mg·g~(-1) and 11.36%±2.37%; cinnamaldehyde 1.55-3.48 mg·g~(-1) and 19.02%±4.36%. The extraction amount of the substance benchmarks from the 18 batches was controlled at 10.65%-13.88%. In this paper, the quality value transfer of substance benchmarks in Huanglian Decoction was analyzed based on the characteristic spectra, the index component contents and the extraction amount, which has provided a basis for the subsequent development of Huanglian Decoction and the quality control of its related preparations.

Quality value transfer of substance benchmarks in Sanpian Decoction / 中国中药杂志

According to the polarity of different components in Sanpian Decoction, two fingerprints were established. Then the substance benchmark freeze-dried powder of 15 batches of Sanpian Decoction was prepared, followed by the determination of the fingerprints, index component content, and dry extract rates, the identification of attribution of characteristic peaks, and the calculation of similarities between these fingerprints and the reference(R), the content and transfer rate ranges of ferulic acid, sinapine thiocyanate, liquiritin, and glycyrrhizic acid, and the dry extract rate range. The results showed that the similarities of 15 batches of the substance benchmark fingerprints with R were all greater than 0.900.Further summarization of the characteristic peaks revealed that there were a total of 20 characteristic peaks in fingerprint 1, among which, eight were from Sinapis Semen, four from Paeoniae Radix Alba, six from Chuanxiong Rhizoma, and two from Glycyrrhizae Radix et Rhizoma. A total of 16 characteristic peaks were observed in fingerprint 2, including one from Sinapis Semen, three from Paeoniae Radix Alba, eight from Chuanxiong Rhizoma, and four from Glycyrrhizae Radix et Rhizoma. The average dry extract rate of 15 batches of substance benchmarks was 18.25%, with a dry extract rate range of 16.28%-20.76%. The index component content and transfer rate ranges were listed as follows: 0.15%-0.18% and 38.81%-58.05% for ferulic acid; 0.26%-0.42% and 36.51%-51.02% for sinapine thiocyanate; 0.09%-0.15% and 48.80%-76.61% for liquiritin; 0.13%-0.24% and 23.45%-35.61% for glycyrrhizic acid. The fingerprint, dry extract rate, and index component content determination was combined for analyzing the quality value transfer of substance benchmarks in the classic prescription Sanpian Decoction.The established quality evaluation method for the substance benchmarks was stable and feasible, which has provided a basis for the quality control of Sanpian Decoction and the follow-up development of related preparations.

Quality value transmitting of substance benchmarks in Danggui Buxue Decoction / 中国中药杂志

To clarify the key quality attributes of substance benchmarks in Danggui Buxue Decoction(DBD), this study prepared 21 batches of DBD substance benchmarks, and established two methods for detecting their fingerprints, followed by the identification of peak attribution and similarity range as well as the determination of extract and transfer rate ranges and contents of index components ferulic acid, calycosin-7-O-β-D-glucoside, and astragaloside Ⅳ. The mass fractions and transfer rates of DBD substance benchmarks from different batches were calculated as follows: ferulic acid(index component in Angelicae Sinensis Radix): 0.037%-0.084% and 31.41%-98.88%; astragaloside Ⅳ(index component in Astragali Radix): 0.021%-0.059% and 32.18%-118.57%; calycosin-7-O-β-D-glucoside: 0.002%-0.023% and 11.51%-45.65%, with the extract rate being 18.4%-36.1%. The similarity of fingerprints among 21 batches of DBD substance benchmarks was all higher than 0.9. The quality control method for DBD substance benchmarks was preliminarily established based on the HPLC fingerprint analysis and index component determination, which has provided a basis for the subsequent development of DBD and the quality control of novel related preparations.

