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By consulting the ancient Chinese herbal books, medical books and formularies of the past dynasties, and combining with modern research data, this paper makes a systematic textual research on the name, origin, place of origin, traditional quality evaluation, harvesting and processing of Selaginellae Herba, so as to provide a basis for the development and utilization of the relevant famous classical formulas. According to the textual research, Juanbai is the correct name of the herbal medicine in all dynasties, and there are also aliases such as Baozu, Qiugu, Jiaoshi and Jiusi Huanhuncao. The origin of Selaginellae Herba in the ancient herbal books was Selaginella tamariscina in all dynasties. Since the Republic of China, S. pulvinata has been gradually used as another origin of Selaginellae Herba. In ancient times, the producing area of S. tamariscina was mainly in Shandong, Hebei, Henan, Shaanxi, Jiangsu and Sichuan, etc. Nowadays, it is produced all over the country. S. pulvinata is mainly produced in Guangxi, Fujian, Sichuan, Guizhou, Yunnan, Hebei and so on. Since the recent times, it is concluded that the quality of the green color, complete and unbroken is good. Before the Qing dynasty, it was recorded that the harvesting time of Selaginellae Herba was generally from April to July, and it was expanded to all year round since the Qing dynasty. After harvesting, remove the sediment(sand and mud), cut off the fibrous roots and dry in the shade or in the sun. The processing methods in all dynasties were mainly carbonizing by stir-frying and stir-bake to brown, and some ancient books contained the processing method of brine boiling, which was rarely used in modern times. Based on the results, it is recommended that S. tamariscina should be used as the base material of Selaginellae Herba. Because of more impurities, it should be fully purified to ensure the cleanliness of the herb, and the processing method can be based on the prescription requirements, if the processing requirements are not specified, the raw products can be used, charcoal products is recommended for use as an hemostatic.
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By reviewing the ancient and modern literature, the name, origin, scientific name evolution, place of origin, quality, harvesting, processing, efficacy and toxicity of Asteris Radix et Rhizoma(ARR) were systematically sorted out, so as to provide reference for the development and utilization of the relevant famous classical formulas. According to textual research, ARR was first contained in Shennong Bencaojing, all generations are Ziwan for its proper name, and there are still aliases such as Ziyuan, Ziqian and Xiaobianer. Its mainstream origin in successive generations was Aster tataricus, and there are also Ligularia fischeri and others in local area of use. The medicinal parts of ARR are root and rhizome, but in modern times, the rhizome is mostly used for propagation and cultivation, so some of ARR medicinal materials only have the root without the rhizome. The earliest recorded ancient origin of ARR was now Fangxian(Hubei), Zhengding and Handan(Heibei), then the range of production areas gradually expanded, the mainstream production areas from the Song dynasty to the Ming and Qing dynasties included Hebei, Jiangsu, Anhui, Henan and other places, since modern times, two major producing areas have been formed in Anguo, Hebei province and Bozhou, Anhui province. From the quality evaluation, it is clear that from ancient times, flexible roots and purple color are the best. The ancient harvesting was mainly in lunar February or March, and then dried in the shade, and the modern harvesting is mostly in spring and autumn, and the roots are braided into pigtails and then dried in the sun or dried in the sun after 1-2 d. The ancient and modern processing method of ARR are basically the same, mainly honey processing, there are still methods of frying, steaming, vinegar sizzling, etc. Based on the results, it is recommended that the dried roots and rhizomes of A. tataricus should be used in clinical and the development of related famous classical formulas, and those whose original formulas specify the processing requirements can be processed according to the relevant requirements, while whose processing requirements are not specified should be used in the form of raw products.
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Through consulting the ancient herbal books and modern literature, this paper has carried out the textual research on the name, origin, place of origin, harvesting and processing, and other contents of Bruceae Fructus, combed its ancient and modern medicinal history, so as to provide reference for the development of famous classical formulas containing Bruceae Fructus. Through the herbal textual research, It can be verified that, since the Qing dynasty, Bruceae Fructus has been recorded in the materia medica, most of the materia medica in previous dynasties took Bruceae Fructus as its proper name, and Laoyadan, Kushenzi and Yadanzi as the aliases. The main origin of Bruceae Fructus is Brucea javanica, its medicinal part is the fruit, which is harvested from August to October every year, the fruit can be harvested when it is ripe. Bruceae Fructus was first distributed in Fujian, Guangdong and Guangxi, and gradually expanded to the south of China with the change of time. The traditional processing method of Bruceae Fructus is mainly to remove the shell and kernel, and remove the oil by frosting. The 2020 edition of Chinese Pharmacopoeia stipulates that its processing method is to remove the shell and impurities. Based on the research results, it is suggested that the dried mature fruit of B. javanica should be selected for the development of famous classical formulas containing this herb, and the raw products can be used if the original formula does not specify the processing requirements.
