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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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Background: The use of human amniotic membrane transplantation is rapidly increasing for the management of various ocular surface disorders. Despite its numerous advantages, amniotic membrane is not widely available due to the lack of awareness among ophthalmologists regarding its preparation and preservation techniques. Purpose: To provide an instructional video demonstrating the technique of harvesting, preparation, preservation of human amniotic membrane, and its uses in the management of ocular surface diseases. Synopsis: The amniotic membrane is the innermost layer of the human placenta. Properties of the amniotic membrane, like the presence of various growth factors, anti?inflammatory and anti?angiogenic factors, and its low immunogenicity, contribute to its ability to promote epithelial growth and differentiation with the reduction in fibrosis during healing. To harvest amniotic membrane, informed consent is obtained from a patient undergoing an elective caesarian section, and the donor is screened to exclude the risk of infections. Under sterile precautions, the amniotic membrane is separated from the chorion and washed free of blood clots. With the epithelial surface up, the amniotic membrane is spread uniformly without folds or tears on individually sterilized 0.22 ?m nitrocellulose filter papers of the required sizes. The prepared filter paper with the adherent amniotic membrane is placed in freshly prepared Dulbecco’s Modified Eagle’s Medium and stored at ?80°C. The amniotic membrane can be used for surgical procedures like symblepharon release, pterygium or dermoid excision, perforated ulcers, nonhealing epithelial defects, etc. Highlights: Instructional videos demonstrating the preparation and preservation of amniotic membrane are very sparse. This video clearly explains how any ophthalmologist can learn to prepare and preserve the human amniotic membrane and gives a glimpse of its properties, advantages, and scope of use
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Background: The non-cultured epidermal cell suspension method is a well-established but tedious grafting modality in the management of stable vitiligo. Recently a more user-friendly automated epidermal harvesting system has been introduced. Aim: This was a pilot study to compare the efficacy and safety outcomes of the above two grafting procedures. Study design: The study was a single-blinded split-body randomised controlled trial. After scientific and ethical clearance, the trial was registered with CTRI (CTRI/2018/05/014225). Thirty consenting patients of stable vitiligo with 60 near-symmetrical patches were recruited. Block randomisation was done using computer-generated randomisation software and each patch was allocated either of the two grafting modalities. Efficacy was assessed by the Physician Global Assessment Scale on serial images and pain by the Numerical Rating Pain Scale. Results and conclusion: The non-cultured epidermal cell suspension was found to be an overall statistically superior technique to the automated epidermal harvesting system in terms of efficacy (re-pigmentation). Both donor and recipient site complications were significantly less with the automated epidermal harvesting system grafting and this method had the distinct advantage of being a painless and easy technique with minimal recovery time. A novel observation was that a good colour match and near-complete re-pigmentation occurred in patients with a darker skin colour with both techniques. Limitations: The main limitation of our study was the small sample size. Also, the size of the treated patches was limited such that they could be covered by the 5 × 5 cm size of the automated epidermal harvesting system blade. However, a larger area can be covered with multiple sessions.
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Cowpea leaves are lost annually due to infestation and spoilage when being transported to clients and the losses at the local markets are brought on by inadequate postharvest handling procedures and market glut, particularly during peak seasons. High moisture content from the cowpea leaves at harvest stage may contribute to increased spoilage hence lowering quantity and quality. The choice of appropriate harvesting stage and drying method can help to reduce this problem. The aim of this study was to determine the best harvesting stage and efficient drying method that would maintain high leaf nutrient composition. Cowpeas variety M66 was used for the research and the treatments included three harvesting stages (21, 35 and 49 days after sowing [DAS]), three drying methods (open sun, solar dryer and oven. Data was collected on iron, calcium, crude fibre, beta carotene, protein and moisture content. The data was subjected for variance using Statistical Analysis System 9.2 edition and significantly different means separated using least significant difference at 5%. The results indicated significant (p<0.05) differences in moisture, calcium, proteins, beta carotene and crude fibre content in both trials. Harvest stage and drying method did not significantly (p<0.05) influence the iron content. Oven and solar drying methods showed better nutrient and mineral retention in the three harvesting stages when compared to the open sun drying method.
