[Objectives]To study the prescription compatibility rules of the Tibetan medicine Polygonatum cirrhifolium(Polygonati Rhizoma,Huangjing)based on data mining,so as to provide data support for clinical application and n...[Objectives]To study the prescription compatibility rules of the Tibetan medicine Polygonatum cirrhifolium(Polygonati Rhizoma,Huangjing)based on data mining,so as to provide data support for clinical application and new drug development.[Methods]Prescriptions containing Tibetan medicine Huangjing were collected from Tibetan Medicine Prescriptions Encyclopedia and Tibetan Medicine Classic Literature Collection.The Traditional Chinese Medicine Inheritance Computing System(TCMICS 3.0)and R version 4.1.3 were used to mine and analyze the compatibility rules of prescriptions containing Tibetan medicinal material Huangjing,the rules of medication for high-frequency diseases,and the association rules of various medicinal materials.[Results]A total of 124 prescriptions were collected from the classic literature of Tibetan medicine,and the frequency statistical analysis showed that drugs compatible with Huangjing(≥15)included Tianmendong(Root of Cochinchinese Asparagus)(80),Mirabilis himalaica(Edgew.)Heimerl(Himalayan purple jasmine)(72),Jili(Tribuli Fructus)(70),Tibetan Aoruqin(Vicatia coniifolia)(58),Baidoukou(Round Cardamom Fruit)(47),Hezi(Chebulae Fructus)(45),Shouzhangshen(Rhizome of Conic Gymnadenia)(28),Yuganzi(Phyllanthi Fructus)(26),Pomegranate(25),Maohezi(Terminaliae Belliricae Fructus)(24),Zicaorong(Lacca)(23),Rougui(Cinnamomi Cortex)(15).The main diseases were yellow water disease(20),gynecological diseases(19),kidney cold disease(17),and other Tibetan medicine diseases.Association rule analysis showed that the drug combinations with the highest frequency were Huangjing—Tianmendong,Huangjing—Himalayan purple jasmine,and Huangjing—Jili.[Conclusions]The frequency of combined use of Tibetan medicine Huangjing with dry yellow water,tonifying kidney and diuresis,nourishing health,and treating gynecological diseases is relatively high.展开更多
[Objectives]To study the prescription compatibility rules of the Tibetan medicinal material Mirabilis himalaica(Edgew.)Heimerl(Himalayan purple jasmine)based on data mining,and to provide reference for clinical applic...[Objectives]To study the prescription compatibility rules of the Tibetan medicinal material Mirabilis himalaica(Edgew.)Heimerl(Himalayan purple jasmine)based on data mining,and to provide reference for clinical application and new drug development.[Methods]The literature data were collected and the prescriptions containing Himalayan purple jasmine were sorted and classified by Microsoft Excel 2019 software.The Traditional Chinese Medicine Inheritance Computing System(TCMICS 3.0)was used to statistically analyze the high-frequency drugs and core drug combinations,the frequency of disease treatment,and the rules of"tastes transforming flavors"of drugs.The FP-tree algorithm was used to analyze the association rules among various Tibetan medicinal materials in the prescriptions,and different supports were set to analyze the compatibility rules of the prescriptions.[Results]There were a total of 129 prescriptions containing Himalayan purple jasmine,297 medicinal materials used in combination with it,and 34 Tibetan medicinal materials with a frequency of≥15.The medicinal flavors were mostly sweet,bitter,and pungent.Among the three flavors,bitterness and sweetness were the majority.At the same time,the medicinal properties were blunt,soft,cool,and warm.A total of 130 kinds of diseases were involved,among which 8 kinds of diseases such as gynecology,kidney cold and yellow water disease had a high frequency.Through association rule analysis,33 commonly used core drug combinations were obtained.The support,confidence,and frequency of the five drug combinations[Jili(Tribuli Fructus),Huangjing(Polygonati Rhizoma),Tianmendong(Root of Cochinchinese Asparagus),and Tibetan Aoruqin(Vicatia coniifolia)]→Himalayan purple jasmine were the basic prescription of Tibetan medicine Wudagen Powder.The drug combinations with higher confidence included Bibo(Piperis Longi Fructus)→Himalayan purple jasmine,Pomegranate(Punica granatum→Himalayan purple jasmine,Baidoukou(Round Cardamom Fruit)→Himalayan purple jasmine,Hezi(Chebulae Fructus)→Himalayan purple jasmine.Jili(Tribuli Fructus)→Himalayan purple jasmine,Huangjing(Polygonati Rhizoma)→Himalayan purple jasmine and Tianmendong(Root of Cochinchinese Asparagus)→Himalayan purple jasmine had highest frequency.[Conclusions]Through the TCMICS,this paper analyzed the compatibility rules of commonly used drugs containing Himalayan purple jasmine and the characteristics of the main diseases.It can be seen that Himalayan purple jasmine is sweet in taste and warm in nature.It assists sovereign drugs in the form of ministerial drugs,which enhances the effect of regulating"long"and nourishing,and plays the role of regulating"long",dispelling cold,and reconciling various drugs,which embodies the compatibility rules of sovereign and ministerial drugs of Tibetan medicines.The main diseases of Himalayan purple jasmine are related to"long"regulation,and it is mostly used in the treatment of gynecological diseases after being combined with other drugs to form a prescription.Most drugs in the prescriptions are sweet,which is the therapeutic principle of regulating"long"and nourishing,and verifies the scientific and rational principle of clinical use of Tibetan medicine.In the prescription,the medicinal properties include both warm and cool,and the medicinal taste is sweet and bitter,which is in line with the compatibility theory of"tastes transforming flavors"in traditional Tibetan medicine prescriptions.展开更多
