1.Chemical constituents of Swertia patens.
Kang HE ; Tuan-wu CAO ; Hong-ling WANG ; Chang-an GENG ; Xue-mei ZHANG ; Ji-jun CHEN
China Journal of Chinese Materia Medica 2015;40(20):4012-4017
Chemical constituents of Swertia patens. The whole plant of air-dried Swertia patens was extracted with 90% EtOH. The water extract was suspended in H₂O and extracted with petroleum ether, EtOAc and n-BuOH, successively. The compounds were isola- ted and purified by column chromatography from the EtOAc fraction, and identified based on spectral analyses (MS, ¹H-NMR, ¹³C- NMR). Eighteen compounds were isolated and elucidated as 3, 4-dihydro-1H,6H,8H-naptho [1,2-c:4,5-c', d'dipyrano-1, 8-dione (1), angelone (2), gentiogenal (3), erythricin (4), erythrocentaurin (5), gentianine (6), swertiakoside B (7), swertiamarin (8), 2'-O-actylswertiamarin (9), amarogentin (10), 1, 3, 5-trihydroxyxanthone (11), 1, 3-dihydroxy-5-methoxyxanthone (12), 1-hydroxy- 2, 3, 5-trimethoxyxanthone (13), gentiocrucine (14), 3-hydroxyphenylketone (15), n-hexacosyl ester 4-hydroxy-trans-cinnamate (16), n-hexacosyl ester 4-hydroxy-cis-cinnamate (17), and cholest-4-en-3-one (18). Compounds 1-7, 9-18 were obtained from S. patens for the first time.
Drugs, Chinese Herbal
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chemistry
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isolation & purification
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Molecular Structure
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Spectrometry, Mass, Electrospray Ionization
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Swertia
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chemistry
3.Chemical constituents of Swertia angustifolia.
Kang HE ; Tuan-wu CAO ; Hong-ling WANG ; Chang-an GENG ; Xue-mei ZHANG ; Ji-jun CHEN
China Journal of Chinese Materia Medica 2015;40(18):3603-3607
This present work is to study the chemical constituents of Swertia angustifolia. The whole plants of air-dried Swertia angustifolia was extracted with 90% EtOH. The water extract was suspended in H2O and extracted with petroleum ether, EtOAc and nBuOH, successively. The compounds were isolated and purified by column chromatography from the EtOAc fraction, and identified based on spectral analyses (MS, 1H-NMR, 13C-NMR). Fourteen compounds were isolated and characterized as 1, 8-dihydroxy-3, 7-dimethoxyxanthone (1), 1, 8-dihydroxy-3, 5, 7-trimethoxyxanthone (2), 7-hydroxy-3, 8-dimethoxyxanthone-1-O-β-D-glucopyranoside (3), 8-0-[β-D-xylopyranosyl-(1-6) -β-D-glucopyranosyl] -1, 7-dihydroxy-3-methoxyxanthone (4), (+) -syringaresinol (5), ferulic acid (6), trans-coniferyl aldehyde (7), sinapaldehyde (8), trans-coniferyl alcohol (9), 3, 4-dihydroxybenzoic acid (10), 2-hydroxybenzoic acid (11), isophthalic acid (12), 2-furoic acid (13), and 2-methyl-4(3H)-quinazolinone(14). Compounds 2-14 were obtained from this plant for the first time.
Drugs, Chinese Herbal
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chemistry
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isolation & purification
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Mass Spectrometry
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Molecular Structure
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Swertia
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chemistry
4.Chemical constituents of Swertia kouitchensis Franch.
Kang HE ; Tuan-wu CAO ; Hong-ling WANG ; Chang-an GENG ; Xue-mei ZHANG ; Ji-jun CHEN
China Journal of Chinese Materia Medica 2015;40(19):3811-3817
This study is to investigate the chemical constituents of Swertia kouitchensis. The whole plants of air-dried Swertia kouitchensis was extracted with 90% EtOH. The water extract was suspended in H2O and extracted with petroleum ether, EtOAc and n-BuOH, successively. The compounds were isolated and purified by column chromatography from the EtOAc fraction, and their structures were identified based on spectral analyses (MS, 1H-NMR, 13C-NMR). Twenty-eight compounds were obtained, and characterized as erythrocentaurin (1), erythrocentaurin dimethylacetal (2), swertiamarin (3), vogeloside (4), 2'-O- actylswertiamarin (5), swertianoside D (6), gentiocrucines A-B (7-8), gentiocrucine (9), 1-hydroxy-3, 7, 8-trimethoxyxanthone (10), 1-hydroxy-3, 5, 6-trimethoxyxanthone (11), 3-epitaraxerol (12), erythrodiol 3-O-palmitate (13), (+) -syringaresinol (14), caffeic acid (15), trans-coniferyl aldehyde (16), trans-coniferyl alcohol (17), 3, 4-dihydroxybenzoic acid (18), 4-hydroxy-3-methoxybenzoic acid (19), 3, 4-dihydroxybenzoic aldehyde (20), 2, 3-dihydroxybenzoic acid (21), 4-hydroxybenzoic acid (22), 3-acetoxybenzoic acid (23), 3-hydroxybenzoic acid (24), 3-hydroxybenzoic alcohol (25), nicotinic acid (26), 2-furoic acid (27), and uracil (28). Compounds 1-4, 6-28 were obtained from S. kouitchensis for the first time.