Quality value transfer of substance benchmarks in Huanglian Decoction / 中国中药杂志

Following the preparation of substance benchmarks in Huanglian Decoction from 18 batches, the method for detecting their characteristic spectra was established to identify the similarity range and peak attribution. The content and transfer rate ranges of the index components coptisine, palmatine, berberine, liquiritin, glycyrrhizic acid, 6-gingerol, and cinnamaldehyde and the extraction amount were combined for analyzing the quality value transfer from the Chinese medicinal pieces to substance benchmarks and clarifying the key quality attributes of substance benchmarks in Huanglian Decoction. The results showed that the substance benchmarks in Huang-lian Decoction of 18 batches exhibited good similarity in characteristic spectra(all greater than 0.98). There were 17 characteristic peaks identified in the substance benchmarks of Huanglian Decoction, including 10 from Coptidis Rhizoma, 3 from Glycyrrhizae Radix Et Rhizoma Praeparata Cum Melle(processed with water), 1 from Zingiberis Rhizoma, and 3 from Cinnamomi Ramulus. The contents and average transfer rates of the index components were listed as follows: coptisine 2.20-6.46 mg·g~(-1) and 18.50%±2.93%; palmatine 3.03-8.13 mg·g~(-1) and 26.56%±4.69%; berberine 7.71-22.29 mg·g~(-1) and 17.34%±3.00%; liquiritin 0.88-2.18 mg·g~(-1) and 9.88%±4.88%; glycyrrhizic acid 1.83-4.44 mg·g~(-1) and 8.50%±3.72%; 6-gingerol 0.56-1.43 mg·g~(-1) and 11.36%±2.37%; cinnamaldehyde 1.55-3.48 mg·g~(-1) and 19.02%±4.36%. The extraction amount of the substance benchmarks from the 18 batches was controlled at 10.65%-13.88%. In this paper, the quality value transfer of substance benchmarks in Huanglian Decoction was analyzed based on the characteristic spectra, the index component contents and the extraction amount, which has provided a basis for the subsequent development of Huanglian Decoction and the quality control of its related preparations.

Quality value transmitting of substance benchmarks of Zhuru Decoction / 中国中药杂志

A total of 18 batches of Zhuru Decoction samples were prepared. Chromatographic fingerprints were established for Zhuru Decoction and single decoction pieces, the content of which was then determined. The extraction rate ranges, content, and transfer rate ranges of puerarin, liquiritin, and glycyrrhizic acid, together with the common peaks and the similarity range of the fingerprints, were determined to clarify key quality attributes of Zhuru Decoction. The 18 batches of Zhuru Decoction samples had 25 common peaks and the fingerprint similarity higher than 0.95. Puerariae Lobatae Radix, Glycyrrhizae Radix et Rhizoma, and Zingiberis Rhizoma Recens had 21, 3, and 1 characteristic peaks, respectively. The 18 batches of samples showed the extraction rates within the range of 18.45%-25.29%. Puerarin had the content of 2.20%-3.07% and the transfer rate of 38.5%-45.9%; liquiritin had the content of 0.24%-0.85% and the transfer rate of 15.9%-37.5%; glycyrrhizic acid had the content of 0.39%-1.87% and the transfer rate of 16.2%-32.8%. In this paper, the quality value transmitting of substance benchmarks of Zhuru Decoction was analyzed based on chromatographic fingerprints, extraction rate, and the content of index components. A scientific and stable method was preliminarily established, which provided a scientific basis for the quality control and formulation development of Zhuru Decoction.

[Analysis on quality value transfer of substance benchmarks of Qingwei San].

By preparing 10 batches of substance benchmarks freeze-drying powder( lyophilized powder),the methodology of the characteristic spectrum and the content of index component for substance benchmarks of Qingwei San was established. The characteristic peaks and the similarity range of the characteristic spectrum,the contents and the transfer rate range of isoferulic acid,palmatine and paeonol,and the paste-forming rate range were determined to define key quality attributes of substance benchmarks of Qingwei San. In the10 batches of substance benchmarks of Qingwei San,the similarity of characteristic spectrum was higher than 0. 90. In further comparison of the characteristic peak information,a total of 16 characteristic peaks were identified,including 5 characteristic peaks from Cimicifugae Rhizoma,5 characteristic peaks from Coptidis Rhizoma,2 characteristic peaks from Angelicae Sinensis Radix and 4 characteristic peaks from Moutan Cortex. The content of isoferulic acid was 0. 10%-0. 18%,with the average transfer rate of 49. 82%±4. 02%. The content of palmatine was 0. 17%-0. 31%,with the average transfer rate of 15. 84% ±2. 39%. The content of paeonol was 0. 41%-0. 75%,with the average transfer rate of 23. 41%±3. 23%. The paste-forming rate of the 10 batches of substance benchmarks were controlled at 27%-33%,with the transfer rate between the theoretical paste-forming rate and the actual paste-forming rate was 86. 59%±3. 39%. In this study,the quality value transfer of substance benchmarks of Qingwei San was analyzed by the combination of characteristic spectrum,the content of index component and the paste-forming rate. A scientific and stable evaluation method was preliminarily established,so as to provide the basis for subsequent development and quality control of relevant preparations of Qingwei San.