By consulting ancient Tibetan medical literature such as books of materia medica,medical works,and prescription books,as well as modern and contemporary literature and materials,and in combination with the interview a...By consulting ancient Tibetan medical literature such as books of materia medica,medical works,and prescription books,as well as modern and contemporary literature and materials,and in combination with the interview and investigation of clinical use and expert consultation,we collated and verified the name,variety classification,plant origin,application and other recorded information of Tibetan herb"Azhong",and summarized and analyzed the phenomenon of mixed use or substitution of medicinal plants.According to textual research,it first appeared in the Four Medical Tantras.The Tibetan herb"Azhong"is simply recorded in the ancient books and Materia Medica,which are collectively called"Azhong".Since the 15 th century,there have been varieties such as Za Azhong,Kan Azhong,Xing Azhong,Pumou Azhong,Zha Azhong,Bang Azhong,and the top grade is called Azhong Nabu and Nacang Azhong,and the bottom grade is Azhong Gabu.According to modern literature,the origin of"Azhong"involves 12 species of plants belonging to 8 genera,5 families.At present,Arenaria kansuensis Maxim,Ajania purpurea Shih.and Thalictrum squamiferum Lecoy are the mainstream medicinal materials of"Azhong".There is a certain basis for clinical application and theoretical records in the literature in terms of the mutual alternative use of Tibetan medicinal materials such as"Azhong"and traditional medicinal materials in different regions.Therefore,it is necessary to use modern chemical technology and pharmacological experiments to conduct a comparative study on the material basis and biological activity of different varieties of medicinal materials,and carry out a survey on resources and use status,so as to standardize the use of their varieties and origins and improve the safety of clinical medication.展开更多
Vicatia thibetica de Boiss is a Tibetan medicinal herb and mainly contains chemical components such as flavonoids,β-sitosterol and ferulic acid.It has good pharmacological effects such as anti-inflammatory,analgesic,...Vicatia thibetica de Boiss is a Tibetan medicinal herb and mainly contains chemical components such as flavonoids,β-sitosterol and ferulic acid.It has good pharmacological effects such as anti-inflammatory,analgesic,anti-fatigue,anti-oxidation,anti-aging and enhancing immunity.Based on relevant domestic and foreign literature,this paper comprehensively reviews the main components,pharmacological activity and clinical prescription application of V.thibetica de Boiss,to provide a reference for the in-depth research and comprehensive development and utilization of V.thibetica de Boiss.展开更多
OBJECTIVE To investigate whether Renqing Changjue has a protective effect on acute respiratory distress syndrome(ARDS)induced by endotoxin lipopolysaccharide(LPS)in rabbits.METHODS Thirty-six healthy male New Zealand ...OBJECTIVE To investigate whether Renqing Changjue has a protective effect on acute respiratory distress syndrome(ARDS)induced by endotoxin lipopolysaccharide(LPS)in rabbits.METHODS Thirty-six healthy male New Zealand white rabbits were randomly divided into six groups:normal control group,model group,dexamethasone group,Renqing Changjue high,middle and low dose group,with six rabbits in each group.LPS was used to replicate the ARDS model after five consecutive days of gavage.Arterial pressure,respiratory rate and anal temperature blood were recorded for arterial blood gas analysis at 0,0.5,1,2 and 4 h,respectively.At the end of the four-hour experiment,rabbits were killed by bloodletting,and the lung tissue was quickly removed to determine the cytokines,SOD,MDA and pathological examination of rabbit lung.RESULTS Renqing Changjue can significantly reduce the pathological changes of lung in ARDS model group.The expression of AQP1 and MPO in rabbit lung was significantly decreased by immunohistochemistry(P<0.05),reduce the lung wet/dry weight ratio,increase the ratio of PaO_(2)/FiO_(2),inhibit the release of inflammatory factors and scavenge free radicals and antioxidant effects.CONCLUSION Renqing Changjue can effectively protect rabbits with acute respiratory distress syndrome induced by LPS,and may protect the lung by inhibiting the release of cytokines and anti-oxidation.展开更多