Drugs, Chinese Herbal
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chemistry
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isolation & purification
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Magnetic Resonance Spectroscopy
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Mass Spectrometry
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Molecular Structure
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Swertia
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chemistry
5.Research progress of integrin in tissue repair
Lei CUI ; Chang LIU ; Yanchao JI ; Jinsong LI ; Song XUE ; Long JIANG
International Journal of Surgery 2013;40(10):674-677
As a transmembrane glycoprotein receptor family,integrin family mainly mediats cell-matrix interactions,participates in the function,through the unique bi-directional signal transduction pathways,played an important role in tissue repair process.The purpose of this article is to summarize the role of integrin family in the repair of tissue damage and sum up the current research progress.
6.Effect of Washing Respiratory Way with Ambroxol Hydrochloride on Respiratory Mechanics in Premature Infant with Ventilation
hong-bing, CHEN ; ji-chang, CHEN ; xiao-xue, XIE ; cui-yu, LI ; yong-jiang, JIANG
Journal of Applied Clinical Pediatrics 1992;0(06):-
Objective To observe the effect of using Ambroxol hydrochloride(AM)to wash respiratory way to treat neonatal respiratory distress syndrome(NRDS) in ventilator,to explore dynamic changes of respiratory mechanics after using AM to wash respiratory way.Methods Thirty premature infants were chosen according with diagnosis criterion,which were randomly divided into 2 groups: NS group(n=15);AM group(n=15).Both NS and AM groups were treated with Babylog 8 000 ventilator,and routine treating and nursing,NS group was given for washing respiratory way in NS group,whereas AM was done in AM group.Pulmonary compliance(C),time constant(Tc),respiratory resis-tance(R),C20/C and minute volume(MV)were observed in both groups.Blood gas was routinely checked after 1 h ventilation treatment,and X ray was shot after 24 h.Results Pulmonary C significantly increased in weaning than that of beginning ventilation(P0.05),MV significantly increased in group AM than NS,respectively[(0.56?0.12) L/min and(0.35?0.11) L/min(P0.05).But ventilator-treating-time was markedly shorter in group AM than NS,respectively(60.52?6.23) h and(98.21?5.82) h(P
7.Chemical constituents of Lepidium meyenii.
Wen-juan LIANG ; Hong-bo XU ; Cai-yan YANG ; Chang-an GENG ; Zhang XUE-MEI ; Ji-jun CHEN
China Journal of Chinese Materia Medica 2015;40(23):4531-4535
To study the chemical constituents of Lepidium meyenii, the air-dried rhizome of L. meyenii was extracted with 70% EtOH. The extract was condensed to a small amount of volume and extracted with petroleum ether, EtOAc and n-BuOH, successively. The compounds were isolated and purified by column chromatography, and identified based on spectral analyses (1H-NMR, 13C-NMR, HRESIMS). Eighteen compounds were isolated from L. meyenii, including 7 alkaloids and 4 fatty acids and 7 other compounds. They were characterized as (3-hydroxybenzyl) carbamic acid(1), phenylmethanamine(2), N-benzylformamide (3), N-benzylacetamide (4), pyridin-4-ylmethanamine(5), n-(4-methoxybenzyl) aniline(6), uracil(7), succininc acid(8), decanedioic acid(9), n-hexa- decanoic acid methyl ester(10), heptanoic acid(11), solerole(12), pyromucic acid methyl ester(13), 5-hydroxymethyl-2-furancar- boxadehyde(14), 5-(methoxymethyl)-1H-pyrrole-2-carbaldehyde(15), 1,7-dihydroxy-2,3, 4-trimethoxyxanthone (16), 1,7-di- hydroxy-3,4- dimethoxy-xanthone(17), (+)-pinoresinol(18). Meanwhile, compounds 1-18 were obtained from L. neyenii for the first time.