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In order to provide a reference basis for the development of relevant compound preparations, this article takes a comprehensive analysis of the usage and dosage of famous classical formulas in Han dynasty from various perspectives, and gives corresponding countermeasures on this basis. Through the comprehensive analysis of the classification and statistics of Zhongjing's medication characteristics, decoction methods, administration and dosage, and combining conversion methods of weights and measures by ancient medical practitioners, along with the dosage and administration of the listed Han dynasty famous classical formulas, it was found that the "Jiangxi method" served as a general guideline for administration according to Zhongjing's original text. This method allowed for flexible dosing based on the conversion of the ancient measurements to modern equivalents[13.8 g per Liang(两)], ensuring the safe and effective medication of these formulas. After combing, it is found that although the dosage of single medicine is large in famous classical formulas from Han dynasty, the administration is flexible. The crude drug amount per administration serves as the foundational dose, with the frequency of administration adjusted flexibly according to the condition. This dosing approach becomes the key for the rational development of compound formulations of famous classical formulas. Based on the conclusions of the study, it is recommended that when developing compound formulations of famous classical formulas in Han dynasty, the original administration method and dosage should be respected. The original crude drug amount per administration should be considered as the daily foundational dose, with the frequency of administration described within a range(1 to N times per day, where N is the maximum number of administrations as per the original text). The specific frequency of administration can be adjusted flexibly by clinical practitioners based on the individual condition. This approach should also be adopted in toxicological studies, where the dosage per administration serves as the basis for toxicity research, and the toxicity profile at the maximum administration frequency should be observed, providing guidance on the clinical safety range. Corresponding drug labels should provide information within a range to indicate toxicological risk intervals.
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By consulting the ancient and modern literature, the textual research of Pharbitidis Semen has been conducted to clarify the name, origin, distribution of production areas, quality specification, harvesting, processing and so on, so as to provide reference for the development and utilization of the relevant famous classical formulas. Through textual research, it can be seen that Pharbitidis Semen was first published in Mingyi Bielu(《名医别录》), and all dynasties have taken Qianniuzi as the correct name. Based on the original research, the main source of Pharbitidis Semen used in previous dynasties is the dried mature seeds of Pharbitis nil, which is consistent in ancient and modern times. The white Pharbitidis Semen appearing in Compendium of Materia Medica(《本草纲目》) from Ming dynasty is similar to the present P. purpurea. It is produced all over the country, and the quality is better if the particles are full and free of impurities. In ancient times, the harvesting time was mostly in the September. Now it is autumn. The fruits are ripe and harvested, dried to remove impurities for standby. In ancient times, the processing methods of Pharbitidis Semen were mainly wine steaming, steaming and frying until half cooked and grinding the head and end. In modern times, they have been simplified to stir-frying method. The nature, taste, meridian tropism and their effects also change supplements with the deepening of practice. Before the Ming dynasty, they were all bitter, cold and toxic. In the Ming dynasty, there appeared the characteristics of pungent, hot and small poisonous. The efficacy has evolved from controlling low Qi, curing foot edema, removing wind toxin, and facilitating urination to facilitating water and defecation, eliminating phlegm and drinking, and eliminating accumulated insects. The main clinical contraindications are those with weak spleen and kidney, those with weak spleen and stomach, pregnant women, and should not be used with croton and croton cream. Based on the textual research, it is suggested that when developing the classic famous formula with Pharbitidis Semen as the main raw material in the future, it is clear that the source should be the dried mature seeds of Pharbitis nil(black product is its black-brown seeds, white product is its beige seeds). The processing requirements indicated in the original formula are all processed according to the requirements, and the raw product is recommended to be used as medicine if not specified.