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Resumen El 21 de julio de 1988, en México se realizó con éxito el primer trasplante de corazón; 34 años después, diversos centros hospitalarios del país efectúan este procedimiento. Aquí se presenta información y comentarios de los resultados obtenidos en este periodo en el Hospital General "Dr. Gaudencio González Garza", Centro Médico Nacional La Raza, Instituto Mexicano del Seguro Social, donde se han llevado a cabo 234 trasplantes (uno de cada tres efectuados en el país), con una supervivencia a corto y mediano plazo equiparable a la reportada en el resto del mundo. Ese hospital es el único centro que realiza trasplante simultáneo de corazón-riñón y retrasplante cardiaco electivo, con resultados favorables.
Abstract On July 21, 1988, a successful heart transplant was carried out for the first time in Mexico; 34 years later, several hospitals in the country have performed this procedure. We present information and comments on the results obtained within this period at Mexican Social Security Institute La Raza National Medical Center "Dr. Gaudencio González Garza" General Hospital, where 234 transplants have been performed (one out of every three carried out throughout the country), with a short- and mid-term survival comparable to that reported in the rest of the world. This hospital is the only center that performs simultaneous heart-kidney transplantation and elective heart re-transplantation, with favorable results.
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This article has systematically sorted out and verified the name, origin, producing area, quality evaluation, harvesting and processing of Pruni Semen by consulting ancient materia medica, medical books, prescription books and modern literature, in order to provide a basis for the development of famous classical formulas containing Pruni Semen. The results showed that Pruni Semen, as a medicinal material, has been widely used in medical literature of past dynasties since it was collected in Shennong Bencaojing, and also included under the names such as Yuhe, Yuzi and Yuli, and aliases such as Jueli, Queli and Chexiali. The primordial plants mentioned in the past dynasties involve about 12 species of Rosaceae, but with Prunus humilis, P. japonica and P. glandulosa as mainstream varieties used in the past dynasties, while the 2020 edition of Chinese Pharmacopoeia stipulates that the basal plants are P. humilis, P. japonica and P. pedunculata. Most of the ancient records for the origin of Pruni Semen are found everywhere in high mountains, valleys and hills, modern literature records that its origin varies according to its base, for example, P. humilis and P. japonica are mainly produced in Hebei, eastern Inner Mongolia, Liaoning, Shandong and other regions of China, and P. pedunculata is mainly produced in Inner Mongolia. Modern literature summarizes its quality as faint yellow, full and fulfilling, neat and not broken, and non-oiling, and the small Pruni Semen is better than the big Pruni Semen. The ancient processing methods of Pruni Semen mainly include blanching and peeling, blanching and peeling followed by frying, and blanching and peeling followed by pounding, with the common feature of blanching and peeling. The successive editions of Chinese Pharmacopoeia stipulate that it should be pounded when used. Based on the results of the herbal textual research and the writing time of Bianzhenglu, and combined with the market survey of Pruni Semen, it is suggested that P. humilis or P. japonica should be used as the origin of Pruni Semen in Sanpiantang, and it is harvested when the fruits are ripe, the kernels are collected by removing the stones, and processed by blanching, peeling and pounding consulting the decoction method in the current edition of Chinese Pharmacopoeia.
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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.
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Viscum coloratum (Kom.) Nakai is a well-known medicinal plant. However, the optimal harvest time for V. coloratum is unknown. Few studies were performed to analyze compound variation during storage and to improve post-harvest quality control. Our study aimed to comprehensively evaluate the quality of V. coloratum in different growth stages, and determine the dynamic variation of metabolites. Ultra-performance liquid chromatography tandem mass spectrometry was used to quantify 29 compounds in V. coloratum harvested in six growth periods, and the associated biosynthetic pathways were explored. The accumulation of different types of compounds were analyzed based on their synthesis pathways. Grey relational analysis was used to evaluate the quality of V. coloratum across different months. The compound variation during storage was analyzed by a high-temperature high-humidity accelerated test. The results showed that the quality of V. coloratum was the hightest in March, followed by November, and became the lowest in July. During storage, compounds in downstream steps of the biosynthesis pathway were first degraded to produce the upstream compounds and some low-molecular-weight organic acids, leading to an increase followed by a decrease in the content of some compounds, and resulted in a large gap during the degradation time course among different compounds. Due to the rapid rate and large degree of degradation, five compounds were tentatively designated as "early warning components" for quality control. This report provides reference for better understanding the biosynthesis and degradation of metabolites in V. coloratum and lays a theoretical foundation for rational application of V. coloratum and better quality control of V. coloratum during storage.