[Objectives]To determine active components of Lamiophlomis rotata(Benth.)Kudo.[Methods]A new method was developed for the quantitative determination of L.rotata by using Ultra-performance convergence chromatography.Th...[Objectives]To determine active components of Lamiophlomis rotata(Benth.)Kudo.[Methods]A new method was developed for the quantitative determination of L.rotata by using Ultra-performance convergence chromatography.The separation of active components of L.rotata was successfully achieved on Waters ACQUITY UPC column,with gradient elution carbon dioxide and methanol solvent at flow rate of 0.7 mL/min.The separation gradient elution rate was as follows:15%methanol 0-1 min,18%methanol 1-5 min,20%methanol 5-6 min,25%methanol 6-7 min,30%methanol 7-8 min,30%methanol 8-9 min,15%methanol 9-10 min.The conditions used in the separation process was as follows:column temperature 30℃;injection volume 2μL.Under the abovementioned conditions,the content of methyl glucoside was measured by 3D-full wavelength scanning.The validity of the method was tested by analyzing the precision,reproducibility,stability and accuracy.[Results]The results indicated that in terms of extraction and separation of compounds,supercritical CO2 not only has the diffusion property of gas,but also has the density and fluidity of liquid.[Conclusions]The ultra-high performance chromatography is a new technique for drug analysis.展开更多
[Objectives]To prepare plumbagin nanomicelle(PLB-N)in-situ gel,and optimize the formulation and process.[Methods]PLB-N was prepared by self-assembly method,and the optimal formulation of PLB-N in-situ gel was determin...[Objectives]To prepare plumbagin nanomicelle(PLB-N)in-situ gel,and optimize the formulation and process.[Methods]PLB-N was prepared by self-assembly method,and the optimal formulation of PLB-N in-situ gel was determined by orthogonal experiment design and single factor method.[Results]The optimal preparation process for PLB-N was a drug to lipid ratio of 1:3,a Tween 80 content of 5%,an ethanol content of 7.5%of the hydration medium,a magnetic stirring speed of 2200 rpm,a stirring time of 30 min,and an ultrasound time of 10 min.The optimal formulation of PLB-N in-situ gel was 22%of poloxamer 407,6%of poloxamer 188,and 1:1 of PLB-N to water.The encapsulation efficiency of PLB-N prepared with the optimal formula was(95.8%±0.4%),and the average particle size was(75.19±1.14)nm,and the Zeta potential was(-20.73±1.19)mv.[Conclusions]PLB-N in-situ gel had stable and reliable preparation process,uniform content,and broad application prospects.展开更多
Similar to traditional Chinese medicine(TCM),Tibetan medicine emphasizes the concepts of holism,balance,and etiology.With the individual as the nexus of macro-and micro-ecologies,multi-layered systemic etiologies,info...Similar to traditional Chinese medicine(TCM),Tibetan medicine emphasizes the concepts of holism,balance,and etiology.With the individual as the nexus of macro-and micro-ecologies,multi-layered systemic etiologies,inform therapeutic pharmacologies for cultivating network effects to induce the healing response.Tibetan medicine approaches health and healing through perspectives that frame the balance achieved in the internal world as inextricably linked to balance in the external world,and vice versa,that includes expressions of mind and consciousness.The external world refers to the broader context of the natural world as comprised of matter and energy expressed through five elemental dynamics(Chi.Tu,Shui,Huo,Feng and Kong;Tib.Sa,Chu,Mé,r Lung and Kha)describing principles of solidity,cohesion,heat,motility,and interactive space,or earth,water,fire,wind and space,respectively.The internal world refers to the local context of the physical mass and biochemical cascades of energy transfers comprising the human body,its behaviors and functions,including cognitive factors,as also expressed through the five elemental dynamics.The external and internal systems merge as a unified whole,where the five elemental dynamics characterize materio-energetic exchanges between the broader and local ecologies of individual body and natural world,as well as social relations,mental affects,and contextual conditions.The interdependence,opposition,restriction and transformation among three physiological systems known as nyépa(Three Causal Factors)-r Lung,Tripa and Béken(pronounced lōōng,trīpa,baekan,respectively)-are used to discuss the balance of the whole.The causal origins of disease are explained through disturbances to these systems as a combination of afflictive mental factors,physiologic imbalances,and disturbing conditions from the natural world,such as environmental toxins,pathogens,and exposures.Of the three causal origins,afflictive mental factors are particularly emphasized as important etiological conditioning influences.Initiation and progression of disease is divided into four stages:baseline stage,initiating stage,developing stage,and maturing stage.Each stage has an explicit therapeutic paradigm for treatment,recovery,and health maintenance demonstrating the distinct theoretical framework for disease treatment in Tibetan medicine as specific to individual body,particular disease etiology,and constitutionally-directed unique compound metabolism pharmacodynamically.展开更多