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ObjectiveTo investigate the mechanism of Atractylodis Macrocephalae Rhizoma(AMR) in the treatment of slow-transmission constipation(STC) by observing the effects of AMR on short-chain fatty acids and intestinal barries in STC mice. MethodForty-eight male KM mice were randomly divided into blank group, model group, AMR low-, medium-, high-dose groups(2.5, 5, 10 g·kg-1) and mosapride group(2.5 mg·kg-1). Except for the blank group, all groups were gavaged with loperamide suspension(5 mg·kg-1) twice daily for 14 d to construct the STC mouse model. At the same time, each drug administration group was given the corresponding drug by gavage for consecutive 14 d, the blank and model groups were gavaged with equal volume of distilled water. The effects of the treatment of AMR on body mass, defecation frequency, fecal water content and intestinal propulsion rate of mice were observed, the pathological changes of mouse colon were observed by hematoxylin-eosin(HE) staining and periodic acid-Schiff(PAS) staining, the levels of gastrin(GAS) and motilin(MTL) in serum were detected by enzyme-linked immunosorbent assay(ELISA), gas chromatography-mass spectrometry(GC-MS) was used to detect the contents of short-chain fatty acids(SCFAs) in mouse feces, real-time fluorescence quantitative polymerase chain reaction(Real-time PCR) and Western blot were used to determine the mRNA and protein expression levels of zonula occludens-1(ZO-1), Occludin, and Claudin-1 in the colon of mice. ResultCompared with the blank group, the body mass, defecation frequency, fecal water content and intestinal propulsion rate of mice in the model group were significantly decreased(P<0.05, P<0.01), the arrangement of colonic tissues was disordered, and the number of goblet cells was reduced, the levels of GAS and MTL in serum were significantly decreased(P<0.01), and the levels of SCFAs in the feces were on a decreasing trend, with the contents of acetic acid, propionic acid, butyric acid, isobutyric acid and valeric acid were significantly decreased(P<0.05, P<0.01), the mRNA and protein expression levels of ZO-1, Occludin and Claudin-1 in the colonic tissues were significantly decreased(P<0.01). The above results suggested that STC mouse model was successfully constructed. Compared with the model group, the body mass, defecation frequency, fecal water content and intestinal propulsion rate of mice in AMP administration groups all increased significantly(P<0.05, P<0.01), the mucosal layer of the colonic tissues was structurally intact without obvious damage, and the number of goblet cells increased, serum levels of GAS and MTL were significantly increased(P<0.01), the contents of SCFAs in the feces were all on a rising trend, with the contents of acetic, propionic, butyric and isobutyric acids rising significantly(P<0.05, P<0.01), the mRNA and protein expression levels of ZO-1, Occludin and Claudin-1 in the colonic tissues were significantly increased(P<0.05, P<0.01). ConclusionAMR is able to improve the constipation symptoms in STC mice, and its mechanism may be related to increasing the contents of SCFAs in the intestine as well as promoting the mRNA and protein expression levels of ZO-1, Occludin and Claudin-1 in the colon.
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This article systematically analyzes the historical evolution of the origin, scientific name, medicinal parts, quality evaluation, harvesting and processing and other aspects of Tsaoko Fructus by consulting ancient materia medica, medical books, prescription books in the past dynasties and combining with the modern literature, so as to provide a basis for the development and utilization of famous classical formulas containing Tsaoko Fructus. According to the research, the name of Caoguo(草果) was first used in the Taiping Huimin Heji Jufang(《太平惠民和剂局方》) in the Northern Song dynasty, Tsaoko Fructus is the correct name of the herbal medicine in all dynasties, and there are also aliases such as Caokou, Doukou, Loukou, Laokou and Caodoukou. The mainstream source of Tsaoko Fructus used in the past dynasties is the dried mature fruit of Amomum tsaoko of Zingiberaceae, but Tsaoko Fructus was often used as a nickname for Amomi Fructus Rotundus or Alpiniae Katsumadai Semen during the Song dynasty. Bencao Pinhui Jingyao(《本草品汇精要》) in the Ming dynasty was the earliest materia medica that recorded Tsaoko Fructus as a separate medicinal herb in sections. Under the influence of early ancient books, there were some books that confused Tsaoko Fructus with other Zingiberaceae plants during the Qing dynasty, it was not until modern times that Tsaoko Fructus was distinguished from other plants. The origin of Tsaoko Fructus is Yunnan and Guangxi, and then gradually expanded to Guizhou and other places. Now Yunnan is the province with the largest planting area of Tsaoko Fructus, and has become the main producing area. Since modern times, it has been recorded in the literature that the quality of Tsaoko Fructus is mainly characterized by large, full, red-brown and strong in smell. According to ancient records, the harvest time of Tsaoko Fructus was in the eighth month of the lunar calendar, and they were mostly used for peeling or simmering. Currently, the harvest period of Tsaoko Fructus is October to November, and then sun-dried or dried after harvesting. The records of the properties and functional indications of Tsaoko Fructus are basically consistent with the ancient and modern documents, which is warm in nature, pungent in flavor, belonging to the spleen and stomach meridians, moderate in dryness and dampness, intercepting malaria and eliminating phlegm, used for internal resistance of cold and dampness, abdominal distension and pain, fullness and vomiting, malaria cold and fever, and plague fever. Based on the research results, it is suggested that A. tsaoko should be used as the medicinal base for the development of famous classical formulas containing Tsaoko Fructus, processing method can be according to the requirements of the prescription, and if the requirements of concoction are not indicated, it can be used in the form of raw products.