Lepidium
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chemistry
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Molecular Structure
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Plant Extracts
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chemistry
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Spectrometry, Mass, Electrospray Ionization
8.The experimental study on selective portal vein embolization inducing ipsilateral hepatocellular apoptosis and contralateral hepatic hypertrophy in rabbit liver
Chang-Xue JI ; Yi-Long MA ; Xian CHEN ; Sheng-Qiu OU ; Xiao-Bo FENG ; Da-Sheng QIU ; Yu-Lin LIU ;
Journal of Interventional Radiology 2006;0(11):-
Objective To explore the best time point for the ipsilateral hepatocellular apoptosis and the contralateraI hepatic hypertrophy after selective portal vein embolization(SPVE)in rabbit.Methods In a randomized study design,forty rabbits were divided into 5 groups with 8 rabbits per-group,including one as the control and the other 4 were treated with SPVE during open surgery.The rabbits were killed postoperatively,in 3,7,14,21 days respectively after the embolization.The hepatic lobes volume,the ipsilateral hepatocellular necrosis rates and apoptosis index,and liver functions were determined as well. Results In the treatment groups,the average amount of the right liver volumes decreased from 46.4 cm~3 preoperatively to 46.0,44.4,42.0,39.7 cm~3 in groups of 3,7,14,21 days postoperatively;meanwhile,the left liver volumes increased from 54.0 cm~3 preoperatively to 54.5,56.3,61.7,63.9 cm~3 respectively during 3, 7,14,21 days after the procedures.The rates of future remaining live volumes(FRLV)increased from 53.8% preoperatively to 54.2%,55.9%,59.0%,61.0% at 3,7,14,21 days postoperatively.The apoptosis indexes of hepatocells from group A to E were 8.1%,12.2%,19.4%,20.1%,14.2% respectively.Conclusions SPVE leads to atrophy of the ipsilateral hepatic lobe and hypertrophy of contralateral lobe,indicating that hepatocytes undergone apoptosis,rather than necrosis.The time point is 7 to 14 days.
9.Path analysis of health behavior improvement in chronic disease patients based on family function theory
Qing-ping YUN ; Ying JI ; Xue-wen JIANG ; He ZHU ; Chun CHANG
Chinese Journal of Disease Control & Prevention 2019;23(7):861-865
Objective To explore the path and effect of family cohesion, family adaptability and health remind on health behavior improvement of chronic disease patients, so as to provide evidences for the family-centered chronic disease management. Methods Data of all 1 134 patients with chronic diseases was selected from the national sample survey database. t-test was used to compare family cohesion, family adaptability, health remind and health behavior improvement between different groups, and Pearson correlation was used to analyze the correlation between variables. In the process of path analysis, parameters were estimated by maximum likelihood. Results Among the 1 134 chronic diseases patients, male accounted for 41.4%, and female accounted for 58.6%. The average age of participants was (53.6±10.0) years old. The score of health behavior improvement was (1.89±1.20). Path analysis showed that family cohesion had indirect effects on behavior improvement (effect size=0.072); family adaptability had both direct and indirect effects on behavior improvement (effect size=0.156); Health remind had direct effect on behavior improvement (effect size=0.357). Conclusions The high-level family cohesion and adaptability can improve patients’ health behavior by improving the health remind. It is suggested that family-centered health management services for chronic disease patients should emphasize the participation of family members as well as the improvement of family function.
10.Chemical constituents from ethyl acetate extract of flower of Albizia julibrissin.
Guang-Qing RONG ; Chang-An GENG ; Yun-Bao MA ; Xiao-Yan HUANG ; Hong-Ling WANG ; Yong ZHAO ; Xue-Mei ZHANG ; Ji-Jun CHEN
China Journal of Chinese Materia Medica 2014;39(10):1845-1851
The ethyl acetate extract of the flower of Albizia julibrissin was isolated and purified by silica gel, Sephadex LH-20 and MCI GEL CHP-20P column chromatography to yield 29 compounds. Their structures were elucidated as 8-hydroxy-2, 6-dimethyl-2E, 6Z-octadienoic acid (1), 8-O-formyl-2, 6-dimethyl-2E, 6Z-octadienoic acid (la), 8-hydroxy-2, 6-dimethyl-2E, 6E-octadienoic acid (2), 8-O-formyl-2, 6-dimethyl-2E, 6E-octadienoic acid (2a), (2E, 6S)-2, 6-dimethyl-6-O-beta-D-xylpyranosyloxy-2, 7-menthia-folic acid (3), clovan-2beta, 9alpha-diol (4), 2beta-O-formyl-clovan-9alpha-ol (4a), 2beta, 9alpha-O-diformyl-clovan (4b), vomifoliol (5), (6S, 9R)-roseoside (6), vanillin (7), 4-O-ethylgallic acid (8), 3-ethoxy4-hydroxy-benzoic acid (9), p-hydroxybenzaldehyde (10), gallic acid (11), protocatechoic acid (12), stearic acid (13), palmitic acid (14), 2, 3-dihydroxypropyl hexadecanoate (15), linoleic acid (16), scopoletin (17), indole-3-carboxaldehyde (18), 2-furoic acid (19), 5-(hydroxymethyl)-2-furaldehyde (20), (22E, 24R)-5alpha, 8alpha-epidioxy-ergosta-6, 22-dien-3beta-ol (21), (22E, 24R)-5alpha, 8alpha-epidioxy-ergosta-6, 9, 22-trien-3beta-ol (22), (+)-lariciresinol 9'-stearate (23), formononetin (24) and uridine (25). Compounds 1a, 2a, 4a and 4b were new artifacts from the separation process, and others were obtained from A. julibrissin for the first time.
Albizzia
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chemistry
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Drugs, Chinese Herbal
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chemistry
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isolation & purification
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Flowers
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chemistry
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cytology
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Molecular Structure
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Spectrometry, Mass, Electrospray Ionization