BACKGROUND Liver fibrosis is a common health problem worldwide and there is still a lack of effective medicines.The Chinese herbal medicine,Gan Shen Fu Fang(GSFF)is composed of salvianolic acid B and diammonium glycyr...BACKGROUND Liver fibrosis is a common health problem worldwide and there is still a lack of effective medicines.The Chinese herbal medicine,Gan Shen Fu Fang(GSFF)is composed of salvianolic acid B and diammonium glycyrrhizinate.In this study,we observed the effects of GSFF on liver fibrosis in vivo and in vitro in an attempt to provide some hope for the treatment.AIM To observe the effects of GSFF on liver fibrosis in vivo and in vitro and investigate the mechanism from the perspective of the inflammatory response and extracellular signal-regulated kinase(ERK)phosphorylation.METHODS Common bile duct-ligated rats were used for in vivo experiments.Hepatic stellate cells-T6(HSC-T6)cells were used for in vitro experiments.Hematoxylin and eosin staining and Masson staining,biochemical assays,hydroxyproline(Hyp)assays,enzyme-linked immunoasorbent assay and western blotting were performed to evaluate the degree of liver fibrosis,liver function,the inflammatory response and ERK phosphorylation.The CCK8 assay,immunofluorescence and western blotting were applied to test the effect of GSFF on HSC-T6 cell activation and determine whether GSFF had an effect on ERK phosphorylation in HSC-T6 cells.RESULTS GSFF improved liver function and inhibited liver fibrosis in common bile ductligated rats after 3 wk of treatment,as demonstrated by histological changes,hydroxyproline assays and collagen I concentrations.GSFF alleviated inflammatory cell infiltration and reduced the synthesis of pro-inflammatory cytokines[tumor necrosis factor-α(TNF-α)and interlukin-1β]and NF-κB.In addition,GSFF decreased ERK phosphorylation.In vitro,GSFF inhibited the viability of HSC-T6 cells with and without transforming growth factorβ1(TGF-β1)stimulation and decreased the synthesis of collagen I.GSFF had the greatest effect at a concentration of 0.5μmol/L.GSFF inhibited the expression ofα-smooth muscle actin(α-SMA),a marker of HSC activation,in HSC-T6 cells.Consistent with the in vivo results,GSFF also inhibited the phosphorylation of ERK and downregulated the expression of NF-κB.CONCLUSION GSFF inhibited liver fibrosis progression in vivo and HSC-T6 cell activation in vitro.These effects may be related to an alleviated inflammatory response and downregulated ERK phosphorylation.展开更多
In order to quickly detect the rancidification of Huangjiu in pottery jars,this study developed a fast detection method based on the principle of electrical conductivity changes caused by microbial contamination.The c...In order to quickly detect the rancidification of Huangjiu in pottery jars,this study developed a fast detection method based on the principle of electrical conductivity changes caused by microbial contamination.The change in total acid in Huangjiu was positively correlated with the increase of electrical conductivity.This method was applied to an online monitoring system for Huangjiu storage in stainless steel tanks.When the electrical conductivity exceeds the normal fluctuation range(mean+3 standard deviations)of previous data,the monitoring system recognizes microbial contamination.By optimizing the conductivity-temperature compensation coefficient and conductivity statistical method,the standard deviation of the method was reduced and the sensitivity of microbial pollution monitoring was improved.The ranges of conductivity and compensation coefficient of common types of Huangjiu were estimated.Interference in conductivity measurements due to environmental factors was minimised through the synchronous comparison of conductivity data for multiple tanks of Huangjiu.The standard deviation,which indicates the fluctuation range of the system,decreased from 143 to 2μS/cm.The monitoring system was then applied in Huangjiu storage tanks with capacities of 60 t and 300 t.Through the comparison of conductivity data change,the abnormal signals caused by microbial contamination during the storage of Huangjiu were found over time.Meanwhile,through offline detection of total acid in Huangjiu,the effectiveness of microbial contamination online detection was verified.展开更多
In this work,hollow Fe_(2)O_(3)/Co_(3)O_(4)microcubes have been successfully synthesized through a hydrothermal method followed by an annealing process using metal-organic framework of Prussian blue as a soft template...In this work,hollow Fe_(2)O_(3)/Co_(3)O_(4)microcubes have been successfully synthesized through a hydrothermal method followed by an annealing process using metal-organic framework of Prussian blue as a soft template.The morphologies,microstructures,surface area and element compositions have been carefully characterized by a series of techniques.Meanwhile,compared with that of pure Fe_(2)O_(3)and Co_(3)O_(4),the gas sensor based on the hollow microcubes exhibits enhanced sensing performances towards acetone,e.g.,a higher response of 21.2 and a shorter response time of 5 s towards 20 ppm acetone at a relatively low working temperature of 200℃.Moreover,the hollow microcubes-based gas sensor still shows perfect long-term stability,excellent repeatability and the ability of sub-ppm level detection,which provides a possibility for its application in real life.The enhanced gas sensing performances can be attributed to the hollow structure with a high surface area and the formed p-n heterojunctions within the microcubes.展开更多
基金Supported by School Level Scientific Research Project of University of Tibetan Medicine(2021ZRZD04)Tibet Autonomous Region Science and Technology Plan Project(XZ202001Y0003C)。