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In order to provide basic information for the utilization and development of famous classical formulas containing Bletillae Rhizoma, this article systematically analyzes the historical evolution of the name, origin, harvesting and processing of Bletillae Rhizoma by reviewing the ancient materia medica, prescription books, medical books and modern literature. The research results showed that Baiji(白及) was the main name, some scholars took Baiji(白芨) as its main name, and there were many other names such as Baiji(白给), Baigen(白根), Baiji(白苙). The mainstream source of Bletillae Rhizoma was the tubers of Bletilla striata, and drying, large, white, solid, root-free and skin removed completely were the good quality standards. With the promotion of wild to cultivated medicinal materials, there were certain differences between their traits, and the quality evaluation indexes should be adjusted accordingly. The origin of records in the past dynasties was widely distributed, with Guizhou and Sichuan having high production and good quality in modern times. The harvesting period is mostly in spring and autumn, and harvested in autumn was better. The processing and processing technology is relatively simple, and it was used fresh or powdered in past dynasties, while it is mainly sliced for raw use in modern times. Based on the results, it is suggested that the tubers of Bletilla striata of Orchidaceae should be used in the famous classical formulas, and it should be uniformly written as Baiji(白及). And if the original formula indicates the requirement of processing, it should be operated according to the requirement, if the requirement of processing is not indicated, it can be used in raw form as medicine.
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By consulting ancient and modern literature, the herbal textual research of Farfarae Flos has been conducted to verify the name, origin, producing area, quality evaluation, harvesting and processing methods, so as to provide reference for the development and utilization of the famous classical formulas containing Farfarae Flos. According to the research, the results showed that Farfarae Flos was first described as a medicinal material by the name of Kuandonghua in Shennong Bencaojing(《神农本草经》), and the name was used and justified by later generations. The main origin was the folwer buds of Tussilago farfara, in addition, the flower buds of Petasites japonicus were used as medicine in ancient times. The ancient harvesting time of Farfarae Flos was mostly in the twelfth month of the lunar calendar, and the modern harvesting time is in December or before the ground freeze when the flower buds have not been excavated. Hebei, Gansu, Shaanxi are the authentic producing areas with the good quality products. Since modern times, its quality is summarized as big, fat, purple-red color, no pedicel is better. Processing method from soaking with licorice water in the Northern and Southern dynasties to stir-frying with honey water followed by micro-fire in the Ming dynasty, and gradually evolved to the modern mainstream processing method of honey processing. Based on the research results, it is suggested that the dried flower buds of T. farfara, a Compositae plant, should be selected for the development of famous classical formulas containing Farfarae Flos, and the corresponding processed products should be selected according to the specific processing requirements of the formulas, and raw products are recommended for medicinal use without indicating processing requirements.
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By consulting the ancient and moderm literature, this paper makes a textual research on the name, origin, quality evaluation, harvesting and processing of Olibanum, so as to provide a basis for the development of the famous classical formulas containing this medicinal material. According to the herbal textual research, the results showed that Olibanum was first described as a medicinal material by the name of Xunluxiang in Mingyi Bielu(《名医别录》), until Ruxiang had been used as the correct name since Bencao Shiyi(《本草拾遗》) in Tang dynasty. The main origin was Boswellia carterii from Burseraceae family. The mainly producing areas in ancient description were ancient India and Arabia, while the modern producing areas are Somalia, Ethiopia and the southern Arabian Peninsula. The medicinal part of Olibanum in ancient and modern times is the resin exuded from the bark, which has been mainly harvested in spring and summer. It is concluded that the better Olibanum has light yellow, granular, translucent, no impurities such as sand and bark, sticky powder and aromatic smell. There were many processing methods in ancient times, including cleansing(water flying, removing impurities), grinding(wine grinding, rush grinding), frying(stir-frying, rush frying, wine frying), degreasing, vinegar processing, decoction. In modern times, the main processing methods are simplified to cleansing, stir-frying and vinegar processing. Nowadays, the commonly used specifications include raw, fried and vinegar-processed products. Among the three specifications, raw products is the Olibanum after cleansing, fried products is a kind of Olibanum processed by frying method, vinegar-processed products is the processed products of pure frankincense mixed with vinegar. Based on the research results, it is recommended to select the resin exuded from the bark of B. carterii for the famous classical formulas such as Juanbitang containing Olibanum, processing method should be carried out in accordance with the processing requirements of the formulas, otherwise used the raw products if the formulas without clear processing requirements.