[Analysis on quality value transfer of substance benchmarks of Taohong Siwu Decoction].

By preparing 15 batches of substance benchmarks of Taohong Siwu Decoction, the methodology of the characteristic spectrums of substance benchmarks was established. The paste-forming rate range, the contents and the transfer rate range of the index components, hydroxy safflower yellow A, ferulic acid and paeoniflorin, the characteristic peaks and the similarity range of the characteristic spectrums of Taohong Siwu Decoction were determined to define key quality attributes of substance benchmarks of Taohong Siwu Decoction.In the 15 batches of substance benchmarks of Taohong Siwu Decoction, the similarity of characteristic spectrums was higher than 0.9. Furthermore, based on summarization of the characteristic peak information, there were 13 characteristic peaks in the whole decoction. Baishao had three characteristic peaks, Honghua had seven characteristic peaks, and Chuanxiong and Danggui had three characteristic peaks. The paste-forming rate of the 15 batches of substance benchmarks was controlled at 33.11%-40.62%. The content of hydroxy safflower yellow A was 0.129%-0.203%, with the average transfer rate of 16.596%±0.669%.The content of ferulic acid was 0.043%-0.055%, with the average transfer rate of 20.489%±1.772%.The content of paeoniflorin was 0.676%-0.943%, with the average transfer rate of 29.112%±3.273%.The quality value transfer of substance benchmarks of classical prescription Taohong Siwu Decoction was analyzed by the combination of characteristic spectrums, paste-forming rate and the content of index components. The established substance benchmark quality evaluation method was stable and feasible, and could provide a basis for quality control and subsequent development of relevant preparations of Taohong Siwu Decoction.

[Analysis on quality value transfer of substance benchmarks of Zhenwu Decoction].

By preparing 15 batches of Zhenwu Decoction substance benchmarks,the characteristic map,index component content and paste-forming rate were determined to define the peak attribution,similarity range,paste-forming rate range,paeoniflorin and6-gingerol content range and transfer rate range. The similarity between the substance benchmark characteristic map and the control map R generated from the 15 batches of substance benchmarks was higher than 0. 970. There were 19 characteristic peaks in total. By further summarization of the characteristic peaks,it could be seen that tuckahoe had 3 characteristic peaks,white peony root had 10 characteristic peaks,atractylodes had 3 characteristic peaks,ginger had 1 characteristic peak,and Aconite root had 3 characteristic peaks; among them,white peony root and aconite root had 1 common peak. The contents and transfer rates of the 15 batches were0. 50%-0. 93 and 16. 11%-26. 20%; those for 6-gingerol were 0. 018 2%-0. 033 9% and 13. 16%-24. 10%,respectively. The pasteforming rate ranged from 10. 00% to 14. 85%. In this study,the transfer process of substance benchmark value of classic formula Zhenwu Decoction was analyzed based on the characteristic map,the paste-forming rate and the content of the index components; a scientific and stable substance benchmark quality evaluation method was preliminarily established to provide a basis for subsequent development of classic formula Zhenwu Decoction and quality control of relevant preparations.

Analysis on Quality Transmitting of Substance Benchmarks of Yihuangtang / 中国实验方剂学杂志