文摘[Objectives]To study the prescription compatibility rules of the Tibetan medicine Polygonatum cirrhifolium(Polygonati Rhizoma,Huangjing)based on data mining,so as to provide data support for clinical application and new drug development.[Methods]Prescriptions containing Tibetan medicine Huangjing were collected from Tibetan Medicine Prescriptions Encyclopedia and Tibetan Medicine Classic Literature Collection.The Traditional Chinese Medicine Inheritance Computing System(TCMICS 3.0)and R version 4.1.3 were used to mine and analyze the compatibility rules of prescriptions containing Tibetan medicinal material Huangjing,the rules of medication for high-frequency diseases,and the association rules of various medicinal materials.[Results]A total of 124 prescriptions were collected from the classic literature of Tibetan medicine,and the frequency statistical analysis showed that drugs compatible with Huangjing(≥15)included Tianmendong(Root of Cochinchinese Asparagus)(80),Mirabilis himalaica(Edgew.)Heimerl(Himalayan purple jasmine)(72),Jili(Tribuli Fructus)(70),Tibetan Aoruqin(Vicatia coniifolia)(58),Baidoukou(Round Cardamom Fruit)(47),Hezi(Chebulae Fructus)(45),Shouzhangshen(Rhizome of Conic Gymnadenia)(28),Yuganzi(Phyllanthi Fructus)(26),Pomegranate(25),Maohezi(Terminaliae Belliricae Fructus)(24),Zicaorong(Lacca)(23),Rougui(Cinnamomi Cortex)(15).The main diseases were yellow water disease(20),gynecological diseases(19),kidney cold disease(17),and other Tibetan medicine diseases.Association rule analysis showed that the drug combinations with the highest frequency were Huangjing—Tianmendong,Huangjing—Himalayan purple jasmine,and Huangjing—Jili.[Conclusions]The frequency of combined use of Tibetan medicine Huangjing with dry yellow water,tonifying kidney and diuresis,nourishing health,and treating gynecological diseases is relatively high.
基金Supported by 2020 Chinese Medicine(Tibetan Medicine)Doctoral Program Construction Scientific Research Support Project"Research on Clinical Positioning and Quality Standard of Tibetan Medicine Wudagen Powder Based on Data Mining Network Analysis"(BSDJS-20-13)Tibet Autonomous Region Science and Technology Plan Project"Research on Active Substances and Target Molecules of Heat-clearing Drugs in Tibetan Medicine"(XZ202001Y0003C)Tibetan Medicine"14 th Five-year Plan"Connotation Construction Project"Research on Quality Control of"Five Root Medicines"of Tibetan Medicine"(2022ZYYGH12).
文摘[Objectives]To study the prescription compatibility rules of the Tibetan medicinal material Mirabilis himalaica(Edgew.)Heimerl(Himalayan purple jasmine)based on data mining,and to provide reference for clinical application and new drug development.[Methods]The literature data were collected and the prescriptions containing Himalayan purple jasmine were sorted and classified by Microsoft Excel 2019 software.The Traditional Chinese Medicine Inheritance Computing System(TCMICS 3.0)was used to statistically analyze the high-frequency drugs and core drug combinations,the frequency of disease treatment,and the rules of"tastes transforming flavors"of drugs.The FP-tree algorithm was used to analyze the association rules among various Tibetan medicinal materials in the prescriptions,and different supports were set to analyze the compatibility rules of the prescriptions.[Results]There were a total of 129 prescriptions containing Himalayan purple jasmine,297 medicinal materials used in combination with it,and 34 Tibetan medicinal materials with a frequency of≥15.The medicinal flavors were mostly sweet,bitter,and pungent.Among the three flavors,bitterness and sweetness were the majority.At the same time,the medicinal properties were blunt,soft,cool,and warm.A total of 130 kinds of diseases were involved,among which 8 kinds of diseases such as gynecology,kidney cold and yellow water disease had a high frequency.Through association rule analysis,33 commonly used core drug combinations were obtained.The support,confidence,and frequency of the five drug combinations[Jili(Tribuli Fructus),Huangjing(Polygonati Rhizoma),Tianmendong(Root of Cochinchinese Asparagus),and Tibetan Aoruqin(Vicatia coniifolia)]→Himalayan purple jasmine were the basic prescription of Tibetan medicine Wudagen Powder.The drug combinations with higher confidence included Bibo(Piperis Longi Fructus)→Himalayan purple jasmine,Pomegranate(Punica granatum→Himalayan purple jasmine,Baidoukou(Round Cardamom Fruit)→Himalayan purple jasmine,Hezi(Chebulae Fructus)→Himalayan purple jasmine.Jili(Tribuli Fructus)→Himalayan purple jasmine,Huangjing(Polygonati Rhizoma)→Himalayan purple jasmine and Tianmendong(Root of Cochinchinese Asparagus)→Himalayan purple jasmine had highest frequency.[Conclusions]Through the TCMICS,this paper analyzed the compatibility rules of commonly used drugs containing Himalayan purple jasmine and the characteristics of the main diseases.It can be seen that Himalayan purple jasmine is sweet in taste and warm in nature.It assists sovereign drugs in the form of ministerial drugs,which enhances the effect of regulating"long"and nourishing,and plays the role of regulating"long",dispelling cold,and reconciling various drugs,which embodies the compatibility rules of sovereign and ministerial drugs of Tibetan medicines.The main diseases of Himalayan purple jasmine are related to"long"regulation,and it is mostly used in the treatment of gynecological diseases after being combined with other drugs to form a prescription.Most drugs in the prescriptions are sweet,which is the therapeutic principle of regulating"long"and nourishing,and verifies the scientific and rational principle of clinical use of Tibetan medicine.In the prescription,the medicinal properties include both warm and cool,and the medicinal taste is sweet and bitter,which is in line with the compatibility theory of"tastes transforming flavors"in traditional Tibetan medicine prescriptions.