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ObjectiveBased on the experience of traditional quality evaluation, the quality of Atractylodis Macrocephalae Rhizoma(AMR) with different production methods such as direct seeding, transplanting after seedling raising, topping and non-topping, and difference in growth years was compared. MethodVernier caliper was used to measure the trait data of AMR in different production methods. Paraffin sections of AMR with different production methods were made by saffron solid green staining, and the microstructure was observed. The contents of water-soluble and alcohol-soluble extracts in AMR with different production methods were determined according to the 2020 edition of Chinese Pharmacopoeia. The content of water-soluble total polysaccharides in AMR with different production methods was detected by sulfuric acid-anthrone method. Fiber analyzer was used to detect the content of fiber components in AMR with different production methods. The contents of monosaccharides, oligosaccharides and some secondary metabolites in AMR with different production methods were detected by ultra performance liquid chromatography(UPLC), and the differences of chemical components were compared by multivariate statistical analysis methods such as principal component analysis(PCA) and partial least squares-discriminant analysis(PLS-DA). ResultIn terms of traits, the 3-year-old AMR with direct seeding and without topping was close to the high-quality AMR with "phoenix-head and crane-neck, strong sweetness and clear aroma" recorded in ancient materia medica, followed by the 3-year-old AMR with topping after transplanting, while the 2-year-old AMR with topping after transplanting with high market circulation rate was generally fat and strong with mild odor. In the microscopic aspect, the arrangement of xylem vessels and fiber bundles in the 3-year-old samples formed two obvious rings. Compared with the 2-year-old samples cultivated in Bozhou and Zhejiang, the 3-year-old samples without topping after transplanting had more wood fibers. In terms of chemical composition, the contents of 70% ethanol extract, fructose, glucose, sucrose, 1-kestose, atractylenolide Ⅰ, chlorogenic acid, neochlorogenic acid, cryptochlorogenic acid and other components in 3-year-old AMR with direct seeding and without topping were significantly higher than those in the other three samples(P<0.05). The contents of cellulose, 70% ethanol extract, sucrose, atractylenolide Ⅰ, atractylone and other components in 3-year-old AMR with topping after transplanting were significantly higher than those in the 2-year-old AMR with high market circulation rate(P<0.05), while the contents of water-soluble extract and water-soluble total polysaccharides in 2-year-old samples with topping after transplanting were significantly higher than those in the 3-year-old AMR with topping after transplanting, direct seeding and without topping(P<0.05). ConclusionUnder the current mainstream production mode, too much manual intervention makes AMR heavily enriched in polysaccharides and increased the yield, but the accumulation of sweet substances, fragrant substances and fiber substances is insufficient, which affects its quality. The current quality standard of AMR has some shortcomings in guiding the high quality production of it, it is suggested to revise the quality standard of AMR, supplement the quantitative analysis of secondary metabolites, and strengthen the production of imitation wild AMR.
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ObjectiveBased on the quality evaluation experience of "it is better to have a fragrant and strong aroma" summarized by materia medica of past dynasties, the chemical components of Sojae Semen Nigrum(SSN) and Sojae Semen Praeparatum(SSP) were systematically compared and analyzed, and the main fermentation products in different fermentation time were quantitatively analyzed, so as to clarify the transformation law of internal components in the processing process and provide scientific basis for the modern quality control of SSP. MethodUltra performance liquid chromatography-quadrupole tandem time-of-flight mass spectrometry(UPLC-Q-TOF-MS) was used for the structural identification of the chemical constituents of SSN and SSP, and with the aid of Progenesis QI v2.3 software, the negative ion mode was employed for principal component analysis(PCA) pattern recognition, and the data were analyzed with the aid of orthogonal partial least squares-discriminant analysis(OPLS-DA) for two-dimensional data to obtain S-plot, and components with |P|>0.1 were selected as the differential constituents. The contents of isoflavonoids in SSP during fermentation was determined by UPLC, and the samples were taken every 8 h in the pre-fermentation period and every 2 d in the post-fermentation period, and the dynamic changes of isoflavonoid contents in different fermentation stages were analyzed. The contents of amino acids and nucleosides in SSP and SSN from different fermentation stages were quantitatively analyzed by phenyl isothiocyanate(PITC) pre-column derivatization and high performance liquid chromatography(HPLC) gradient elution, and the contribution of flavor substances to the "delicious" taste of SSP was discussed by taste intensity value(TAV). ResultA total of 19 kinds of differential components were screened out, mainly soybean saponins and isoflavones, and their contents decreased significantly or even disappeared after fermentation. In the pre-fermentation process of SSP, glycoside bond hydrolysis mainly occurred, and isoflavone glycosides in SSN were degraded and converted into the corresponding aglycones, the content of flavor substances such as amino acids increased gradually. In the post-fermentation process, protein degradation mainly occurred, after 8 d of post-fermentation, the content of isoflavones was basically stable, while the total content of amino acids increased by 8-40 times on average. Different amino acids form the special flavor of SSP, such as the TAV of glutamate is always ahead of other flavor substances, and sweet substances such as alanine and valine have made relatively great contributions to SSP. ConclusionBased on the law of constituent transformation, combined with the traditional evaluation index of "fragrant and strong", it is difficult to control the fermentation degree of SSP by the existing standards in the 2020 edition of Chinese Pharmacopoeia. It is suggested that description of the characteristics of SSP be refined and changed to "fragrant, delicious and slightly sweet", and at the same time, the post-fermentation index compounds such as glutamic acid, alanine and valine should be added as the quality control indicators of SSP, so as to standardize the production process and improve the quality of SSP.