Objective:To explore the quality transmitting relationship between decoction pieces and substance benchmarks with the fingerprint， index component content and dry extract rate as evaluation indexes， and investigate the key quality attributes of 15 batches of substance benchmarks of Yihuangtang， and establish the quality standard of this substance benchmarks. Method:Fifteen batches of Yihuangtang substance benchmarks freeze-dried powder samples were prepared， the fingerprint and index component content of 15 batches of decoction pieces and substance benchmarks were determined by high performance liquid chromatography （HPLC）， the mobile phase was acetonitrile （A）-0.1% phosphoric acid aqueous solution （B） for gradient elution （0-6 min， 97%B； 6-12 min， 97%-92%B； 12-25 min， 92%-90%B； 25-35 min， 90%-89%B； 35-50 min， 89%-82%B； 50-75 min， 82%-72%B； 75-85 min， 72%-35%B）， the detection wavelength was set at 230 nm， combined the dry extract rate to clarify the attribution of characteristic peaks and the range of similarity with the control chromatogram， the content range and transfer rate range of geniposidic acid and berberine hydrochloride， the dry extract rate range and the variation range of the substance benchmarks. Result:The established HPLC fingerprint had good precision， repeatability and stability， and could be used for the simultaneous determination of decoction pieces and substance benchmarks of Yihuangtang. The similarities between the control chromatogram and fingerprint of substance benchmarks were >0.99. A total of 15 characteristic peaks were assigned， and 8 characteristic peaks were identified by the reference substances， of which 6 were from Phellodendri Chinensis Cortex processed with salt， 1 was from Plantaginis Semen processed with wine， and 1 was from stir-fried Dioscoreae Rhizoma. The content ranges of geniposidic acid and berberine hydrochloride in 15 batches of substance benchmarks of Yihuangtang were 0.10%-0.16% and 0.63%-1.05%， the transfer rate ranges of them were 20.91%-32.65% and 19.60%-29.59%， respectively. The dry extract rate range of the substance benchmarks was 8.45%-9.92%. Conclusion:The quality standard of Yihuangtang substance benchmarks can be preliminarily formulated by the combination of fingerprint， dry extract rate and determination of index component， which can provide the basis for the quality control of Yihuangtang and the development of related preparations.

HPLC Fingerprint Analysis of Substance Benchmark of Xiao Chengqitang / 中国实验方剂学杂志

Objective:To establish a high performance liquid chromatography （HPLC） fingerprint of the substance benchmark of Xiao Chengqitang and evaluate its quality with chemical pattern recognition method. Method:Diamonsil C₁₈ column （4.6 mm×150 mm， 5 μm） was used， mobile phase was consisted of methanol （A）-0.1% phosphoric acid solution （B） for gradient elution （0-60 min， 20%-90%A； 60-70 min， 90%-100%A）， the flow rate was 1 mL·min^-1， the column temperature was 25 ℃， and the detection wavelength was 254 nm. The similarity evaluation system of chromatographic fingerprint of traditional Chinese medicine （2012 edition） was used to evaluate the similarity of HPLC fingerprint of 15 batches of substance benchmark of Xiao Chengqitang， and the chromatographic data were analyzed by cluster analysis， principal component analysis and orthogonal partial least squares-discriminant analysis， in order to evaluate the quality difference between different batches of substance benchmarks of Xiao Chengqitang and find out the main chemical components that caused the quality difference. Result:The HPLC fingerprint of Xiao Chengqitang substance benchmarks was established， 31 common peaks were identified， and 18 components were identified by comparing with the reference substances. The similarities of 15 batches of HPLC fingerprint of Xiao Chengqitang substance benchmarks were >0.92. The samples could be divided into two categories by three chemical pattern recognition methods. Nine main components leading to the quality discrepancy of samples between batches were screened out， including rhein， chrysophanol-8-<italic>O</italic>-<italic>β</italic>-<italic>D</italic>-glucoside， aloe-emodin-8-<italic>O</italic>-<italic>β</italic>-<italic>D</italic>-glucoside， sennoside A， chrysophanol-1-<italic>O</italic>-<italic>β</italic>-<italic>D</italic>-glucoside， rhein-8-<italic>O</italic>-glucoside and others. Conclusion:The established fingerprint analysis method is accurate， stable and reproducible， which basically reflects the overall chemical composition characteristics of Xiao Chengqitang， and can be used for the quality control of Xiao Chengqitang preparations.

Analysis on quality value transfer of substance benchmarks of Zhenwu Decoction / 中国中药杂志