基金Supported by School-level Research and Innovation Team Cultivation Project of University of Tibetan Medicine in 2023Doctoral Program Construction Graduate Innovation Project in 2023 (BSDJS-YS-2023036).
文摘By consulting ancient Tibetan medical literature such as books of materia medica,medical works,and prescription books,as well as modern and contemporary literature and materials,and in combination with the interview and investigation of clinical use and expert consultation,we collated and verified the name,variety classification,plant origin,application and other recorded information of Tibetan herb"Azhong",and summarized and analyzed the phenomenon of mixed use or substitution of medicinal plants.According to textual research,it first appeared in the Four Medical Tantras.The Tibetan herb"Azhong"is simply recorded in the ancient books and Materia Medica,which are collectively called"Azhong".Since the 15 th century,there have been varieties such as Za Azhong,Kan Azhong,Xing Azhong,Pumou Azhong,Zha Azhong,Bang Azhong,and the top grade is called Azhong Nabu and Nacang Azhong,and the bottom grade is Azhong Gabu.According to modern literature,the origin of"Azhong"involves 12 species of plants belonging to 8 genera,5 families.At present,Arenaria kansuensis Maxim,Ajania purpurea Shih.and Thalictrum squamiferum Lecoy are the mainstream medicinal materials of"Azhong".There is a certain basis for clinical application and theoretical records in the literature in terms of the mutual alternative use of Tibetan medicinal materials such as"Azhong"and traditional medicinal materials in different regions.Therefore,it is necessary to use modern chemical technology and pharmacological experiments to conduct a comparative study on the material basis and biological activity of different varieties of medicinal materials,and carry out a survey on resources and use status,so as to standardize the use of their varieties and origins and improve the safety of clinical medication.
基金Reform and Development Special Project in 2020-Project of Engineering Research Center of Tibetan Medicine Detection Technology,Ministry of Education(324042000101)Major Project Cultivation Program of Xizang Minzu University(22MDZ02)Key Project of Tibet Natural Science Foundation(XZ202001ZR0087G)。
文摘Vicatia thibetica de Boiss is a Tibetan medicinal herb and mainly contains chemical components such as flavonoids,β-sitosterol and ferulic acid.It has good pharmacological effects such as anti-inflammatory,analgesic,anti-fatigue,anti-oxidation,anti-aging and enhancing immunity.Based on relevant domestic and foreign literature,this paper comprehensively reviews the main components,pharmacological activity and clinical prescription application of V.thibetica de Boiss,to provide a reference for the in-depth research and comprehensive development and utilization of V.thibetica de Boiss.
基金2020 Project of Tibetan Medicine Administration of Tibet Autonomous Region(JJKT202004)and 2020 Reform and Development Special Project(324042000101)。
文摘OBJECTIVE To investigate whether Renqing Changjue has a protective effect on acute respiratory distress syndrome(ARDS)induced by endotoxin lipopolysaccharide(LPS)in rabbits.METHODS Thirty-six healthy male New Zealand white rabbits were randomly divided into six groups:normal control group,model group,dexamethasone group,Renqing Changjue high,middle and low dose group,with six rabbits in each group.LPS was used to replicate the ARDS model after five consecutive days of gavage.Arterial pressure,respiratory rate and anal temperature blood were recorded for arterial blood gas analysis at 0,0.5,1,2 and 4 h,respectively.At the end of the four-hour experiment,rabbits were killed by bloodletting,and the lung tissue was quickly removed to determine the cytokines,SOD,MDA and pathological examination of rabbit lung.RESULTS Renqing Changjue can significantly reduce the pathological changes of lung in ARDS model group.The expression of AQP1 and MPO in rabbit lung was significantly decreased by immunohistochemistry(P<0.05),reduce the lung wet/dry weight ratio,increase the ratio of PaO_(2)/FiO_(2),inhibit the release of inflammatory factors and scavenge free radicals and antioxidant effects.CONCLUSION Renqing Changjue can effectively protect rabbits with acute respiratory distress syndrome induced by LPS,and may protect the lung by inhibiting the release of cytokines and anti-oxidation.
基金Collaborative Innovation in Tibetan Medicine(2019XTC013)Open Laboratory of Key Laboratory of Tibetan Medicine Basic Education(ZYYJC-19-01).