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ObjectiveBased on the traditional quality evaluation methods summarized in previous dynasties, this paper systematically contrasted cultivated Astragali Radix(CA) and wild-simulated Astragali Radix(WA) from the aspects of character, microstructure and chemical composition by modern technological means. MethodThe collected CA and WA were compared in characters and microscopic characteristics in cross section, and comparative analysis were performed on the contents of cellulose, extracts, carbohydrate, total flavonoids, total saponins, etc. Then ultra-high performance liquid chromatography-quadrupole-time-of-flight mass spectrometer(UPLC-Q-TOF-MS) and desorption electrospray ionization mass spectrometry imaging(DESI-MSI) were used to comparatively analyze the secondary metabolites and their spatial distributions in the xylem and phloem of CA and WA. ResultIn terms of characters, the characters and sectional features of WA was consistent with the characteristics of high-quality Astragali Radix, while the CA was quite different from the traditional high-quality Astragali Radix. In terms of microscopy, the phellem layer of CA was thin, and the section fissures were mostly distributed through the cambium in a long strip shape without obvious growth ring characteristics. The cork layer of WA was thick, and the cracks in the section were distributed in the center of the xylem and the outer edge of the phloem in an irregular cavity shape. The cambium was tight without cracks, and had obvious characteristics of a growth ring. In terms of chemical composition, the contents of water-soluble extract, 80% ethanol extract and sucrose of CA was significantly higher than those of WA, while the contents of total saponins, lignin and hemicellulose were significantly lower than those of WA. And the contents of 100% ethanol extract, total polysaccharides and total flavonoids in both of them were generally similar, but slightly higher in WA. The contents of 2 kinds of monoacyl-substituted flavonoid glycosides in the xylem of WA was significantly higher than those of CA, while the contents of 2 kinds of flavonoid aglycones and one flavonoid glycoside were on the contrary. The contents of 7 saponins in phloem of WA were significantly higher than those of CA. ConclusionThere are significant differences between CA and WA in characters, microstructure and chemical components, in which CA has a fast growth rate and a short planting period, and the primary metabolites such as water-soluble extracts and sucrose are more enriched, which is the reason for its firm texture and sweetness being significantly higher than those of WA. However, the contents of lignin, hemicellulose and some secondary metabolites in WA are significantly higher than those in the CA, which are close to the traditional description of characters and quality. Based on the results of this study, it is suggested to strengthen the production of WA, improve the supply capacity of WA, and gradually upgrade the current standard. It is recommended to increase the contents of monoacyl-substituted flavonoid glycosides, total saponins and other indicators that can characterize different production methods, so as to guide the high-quality production of Astragali Radix.
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By reviewing the research history on quality comparison between wild and cultivated Chinese crude drugs, this paper systematically combed the relevant research reports since the 1950s, and summarized and analyzed the results of existing comparative studies, and found that the existing comparative research on the quality of wild and cultivated Chinese crude drugs were mainly focused on several aspects, including characteristics, microstructures, chemical compositions, pharmacodynamic effects, and genetic diversity. Among these, comparative studies of chemical compositions have been the dominant approach, with a particular emphasis on comparing the contents of index components. However, research on pharmacodynamic effects remained relatively limited. Due to various factors such as sample quantity, sample origin, growth period and cultivation methods, the differences in quality between wild and cultivated Chinese crude drugs vary significantly. In general, most wild Chinese crude drugs exhibited higher quality than cultivated products, with significant differences in their characteristics. The contents and proportions of some chemical components underwent noticeable changes, particularly with a marked increase in the proportion of primary metabolites after cultivation. The quality of cultivated Chinese crude drugs is closely related to the cultivation practices employed. Chinese crude drugs produced through wild nurturing, simulated wild planting, ecological cultivation, and other similar methods demonstrate quality levels comparable to those of wild Chinese crude drugs. Based on the analysis results, it is recommended to explicitly specify the cultivation practices and cultivation period of cultivated Chinese crude drugs in comparative studies of the quality between wild and cultivated Chinese crude drugs. Multiple technical approaches, including characteristics, microscopy, non-targeted metabolomics combined with quantitative analysis of differential components, and bioefficacy evaluation, should be employed to comprehensively assess the quality disparities between wild and cultivated Chinese crude drugs. Moreover, research efforts should be intensified to investigate the changes in pharmacodynamic effects resulting from differences in plant cell wall composition, primary metabolites, and secondary metabolites, in order to guide the production of high-quality Chinese crude drugs.