By preparing 15 batches of Zhenwu Decoction substance benchmarks,the characteristic map,index component content and paste-forming rate were determined to define the peak attribution,similarity range,paste-forming rate range,paeoniflorin and6-gingerol content range and transfer rate range. The similarity between the substance benchmark characteristic map and the control map R generated from the 15 batches of substance benchmarks was higher than 0. 970. There were 19 characteristic peaks in total. By further summarization of the characteristic peaks,it could be seen that tuckahoe had 3 characteristic peaks,white peony root had 10 characteristic peaks,atractylodes had 3 characteristic peaks,ginger had 1 characteristic peak,and Aconite root had 3 characteristic peaks; among them,white peony root and aconite root had 1 common peak. The contents and transfer rates of the 15 batches were0. 50%-0. 93 and 16. 11%-26. 20%; those for 6-gingerol were 0. 018 2%-0. 033 9% and 13. 16%-24. 10%,respectively. The pasteforming rate ranged from 10. 00% to 14. 85%. In this study,the transfer process of substance benchmark value of classic formula Zhenwu Decoction was analyzed based on the characteristic map,the paste-forming rate and the content of the index components; a scientific and stable substance benchmark quality evaluation method was preliminarily established to provide a basis for subsequent development of classic formula Zhenwu Decoction and quality control of relevant preparations.

Analysis on quality value transfer of substance benchmarks of Taohong Siwu Decoction / 中国中药杂志

By preparing 15 batches of substance benchmarks of Taohong Siwu Decoction, the methodology of the characteristic spectrums of substance benchmarks was established. The paste-forming rate range, the contents and the transfer rate range of the index components, hydroxy safflower yellow A, ferulic acid and paeoniflorin, the characteristic peaks and the similarity range of the characteristic spectrums of Taohong Siwu Decoction were determined to define key quality attributes of substance benchmarks of Taohong Siwu Decoction.In the 15 batches of substance benchmarks of Taohong Siwu Decoction, the similarity of characteristic spectrums was higher than 0.9. Furthermore, based on summarization of the characteristic peak information, there were 13 characteristic peaks in the whole decoction. Baishao had three characteristic peaks, Honghua had seven characteristic peaks, and Chuanxiong and Danggui had three characteristic peaks. The paste-forming rate of the 15 batches of substance benchmarks was controlled at 33.11%-40.62%. The content of hydroxy safflower yellow A was 0.129%-0.203%, with the average transfer rate of 16.596%±0.669%.The content of ferulic acid was 0.043%-0.055%, with the average transfer rate of 20.489%±1.772%.The content of paeoniflorin was 0.676%-0.943%, with the average transfer rate of 29.112%±3.273%.The quality value transfer of substance benchmarks of classical prescription Taohong Siwu Decoction was analyzed by the combination of characteristic spectrums, paste-forming rate and the content of index components. The established substance benchmark quality evaluation method was stable and feasible, and could provide a basis for quality control and subsequent development of relevant preparations of Taohong Siwu Decoction.

Analysis on quality value transfer of substance benchmarks of Qingwei San / 中国中药杂志

By preparing 10 batches of substance benchmarks freeze-drying powder( lyophilized powder),the methodology of the characteristic spectrum and the content of index component for substance benchmarks of Qingwei San was established. The characteristic peaks and the similarity range of the characteristic spectrum,the contents and the transfer rate range of isoferulic acid,palmatine and paeonol,and the paste-forming rate range were determined to define key quality attributes of substance benchmarks of Qingwei San. In the10 batches of substance benchmarks of Qingwei San,the similarity of characteristic spectrum was higher than 0. 90. In further comparison of the characteristic peak information,a total of 16 characteristic peaks were identified,including 5 characteristic peaks from Cimicifugae Rhizoma,5 characteristic peaks from Coptidis Rhizoma,2 characteristic peaks from Angelicae Sinensis Radix and 4 characteristic peaks from Moutan Cortex. The content of isoferulic acid was 0. 10%-0. 18%,with the average transfer rate of 49. 82%±4. 02%. The content of palmatine was 0. 17%-0. 31%,with the average transfer rate of 15. 84% ±2. 39%. The content of paeonol was 0. 41%-0. 75%,with the average transfer rate of 23. 41%±3. 23%. The paste-forming rate of the 10 batches of substance benchmarks were controlled at 27%-33%,with the transfer rate between the theoretical paste-forming rate and the actual paste-forming rate was 86. 59%±3. 39%. In this study,the quality value transfer of substance benchmarks of Qingwei San was analyzed by the combination of characteristic spectrum,the content of index component and the paste-forming rate. A scientific and stable evaluation method was preliminarily established,so as to provide the basis for subsequent development and quality control of relevant preparations of Qingwei San.