文摘[Objectives]To determine active components of Lamiophlomis rotata(Benth.)Kudo.[Methods]A new method was developed for the quantitative determination of L.rotata by using Ultra-performance convergence chromatography.The separation of active components of L.rotata was successfully achieved on Waters ACQUITY UPC column,with gradient elution carbon dioxide and methanol solvent at flow rate of 0.7 mL/min.The separation gradient elution rate was as follows:15%methanol 0-1 min,18%methanol 1-5 min,20%methanol 5-6 min,25%methanol 6-7 min,30%methanol 7-8 min,30%methanol 8-9 min,15%methanol 9-10 min.The conditions used in the separation process was as follows:column temperature 30℃;injection volume 2μL.Under the abovementioned conditions,the content of methyl glucoside was measured by 3D-full wavelength scanning.The validity of the method was tested by analyzing the precision,reproducibility,stability and accuracy.[Results]The results indicated that in terms of extraction and separation of compounds,supercritical CO2 not only has the diffusion property of gas,but also has the density and fluidity of liquid.[Conclusions]The ultra-high performance chromatography is a new technique for drug analysis.
基金Supported by Special Fund for Basic Scientific Research Business in Central Universities(2019NYB31)Scientific Research Funded Project of Southwest Minzu University(2023KYZZ06N).
文摘[Objectives]To prepare plumbagin nanomicelle(PLB-N)in-situ gel,and optimize the formulation and process.[Methods]PLB-N was prepared by self-assembly method,and the optimal formulation of PLB-N in-situ gel was determined by orthogonal experiment design and single factor method.[Results]The optimal preparation process for PLB-N was a drug to lipid ratio of 1:3,a Tween 80 content of 5%,an ethanol content of 7.5%of the hydration medium,a magnetic stirring speed of 2200 rpm,a stirring time of 30 min,and an ultrasound time of 10 min.The optimal formulation of PLB-N in-situ gel was 22%of poloxamer 407,6%of poloxamer 188,and 1:1 of PLB-N to water.The encapsulation efficiency of PLB-N prepared with the optimal formula was(95.8%±0.4%),and the average particle size was(75.19±1.14)nm,and the Zeta potential was(-20.73±1.19)mv.[Conclusions]PLB-N in-situ gel had stable and reliable preparation process,uniform content,and broad application prospects.
基金Tibet Science and Technology Department,project type Tibetan medicine regional collaborative innovation project,project name Tibetan Medicine Sanchensan Chemical Composition Analysis and Antimicrobial Activity Research,Project lot number 2017XTCX010,Project Leader Liu Tonghua,Ren XiaoqiaoNational Natural Science Foundation of China(81774448),project leader Ren Xiaoqiao+1 种基金National Natural Science Foundation of China(81973697),project leader Zhao HuihuiCenter for Healthy Minds Project number AAG8698,University of Wisconsin-Madison,project leader Tawni Tidwell
文摘Similar to traditional Chinese medicine(TCM),Tibetan medicine emphasizes the concepts of holism,balance,and etiology.With the individual as the nexus of macro-and micro-ecologies,multi-layered systemic etiologies,inform therapeutic pharmacologies for cultivating network effects to induce the healing response.Tibetan medicine approaches health and healing through perspectives that frame the balance achieved in the internal world as inextricably linked to balance in the external world,and vice versa,that includes expressions of mind and consciousness.The external world refers to the broader context of the natural world as comprised of matter and energy expressed through five elemental dynamics(Chi.Tu,Shui,Huo,Feng and Kong;Tib.Sa,Chu,Mé,r Lung and Kha)describing principles of solidity,cohesion,heat,motility,and interactive space,or earth,water,fire,wind and space,respectively.The internal world refers to the local context of the physical mass and biochemical cascades of energy transfers comprising the human body,its behaviors and functions,including cognitive factors,as also expressed through the five elemental dynamics.The external and internal systems merge as a unified whole,where the five elemental dynamics characterize materio-energetic exchanges between the broader and local ecologies of individual body and natural world,as well as social relations,mental affects,and contextual conditions.The interdependence,opposition,restriction and transformation among three physiological systems known as nyépa(Three Causal Factors)-r Lung,Tripa and Béken(pronounced lōōng,trīpa,baekan,respectively)-are used to discuss the balance of the whole.The causal origins of disease are explained through disturbances to these systems as a combination of afflictive mental factors,physiologic imbalances,and disturbing conditions from the natural world,such as environmental toxins,pathogens,and exposures.Of the three causal origins,afflictive mental factors are particularly emphasized as important etiological conditioning influences.Initiation and progression of disease is divided into four stages:baseline stage,initiating stage,developing stage,and maturing stage.Each stage has an explicit therapeutic paradigm for treatment,recovery,and health maintenance demonstrating the distinct theoretical framework for disease treatment in Tibetan medicine as specific to individual body,particular disease etiology,and constitutionally-directed unique compound metabolism pharmacodynamically.