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Flos Trollii is a traditional Chinese medicinal herb in China. The 2020 edition of the Chinese Pharmacopoeia (part 1) did not include the medicinal herb, its source is not clear, and there is a lack of relevantly systematic and comprehensive research. By consulting ancient Chinese herbal medicines, medical books and related literature, the textual research of Flos Trollii was conducted to verify the name, origin and producing area, so as to provide a reference for the clinical application and resource development of Flos Trollii. Through textual research, it could be seen that the name “Jinlianhua” was used as the correct name in the mainstream origin of the past dynasties, and there were still multiple synonyms such as Hanjinlian, Jinmeicao and so on, most of which originated from its growth environment and appearance. According to the distribution of varieties, it could be inferred that the mainstream origin of Flos Trollii in the Qing Dynasty and before was Trollius chinensis Bge. According to historical records, Flos Trollii were mostly produced in northern regions such as Hebei, Inner Mongolia, Shanxi, etc., which was related to the fact that Flos Trollii liked cloudy, humid and cold environments. Based on the textual research results, the author suggested that the mainstream origin of the past dynasties T. chinensis Bge. should be selected for subsequent collection of Flos Trollii.
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The rapid and accurate authentication of traditional Chinese medicines(TCMs)has always been a key scientific and technical problem in the field of pharmaceutical analysis.Herein,a novel heating online extraction electrospray ionization mass spectrometry(H-oEESI-MS)was developed for the rapid and direct analysis of extremely complex substances without the requirement for any sample pretreatment or pre-separation steps.The overall molecular profile and fragment structure features of various herbal medicines could be completely captured within 10-15 s,with minimal sample(<0.5 mg)and solvent consumption(<20 μL for one sample).Furthermore,a rapid differentiation and authentication strategy for TCMs based on H-oEESI-MS was proposed,including metabolic profile characterization,characteristic marker screening and identification,and multivariate statistical analysis model validation.In an analysis of 52 batches of seven types of Aconitum medicinal materials,20 and 21 key compounds were screened out as the characteristic markers of raw and processed Aconitum herbal medicines,respectively,and the possible structures of all the characteristic markers were comprehensively identified based on Com-pound Discoverer databases.Finally,multivariate statistical analysis showed that all the different types of herbal medicines were well differentiated and identified(R2X>0.87,R2Y>0.91,and Q2>0.72),which further verified the feasibility and reliability of this comprehensive strategy for the rapid authentication of different TCMs based on H-oEESI-MS.In summary,this rapid authentication strategy realized the ultra-high-throughput,low-cost,and standardized detection of various complex TCMs for the first time,thereby demonstrating wide applicability and value for the development of quality standards for TCMs.
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By reviewing ancient materia medica, medical books and modern literature, this paper conducted a systematic research on name, origin, scientific name evolution, producing area, quality, harvesting and processing methods of Alpiniae Officinarum Rhizoma. The results showed that Alpiniae Officinarum Rhizoma was first published in Mingyi Bielu, and its correct name was Gaoliangjiang. The mainstream origin of Alpiniae Officinarum Rhizoma used in the past dynasties is Alpinia officinarum, which is used to this day, while it used to be mixed with A. galanga because of the similar name and morphology. Alpiniae Officinarum Rhizoma produced in Danzhou and Leizhou was considered to be better in ancient times, and now it mainly produced in Guangdong, Guangxi and Hainan provinces. In addition, it has been concluded that Alpiniae Officinarum Rhizoma with reddish brown, sturdy and firm character, wrinkled skin, convex flesh, aromatic and spicy taste, and few branches is the best. In ancient times, Alpiniae Officinarum Rhizoma was commonly harvested in February and March, whereas it generally harvested in late summer or early autumn at present, and wild products are usually harvested before the rainy season in May. The main processing methods of Alpiniae Officinarum Rhizoma are cleansing and cutting, and some other methods are stir-frying or mixing with auxiliary materials. Based on the research results, it is suggested that the raw products of A. officinarum rhizomes or its processed products according to prescription requirements should be used in the development of famous classical formulas containing Alpiniae Officinarum Rhizoma.