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Viscum/chemistry , Plants, Medicinal/chemistry , Chromatography, Liquid , Mass Spectrometry , MetabolomicsABSTRACT
Aims@#Thraustochytrids have been shown to be excellent lipid producers due to their ability to accumulate over 50% lipid (g/g biomass) containing up to 50% docosahexaenoic acid (DHA). However, efficient and cost-effective cell recovery of lipid-rich biomass has become a significant challenge at the industrial scale. In this study, we attempted to enhance the harvesting efficiency (HE) and the DHA content of Aurantiochytrium sp. through co-cultivation with a γ-linolenic acid (GLA)-producing oleaginous filamentous fungus, Cunninghamella bainieri 2A1.@*Methodology and results@#A 72 h old C. bainieri 2A1 culture in the form of loose mycelia or pellets of various sizes was added into 72 h old Aurantiochytrium sp. cultures and further incubated for 48 h. The HE of Aurantiochytrium sp. was then determined by comparing the remaining OD values of the supernatant with and without minimal centrifugation at 4000× g. Results showed that 63.23% of HE was achieved without centrifugation from co-cultivation with dispersed mycelia. Higher HE between 96.71-99.55% was achieved when centrifugation was implemented, with the highest value resulting from co-cultivation with dispersed mycelia. These are higher than HE of centrifuged control cultures (80%) consisting of Aurantiochytrium sp. monocultures, suggesting that co-cultivation with C. bainieri 2A1 facilitates the recovery of Aurantiochytrium sp. cells. Moreover, the co-cultivation also resulted in a 28% increase in DHA compared to non-optimized cultures.@*Conclusion, significance and impact of study@#This study provides the first evidence of enhancement in harvesting and DHA content of oleaginous thraustochytrids that could be achieved through co-cultivation with oleaginous fungi.
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Heterotrophic Processes , Cunninghamella , EukaryotaABSTRACT
ABSTRACT The no-touch saphenous vein with surrounding pedicle tissue harvesting technique preserved endothelium and vessel wall integrity and demonstrated improved long-term saphenous vein conduit patency that was comparable to internal thoracic artery conduit patency. Despite improved saphenous vein conduit patency rates, there is a possibility that no-touch saphenous vein harvest may increase wound complication rates by increased tissue disruption, including venous and lymphatic channels. Comprehensive strategies to minimize leg wound complications after no-touch saphenous vein harvest are discussed.
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ObjectiveTo investigate the quality variation of Lonicera japonica flower from different harvesting periods by ultraviolet visible(UV-Vis) fingerprint combined with chemometrics. MethodTwenty-five L. japonica flower samples from five harvesting periods, including young bud stage,green bud stage,white bud stage,silver and golden flower stages, were collected, with five samples for each stage. UV-Vis fingerprints of L. japonica flower from different harvesting periods were established in the context of the optimum extraction method based on the single factor experiment. The results showed that the absorption values at 209,216,226,250,280,303,318, and 350 nm were significantly different. Moreover,after data pretreatment and normalization,multivariate statistical analyses, such as principal component analysis (PCA),partial least squares discriminant analysis (PLS-DA),and orthogonal PLS-DA (OPLS-DA)were performed by SIMCA-P+ to establish the quality variation model of L. japonicas flower from harvesting periods. ResultAs revealed by PCA and PLS-DA, L. japonicas flower samples from five harvesting periods were clustered separately and closely in a harvesting time-dependent manner, suggesting that the content of components contained in samples from different harvesting periods was highly distinct and correlated with harvesting periods. The pairwise comparison of OPLS-DA indicated that triterpenoids or volatile oils were the main components causing the changes from the young bud stage to the green bud stage,and the content of them decreased. The main components from the green bud stage to the white bud stage were triterpenoids (or iridoids),volatile oils,phenolic acids, or flavonoids,and the content of them decreased, which was consistent with the HPLC result of chlorogenic acid. From the white bud stage to the silver flower stage, the main components were iridoids (increasing in content) and triterpenoids (or volatile oils) (decreasing in content). The main altered components from the silver flower stage to the golden flower stage were triterpenoids (or volatile oils) whose content increased. ConclusionThis method is simple and feasible, which can provide references for the quality control of Chinese medicine.