基金Supported by the Innovation Team of the Beijing University of Chinese Medicine,No.2019-JYB-TD-006the National Natural Science Foundation of China,No.81873099Scientific Research Support Plan for the Construction of Doctoral Program of University of Tibetan Medicine.
文摘BACKGROUND Liver fibrosis is a common health problem worldwide and there is still a lack of effective medicines.The Chinese herbal medicine,Gan Shen Fu Fang(GSFF)is composed of salvianolic acid B and diammonium glycyrrhizinate.In this study,we observed the effects of GSFF on liver fibrosis in vivo and in vitro in an attempt to provide some hope for the treatment.AIM To observe the effects of GSFF on liver fibrosis in vivo and in vitro and investigate the mechanism from the perspective of the inflammatory response and extracellular signal-regulated kinase(ERK)phosphorylation.METHODS Common bile duct-ligated rats were used for in vivo experiments.Hepatic stellate cells-T6(HSC-T6)cells were used for in vitro experiments.Hematoxylin and eosin staining and Masson staining,biochemical assays,hydroxyproline(Hyp)assays,enzyme-linked immunoasorbent assay and western blotting were performed to evaluate the degree of liver fibrosis,liver function,the inflammatory response and ERK phosphorylation.The CCK8 assay,immunofluorescence and western blotting were applied to test the effect of GSFF on HSC-T6 cell activation and determine whether GSFF had an effect on ERK phosphorylation in HSC-T6 cells.RESULTS GSFF improved liver function and inhibited liver fibrosis in common bile ductligated rats after 3 wk of treatment,as demonstrated by histological changes,hydroxyproline assays and collagen I concentrations.GSFF alleviated inflammatory cell infiltration and reduced the synthesis of pro-inflammatory cytokines[tumor necrosis factor-α(TNF-α)and interlukin-1β]and NF-κB.In addition,GSFF decreased ERK phosphorylation.In vitro,GSFF inhibited the viability of HSC-T6 cells with and without transforming growth factorβ1(TGF-β1)stimulation and decreased the synthesis of collagen I.GSFF had the greatest effect at a concentration of 0.5μmol/L.GSFF inhibited the expression ofα-smooth muscle actin(α-SMA),a marker of HSC activation,in HSC-T6 cells.Consistent with the in vivo results,GSFF also inhibited the phosphorylation of ERK and downregulated the expression of NF-κB.CONCLUSION GSFF inhibited liver fibrosis progression in vivo and HSC-T6 cell activation in vitro.These effects may be related to an alleviated inflammatory response and downregulated ERK phosphorylation.
基金supported by the National Natural Science Foundation of China(Nos.32072205 and 22138004)the first phase of the connotation construction of the 14th Five-Year Plan of Tibetan medicine(No.2021ZYYGH008),China.
文摘In order to quickly detect the rancidification of Huangjiu in pottery jars,this study developed a fast detection method based on the principle of electrical conductivity changes caused by microbial contamination.The change in total acid in Huangjiu was positively correlated with the increase of electrical conductivity.This method was applied to an online monitoring system for Huangjiu storage in stainless steel tanks.When the electrical conductivity exceeds the normal fluctuation range(mean+3 standard deviations)of previous data,the monitoring system recognizes microbial contamination.By optimizing the conductivity-temperature compensation coefficient and conductivity statistical method,the standard deviation of the method was reduced and the sensitivity of microbial pollution monitoring was improved.The ranges of conductivity and compensation coefficient of common types of Huangjiu were estimated.Interference in conductivity measurements due to environmental factors was minimised through the synchronous comparison of conductivity data for multiple tanks of Huangjiu.The standard deviation,which indicates the fluctuation range of the system,decreased from 143 to 2μS/cm.The monitoring system was then applied in Huangjiu storage tanks with capacities of 60 t and 300 t.Through the comparison of conductivity data change,the abnormal signals caused by microbial contamination during the storage of Huangjiu were found over time.Meanwhile,through offline detection of total acid in Huangjiu,the effectiveness of microbial contamination online detection was verified.
基金supported by the National Key Research and Development Project(No.2019YFC0312602).
文摘In this work,hollow Fe_(2)O_(3)/Co_(3)O_(4)microcubes have been successfully synthesized through a hydrothermal method followed by an annealing process using metal-organic framework of Prussian blue as a soft template.The morphologies,microstructures,surface area and element compositions have been carefully characterized by a series of techniques.Meanwhile,compared with that of pure Fe_(2)O_(3)and Co_(3)O_(4),the gas sensor based on the hollow microcubes exhibits enhanced sensing performances towards acetone,e.g.,a higher response of 21.2 and a shorter response time of 5 s towards 20 ppm acetone at a relatively low working temperature of 200℃.Moreover,the hollow microcubes-based gas sensor still shows perfect long-term stability,excellent repeatability and the ability of sub-ppm level detection,which provides a possibility for its application in real life.The enhanced gas sensing performances can be attributed to the hollow structure with a high surface area and the formed p-n heterojunctions within the microcubes.