ABSTRACT
By reviewing ancient materia medica, prescription books, medical books and modern literature, this article makes a systematic textual research on the name, origin, commercial specification, producing area, harvesting and processing of Scutellariae Radix used in famous classical formulas according to the historical development, in order to provide a reference for the development and utilization of famous classical formulas. Scutellariae Radix was first named as Qian, Qin and so on, while Huangqin was used as the official name in ancient literature, as well as many aliases such as Fuchang, Huangwen and Dufu. The main origin of Scutellariae Radix in the past dynasties was Scutellaria baicalensis, and other Scutellaria plants were also used for Scutellariae Radix at different times. The medicinal parts of Scutellariae Radix in all dynasties are roots, since the Northern and Southern dynasties, it has gradually differentiated into Ziqin and Kuqin with different efficacy according to their different growth stages and characteristics, and continued to this day. At present, most of Scutellariae Radix are Ziqin in the market, due to the influence of cultivation cost, index component content requirements and other factors. The production area of Scutellariae Radix recorded in ancient literature was wide and gradually expanded from the Yangtze River basin to the northward. Since modern times, Chengde city of Hebei province has been respected as a geo-authentic area, now S. baicalensis is cultivated in a wide area, spreading over north and northeast China. Scutellariae Radix was mostly used as raw products in the early period, and a variety of processed products appeared in the Ming dynasty. Development continues to this day, Scutellariae Radix mainly includes raw products and wine-processed products. According to the research conclusion, it is suggested that S. baicalensis should be used as Scutellariae Radix in famous classical formulas, and the selection of its commercial specifications and processed products can be comprehensively determined according to the requirements of original prescription and the clinical effect.
ABSTRACT
By reviewing ancient materia medica, prescription and medical books, combined with modern literature, the paper made textual research on the name, origin, producing area, quality evaluation, harvesting and processing methods of Angelicae Pubescentis Radix and Notopterygii Rhizoma et Radix, so as to provide a basis for the selection and use of these two herbs in the development of famous classical formulas. Through textual research, it can be found that Angelicae Pubescentis Radix and Notopterygii Rhizoma et Radix were mixed together in the early history of China, but the distinction was first made during the Southern and Northern dynasties, and since then there have been constant controversies, and it is not until contemporary times that they are distinguished clearly. In the past dynasties, Duhuo and Qianghuo were used as the rectification of names, some aliases and trade names were also seen. Angelica biserrata is the mainstream origin of Angelicae Pubescentis Radix in the past dynasties, and there are many plants belonging to Angelica, Heracleum and Aralia, which are also used as this medicine. However, the origin of Notopterygii Rhizoma et Radix used in the past dynasties is mostly Notopterygium incisum or N. franchetii, which is relatively uniform. The producing areas of Angelicae Pubescentis Radix and Notopterygii Rhizoma et Radix are mostly concentrated in the western and northwestern regions of China, among which Angelicae Pubescentis Radix is mainly produced in Hubei, Chongqing, Sichuan, Shaanxi and other places, and the border area between Hubei and Chongqing is the geo-authentic area. Notopterygii Rhizoma et Radix is mainly produced in Sichuan, Gansu, Qinghai, Shaanxi and others with the western and northern Sichuan and southern Gansu as the geo-authentic areas. Angelicae Pubescentis Radix and Notopterygii Rhizoma et Radix in the past dynasties were harvested in spring and autumn, especially in February and August of the lunar calendar. Angelicae Pubescentis Radix with strong main roots, few branches, firm texture and strong aroma is superior, and Notopterygii Rhizoma et Radix with strong rhizomes, tightly raised knots, purple-brown skin, tight cross-section, strong aroma and silkworm-like shape is superior. The processing methods of Angelicae Pubescentis Radix and Notopterygii Rhizoma et Radix are mostly cut after cutting the reeds, and the raw product is used as medicine. Based on the above research results, it is recommended that the roots of A. biserrata should be used for Angelicae Pubescentis Radix and the roots of N. incisum should be used for Notopterygii Rhizoma et Radix in the development of famous classical formulas, and raw products should be used in the formulas that do not specify processing requirements.
ABSTRACT
By reviewing ancient materia medica, medical books, prescription books and modern literature, the herbal textual research of Sanguisorbae Radix has been conducted to verify the name, origin, evolution of scientific name, producing area, harvesting time, quality evaluation and processing methods. Through herbal textual research, the name of Diyu was first published in the Shennong Bencaojing, and has been used as the proper name of this herb for generations since then. The origin of the mainstream Diyu of previous generations was the roots of Sanguisorba officinalis or its variant S. officinalis var. longifolia. In ancient times, this herb was preferred to those with soft and fat roots, according to this characteristic, its origin should be S. officinalis var. longifolia. In modern literature, the root is preferred to those with thick, hard, pink or red sections, without rhizomes or fibrous roots, according to these characteristics, its origin should be S. officinalis. Most of the time, the past generation used Diyu directly. Occasionally, Sanguisorbae Radix was processed by frying with vinegar, baking or other methods. Since the Qing dynasty, the carbonized products has appeared and has continued to now. Based on research, it is recommended that the roots of S. officinalis var. longifolia should be used in the development of famous classical formulas, and the processing method should be selected according to the formula.