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Based on the ancient literature of all dynasties, this article makes a systematic textual research on the name, origin, producing area, quality, harvesting and processing of Magnoliae Officinalis Cortex used in the famous classical formulas, and clarifies its information of each link in different historical periods, so as to provide a reference and basis for the development and utilization of the related formulas. The results showed that the main varieties of Magnoliae Officinalis Cortex were Magnolia officinalis or M. officinalis var. biloba. The main production areas are Hubei, Sichuan, Chongqing and other places, forming the famous authentic medicine. The processing methods of the past dynasties are mainly cleansing and processing with ginger. In the formulas clearly marked with ginger processing, ginger-processed products is suggested to choose. If not clearly marked, raw or ginger-processed products can be used as needed.
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This paper made a systematic textual research on the historical evolution and changes of the name, origin, producing area, harvesting and processing methods of Jujubae Fructus used in famous classical formulas by referring to the ancient literature, so as to provide a basis for the sampling and research of the formulas containing the medicinal materials. According to textual research, there are many names of Jujubae Fructus, most of which are named by characters or producing areas, which are called Dazao. Ziziphus jujuba has always been the mainstream variety in all dynasties, and Z. jujuba var. inemmis has also been used. Considering that the differences between the two are not obvious, we can use Z. jujuba and Z. jujuba var. inemmis as the origins of Dazao. The germplasm resources of Jujubae Fructus are rich, which are distributed all over the country. Qingzhou (now Shandong), Jinzhou (now Shanxi) Jiangzhou (now Shanxi), Puzhou (now Shanxi) have been recorded as authentic producing areas of Jujubae Fructus in the past dynasties, especially in Shandong. At the beginning of the 21st century, the planting of Jujubae Fructus in Xinjiang gradually developed, and now has a high market recognition, becoming an emerging production area of high-quality samples. Harvest period of Jujubae Fructus is mostly August in the past dynasties, and this is basically the same as today. The main processing method is simple cleansing and drying. Through textual research, it is suggested that Jujubae Fructus in famous classical formulas should be mainly from Shandong, Shanxi and other traditional high-quality producing areas, the processing method should follow the 2020 edition of Chinese Pharmacopoeia for simple cleansing and drying.
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Through the combing of ancient books of Chinese herbal medicine in the past dynasties, a textual research of Coptidis Rhizoma involved the name, origin, medicinal parts, producing area, quality evaluation, harvesting and processing methods in famous classical formulas was conducted in this paper. After textual research, the mainstream varieties of Coptidis Rhizoma in the Ranunculaceae family before Tang and Song dynasties were Coptis chinensis and C. chinensis var. brevisepala, after the Ming and Qing dynasties, C. deltoidea, C. teeta and C. omeiensis were gradually praised. In ancient times, the authentic producing area of Coptidis Rhizoma has the characteristics of gradually moving to the west. The eastern Coptidis Rhizoma was highly praised in the early stage, while in the later stage, western Coptidis Rhizoma like chicken feet was highly praised. In the early stage, western Coptidis Rhizoma probably originated from C. chinensis and its genus, while Coptidis Rhizoma like chicken feet was cultivated, and no wild species has been found so far. As Coptidis Rhizoma has mixed use of multiple origins in ancient books of past dynasties, based on the current shortage of market resources in C. teeta and C. deltoidea, there are also endangered and protected plants of C. chinensis var. brevisepala and C. omeiensis, combined with the mainstream medicines and resources of past generations, it is recommended to choose C. chinensis as the base of the formulas. In ancient times, there were many processing methods for Coptidis Rhizoma, such as frying and wine-, ginger-, honey-processed. In the process of developing famous classical formulas, the appropriate processing specifications of Coptidis Rhizoma should be selected based on the original source records and the requirements of the medicinal material.