Establishment of HPLC fingerprint and determination method of three index components of classical herbal formula substance benchmarks of Xiebai Powder / 中草药

Objective: To establish the HPLC fingerprint and the determination method of three index components of the classical herbal formula substance benchmarks of Xiebai Powder. Methods: Fingerprint chromatographic conditions were as following: detection wavelength 254 nm/325 nm, column temperature 35 ℃; flow rate 0.8 mL/min; injection volume 25 μL; mobile phase consisting of 0.1% aqueous formic acid (A) and acetonitrile (B); binary gradient elution: 0-20 min, 5%-10% B; 20-33 min, 10%-15% B; 33-50 min, 15%-20% B; 50-95 min, 20%-58% B. Ten batches of substance benchmarks of Xiebai Powder fingerprints were collected and evaluated by the Chinese Pharmacopoeia Committee "Chinese Medicine Chromatographic Fingerprint Similarity Evaluation System 2012 Edition" software. Chromatographic conditions of content determination: detection wavelength 237 nm, column temperature 30 ℃; flow rate 1.0 mL/min; injection volume 5 μL; mobile phase consisting of 0.1% aqueous phosphoric acid (A) and acetonitrile (B) for binary gradient elution: 0-10 min, 5%-20% B; 10-18 min, 20%-60% B; 18-26 min, 60%-100% B; 26-38 min, 100% B; 38-41 min, 100%-5% B; 41-45 min, 5% B. Results: Based on the matching results, 55 common peaks were determined at a wavelength of 254 nm, and 57 common peaks were determined at a wavelength of 325 nm. Three substances, mulberroside A (S), liquiritin and ammonium glycyrrhizinate, were identified in the common peaks. After methodological research, its precision, stability and reproducibility were good. Ten batches of substance benchmarks of Xiebai Powder fingerprints were evaluated with reference fingerprints, and their similarities were greater than 0.9. The average recovery rates of mulberroside A (S), liquiritin and ammonium glycyrrhizinate were 97.82%, 97.40% and 105.81%, respectively. The RSD (n = 6) was 4.41%, 2.51% and 1.19%, respectively, which met the require of 2015 edition of the Chinese Pharmacopoeia. The three components had good linearity in the range of 25.25-2525 ng, 25-2 500 ng and 8.5-850 ng, respectively. The method had good precision, stability and repeatability. The contents of 10 batches of substance benchmarks of Xiebai was determined. The content of mulberry A was 11.6-35.5 mg/g, the content of liquiritin was 0.1-1.6 mg/g, and the content of glycyrrhizic acid was 0.3-2.5 mg/g. The range of the contents of these ingredients was large, which indicated that the quality of mulberry husks and licorice herbs from different places was quite different. Conclusion: The establishment of the HPLC fingerprint and the determination method of three index components of the classical herbal formula substance benchmarks of Xiebai Powder provided some bases for the study of the quality standard of substance benchmarks of Xiebai Powder.

[Analysis on quality value transmitting of substance benchmarks of Linggui Zhugan Decoction].

By preparing 10 batches of the material reference of Linggui Zhugan Decoction,the methodology of the characteristic spectrum of the material reference was created. The creaming rate range,the contents and the transfer rate range of cinnamaldehyde,glycyrrhizin and glycyrrhizic acid,the characteristic peaks and the similarity range of the characteristic spectrum of Linggui Zhugan Decoction were determined to clarify key quality attributes of the material reference of Linggui Zhugan Decoction. In the 10 batches of the material reference of Linggui Zhugan Decoction,the similarity of characteristic spectrum was higher than 0. 9. Furthermore,after summarizing the characteristic peak information,we knew that Fuling had two characteristic peaks,Guizhi had six characteristic peaks,Baizhu had two characteristic peaks and Gancao had 11 characteristic peaks. The average creaming rate of the material reference of the ten batches was( 12. 13 ± 0. 35) %. The average content of cinnamaldehyde was 0. 32%,the average transfer rate was 10. 69%,the content of cinnamaldehyde in the different batches was between 0. 22% and 0. 42%,and the transfer rate was between 7. 48% and13. 90%. The average content of glycyrrhizin was 0. 84%,the average transfer rate was 50. 39%,the content of glycyrrhizin in the different batches was between 0. 42% and 1. 26%,and the transfer rate was between 35. 27% and 65. 51%. The average content of glycyrrhizic was 1. 88%,the average transfer rate was 40. 74%,the content of glycyrrhizic in the different batches was between 0. 94% and2. 82%,and the transfer rate was between 28. 52% and 52. 96%. In this paper,the quality value transmitting of substance benchmarks of Linggui Zhugan Decoction was analyzed by the combination of characteristic spectrum,creaming rate and the content of index component. A scientific and stable method was preliminarily established,which provided scientific basis for the quality control and formulation development of Linggui Zhugan Decoction.

