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Volumn 967, Issue , 2014, Pages 75-83
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Pharmacokinetic and excretion study of three secoiridoid glycosides and three flavonoid glycosides in rat by LC-MS/MS after oral administration of the Swertia pseudochinensis extract
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Author keywords
Excretion study; Flavonoid glycoside; LC MS MS; Pharmacokinetics; Secoiridoid glycoside; Swertia pseudochinensis extract
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Indexed keywords
BODY FLUIDS;
ELECTROSPRAY IONIZATION;
ION SOURCES;
LIQUID CHROMATOGRAPHY;
PHARMACOKINETICS;
PHYSIOLOGY;
RATE CONSTANTS;
CHROMATOGRAPHY;
DRUG PRODUCTS;
LIQUIDS;
MASS SPECTROMETERS;
MASS SPECTROMETRY;
RATS;
SOLVENT EXTRACTION;
SUGARS;
EXCRETION STUDY;
FLAVONOID GLYCOSIDES;
LC-MS/MS;
SECOIRIDOID GLYCOSIDES;
SWERTIA PSEUDOCHINENSIS EXTRACT;
SUGARS;
EXTRACTION;
FLAVONOID GLYCOSIDE;
FORMIC ACID;
GENTIOPICRIN;
GLYCOSIDE;
ISOORIENTIN;
ISOVITEXIN;
MANGIFERIN;
METHANOL;
PLANT EXTRACT;
SECOIRIDOID;
SECOIRIDOID GLYCOSIDE;
SULFAMETHALAZOLE;
SWEROSIDE;
SWERTIA PSEUDOCHINENSIS EXTRACT;
SWERTIAMARIN;
UNCLASSIFIED DRUG;
FLAVONOID;
IRIDOID;
ACCURACY;
ANIMAL EXPERIMENT;
ARTICLE;
CHROMATOGRAPHY;
CONTROLLED STUDY;
DRUG BLOOD LEVEL;
DRUG EXCRETION;
ELECTROSPRAY;
LIQUID CHROMATOGRAPHY;
LIQUID LIQUID EXTRACTION;
MALE;
NONHUMAN;
PRIORITY JOURNAL;
RAT;
SWERTIA;
SWERTIA PSEUDOCHINENSIS;
TANDEM MASS SPECTROMETRY;
AREA UNDER THE CURVE;
BILE;
DRUG DETERMINATION;
DRUG HALF LIFE;
DRUG STABILITY;
ELIMINATION HALF-LIFE;
ELIMINATION RATE CONSTANT;
ELUTION;
FECES;
FLOW RATE;
ION TRAP MASS SPECTROMETRY;
LIMIT OF DETECTION;
LIMIT OF QUANTITATION;
MAXIMUM PLASMA CONCENTRATION;
MEAN RESIDENCE TIME;
PLASMA;
SINGLE DRUG DOSE;
TIME TO MAXIMUM PLASMA CONCENTRATION;
URINE;
VALIDATION PROCESS;
ANIMAL;
BLOOD;
CHEMISTRY;
ORAL DRUG ADMINISTRATION;
PROCEDURES;
REPRODUCIBILITY;
SPRAGUE DAWLEY RAT;
STATISTICAL MODEL;
RATTUS;
SWERTIA;
ADMINISTRATION, ORAL;
ANIMALS;
BILE;
CHROMATOGRAPHY, LIQUID;
DRUG STABILITY;
FECES;
FLAVONOIDS;
IRIDOID GLYCOSIDES;
LINEAR MODELS;
MALE;
PLANT EXTRACTS;
RATS;
RATS, SPRAGUE-DAWLEY;
REPRODUCIBILITY OF RESULTS;
SWERTIA;
TANDEM MASS SPECTROMETRY;
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EID: 84905278741
PISSN: 15700232
EISSN: 1873376X
Source Type: Journal
DOI: 10.1016/j.jchromb.2014.07.010 Document Type: Article |
Times cited : (28)
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References (16)
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