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By consulting ancient herbal medicines and medical books, combined with modern documents and field investigations, the textual research of Pheretima has been conducted to verify the name, origin, producing area, quality, harvesting and processing changes, and sort out the relationship of origin between ancient and modern times, so as to provide reference and basis for the development and utilization of the related famous classical formulas. Through textual research, it is known that there are many aliases for Pheretima, the rectification of name was "Qiuyin" or "Baijing Qiuyin" in materia medica books. In the Song dynasty and later prescription books, the prescription name is mostly Dilong. From the beginning of Yaowu Chuchanbian (《药物出产辨》), Dilong was used as the rectification of name. It is widely distributed in our country, which is produced all over the country and mostly wild. According to ancient Pheretima with "Baijing Dilong", "Jingbai Shenzi" and "Datiao" as the principles of medicine, combined with historical origin, producing area and easy access, it is confirmed that Pheretima used in ancient times to the present is mainly Pheretima aspergillum, and it also has many other Qiuyin as Pheretima for medicinal purposes. Chinese Pharmacopoeia has unified the origin of the Pheretima since the 1995 edition based on historical origins and actual harvesting conditions. The medicinal material processed by P. aspergillum was called Guangdilong, and the medicinal materials processed by P. vulgaris, P. guillelmi and P. pectinifera were called Hudilong. Since then, all the herbal books published in the future are in line with Chinese Pharmacopoeia that was implemented at that time. The authentic production areas of Guangdilong are Guangdong and Guangxi, and the authentic production areas of Hudilong is Jiangsu, Shanghai, Zhejiang and Anhui. The Guangdilong produced in Guangdong and Guangxi has the best quality. After harvesting, remove the soil and offal, wash and dry. Clinically cut into sections for medicine, or prepare medicine according to prescription. The Pheretima in ancient used "Baijing Dilong", "Jingbai Shenzi" and "Datiao" as the mainstream quality evaluation standards. According to historical origins, P. aspergillum should be the main source of Pheretima, and its quality is better than other species. Therefore, it is recommended that Pheretima in Shentong Zhuyutang use P. aspergillum, which is produced in Guangdong, Guangxi and other places. After harvest, the abdomen was opened in time to remove the viscera and sediment, washed and dried.
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In this paper, the name, origin, medicinal properties, specifications, clinical efficacy, producing area, quality evaluation and processing methods of Forsythiae Fructus in the famous classical formulas are researched by consulting related herbal literature, medical books and prescription books. The results showed that Forsythiae Fructus was sourced from Hypericum ascyron and its genus plants before Song dynasty, and it is used as medicine in many parts. After Song dynasty, Forsythiae Fructus is sourced from the fruit of Forsythia suspensa. Since the Ming dynasty, Forsythiae Fructus is divided into Qingqiao and Laoqiao according to different harvesting time. According to the research results, it is suggested to refer to the following suggestions for the application of Forsythiae Fructus in the development of famous classical formulas:①F. suspensa should be chosen as the origin since the Ming and Qing dynasties. ②If there is no special requirement for the source of prescriptions, it is recommended that Laoqiao be used in famous classical formulas since the Ming and Qing dynasties. ③The harvest time of Qingqiao should be from July 15th to August 15th, and Laoqiao should be in September, and it should be the husk after the seeds have been removed.
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Ephedrae Herba is a commonly used medicine for dispersing wind and cold, which has a long medicinal history. By referring to the herbal literature, medical books and prescription books, this paper intends to carry out herbal textual research on the name, origin, medicinal part, producing area, harvesting and processing methods of Ephedrae Herba in famous classical formulas, in order to provide the basis for the development of relevant famous classical formulas. According to textual research, the main base of ancient Ephedrae Herba was Ephedra sinica. The medicinal part is the herbaceous stems of Ephedrae Herba. Before the Northern and Southern dynasties, the origin of the records was Jindi and Hedong, which is now Shanxi province. In the Northern and Southern dynasties and later generations, the producing area expanded, and now it is mainly distributed in Hebei, Shanxi, Shaanxi, Inner Mongolia, Gansu, Liaoning and other places, among which Inner Mongolia is the main producing area. The harvesting and processing methods in the past dynasties are to harvest the stems in autumn, dry them in the shade or air to 70%-80% dry, and then dry them in the sun. The processing methods in the past dynasties mainly include removing the knots, wine-fried, honey-fried, processing with vinegar and so on, at present, only honey-fried is still in use. Based on the research results, it is suggested that Ephedrae Herba in famous classical formulas should be selected the dry herbaceous stems of E. sinica. If the processing requirements are not indicated, it is suggested to use raw products of Ephedrae Herba.