Preparation and process quality control of substance benchmarks of classical famous prescription of Baihe Dihuang Decoction / 中草药

Objective: To prepare substance benchmarks of Baihe Dihuang Decoction (BDD), and evaluate the scientificity and rationality of preparation process by analyzing the process quality. Methods: Fifteen batches of substance benchmarks were prepared according to the ancient method, the content of catalpol and acteoside in the preparation process was determined, and the transfer rate and extractum rate were calculated. Fingerprints of 15 batches of decoction pieces, decoction, concentrate and substance benchmarks were detected by HPLC, and the common peaks of fingerprints were attributed and identified; In addition, the similarity of fingerprints were evaluated. Results: In 15 batches of substance benchmarks, the transfer rates of catalpol and acteoside were 81.40%—92.88% and 28.90%—41.41% respectively, the extractum rate was 36.06%—41.71%, and without discrete data. During the process of decoction, concentration and freeze-drying, the transfer rates of effective components were stable. In the fingerprints of substance benchmarks, 16 common peaks were determined, of which six peaks belong to Lilii Bulbus, nine peaks belong to Rehmanniae Radix. Three peaks were identified. The similarity of fingerprints of decoction pieces, decoction, concentrate, and substance benchmarks were all over 0.9. The similarity of reference fingerprints of decoction, concentrate, and substance benchmarks were over 0.99. Conclusion: The fingerprint method is reasonable and feasible, which can be used for simultaneously determining the fingerprint of decoction pieces, intermediates and substance benchmarks. The preparation process is scientific and reasonable, and will not changes substance basis significantly. The paper establishes a foundation for the development of preparation of BDD, and provides a new idea for the evaluation of process and quality of the substance benchmarks of classical famous prescriptions.

Analysis on Quality Transmitting of Substance Benchmarks of Shaoyao Gancaotang / 中国实验方剂学杂志

Objective:To establish the HPLC fingerprint test method for the medicinal materials, decoction pieces and substance benchmarks of Shaoyao Gancaotang for investigating the quality transmitting of substance group in preparation process of the medicinal materials-decoction pieces-substance benchmarks, then to evaluate the scientificity and rationality of preparation process of substance benchmarks of Shaoyao Gancaotang by combining with yields of dry extract, transfer rates of effective components and other indexes. Method:Substance benchmarks of Shaoyao Gancaotang was prepared according to the method recorded in ancient medical books, fingerprints of 15 batches of medicinal materials, decoction pieces and substance benchmarks were detected by HPLC, and the contents of effective ingredients were determined. At the same time, the correlation analysis of quality transmitting of substance group during the preparation of substance benchmarks was carried out by combining the yields of dry extract and transfer rates of effective components. Result:The established HPLC fingerprint method has good precision, repeatability and stability, it can be used for the simultaneous determination of fingerprint of medicinal materials, decoction pieces and substance benchmarks. In the fingerprint of substance benchmarks, 16 common peaks were determined by taking liquiritin as the reference peak, of which 6 chromatographic peaks belong to Paeoniae Radix Alba and 11 chromatographic peaks belong to Glycyrrhizae Radix et Rhizoma, 7 major chromatographic peaks were identified. The similarities of fingerprints of 15 batches of medicinal materials, decoction pieces and substance benchmarks of Shaoyao Gancaotang were good by comparing with their respective reference fingerprints(≥ 0.90), the average dry extract rate of 15 batches of substance benchmarks was 24.81%, and no discrete data were found; the average transfer rates of paeoniflorin, liquiritin and glycyrrhizic acid from decoction pieces to substance benchmarks were 79.68%, 63.70% and 51.20%, respectively, and no discrete data were found. Conclusion:In this paper, a scientific and reasonable method for evaluating the process of substance benchmarks of Shaoyao Gancaotang is established by means of the fingerprint method controlled by the whole substance group, the research idea of quality transmitting of substance group in the preparation process, and the evaluation of technical and economic indicators. It can be used as a reference for the evaluation and research of material benchmarks in other famous classical formulas.