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By referring to the materials of ancient materia medica, prescriptions and medical books, combining with modern literature, this paper made textual research on the name, origin, producing area, quality evaluation, harvesting and processing methods of Ligustici Rhizoma et Radix in famous classical formulas, so as to provide a basis for the selection and use of Ligustici Rhizoma et Radix in the development of famous classical formulas. Through textual research, it can be seen that Ligustici Rhizoma et Radix is the correct name in all dynasties, but it still has many aliases. The main strain of Ligustici Rhizoma et Radix was Ligusticum sinense and L. jeholense, in addition, there are also L. tenuissimum, Sinodielsia yunnanensis, and Conioselinum vaginatum, L. sinense var. hupehense used in different regions. Since modern times, the textual examination of its scientific name is more complicated. Different foreign scholars have given many scientific names from their local observation, but most of them do not match the actual situation of Ligustici Rhizoma et Radix in ancient China. It is probably because they did not collect the original plants of Chinese Ligustici Rhizoma et Radix and conduct accurate identification. After the founding of the People's Republic of China, the L. sinense and L. jeholense was identified as the original plants through systematic investigation and arrangement of Ligustici Rhizoma et Radix. Since modern times, L. sinense is distributed in the upper and middle reaches of the Yellow River and the south of the region, a small amount of production in Sichuan, Hubei, Hunan and Jiangxi. L. jeholense is distributed in the middle and lower reaches of the Yellow River and the north of the region, mostly produced in Liaoning and Hebei. The ancient harvesting period of Ligustici Rhizoma et Radix was concentrated in January and February according to the lunar calendar with thick roots, dry, fragrant, heavy quality as the best. But now the collection of roots and rhizome more than concentrated in spring before seedling emergence and autumn when leaves were gone, and take the large, dry, yellow, strong, fragrant, less roots, residual short as the best. In the past dynasties, raw products were the main processing methods, and there were also roasting, grinding and so on. Based on the research results, it is suggested that the raw roots and rhizomes of L. sinense and L. jeholense should be used in the development of famous classical formulas.
ABSTRACT
In this paper, by consulting the historical herbs and medical classics coupled with related literature in modern research, the historical edition of Chinese Pharmacopoeia and local chronicles of traditional Chinese medicine (TCM) along with the ancient historical evolution of the processing methods of Pinelliae Rhizoma origin as well as the related processing methods of Pinelliae Rhizoma origin from 1959 to 2020 were systematically collated and summarized. It was found that the main processing methods of Pinelliae Rhizoma origin were peeling, decoction washing, lime wrapping and sun-drying. However, stacking, peeling, sun-drying or oven-drying are the primary methods in modern local chronicles of TCM. Meanwhile, washing, peeling, removing fibrous roots and sun-drying are the main methods in Chinese Pharmacopoeia. In addition, there were some changes in the quality evaluation of Pinelliae Rhizoma in different historical periods. Round and white were the best in the quality evaluation of Pinelliae Rhizoma in ancient times, while the evaluation indexes were further refined to size, color, texture, powder property, purity and evenness in modern herbal works. In modern studies, the quality of Pinelliae Rhizoma was mostly evaluated by the chemical components such as alkaloids, total organic acids, polysaccharides, nucleosides, fingerprint and pharmacodynamics. At present, the purification and drying stages of Pinelliae Rhizoma are in the transitional stage between the traditional manual peeling and natural drying methods as well as the modern mechanized and large-scale production. Therefore, a reasonable and feasible modern processing methods and guiding standards of Pinelliae Rhizoma are developed urgently to normalize the processing of Pinelliae Rhizoma and ensure the quality of medicinal materials.