Supercritical green technologies for obtaining ginsenosides from far-eastern wild ginseng Panax Ginseng meyer using SFE for applying in drug, food...
Razgonova M. P., Kalenik T. K., Veselov V. V., Zakharenko A. S., Taghizadehghalehjoughi A. L. I., Vuță V., Bărbuceanu F., Izotov B. N., Stratidakis A. K., Tsatsakis A., Golokhvast K. S.
Farmacia
Vol.67, Issue1, P. 81-91
Опубликовано: 2019
Тип ресурса: Статья
DOI:10.31925/farmacia.2019.1.11
Аннотация:
This study focuses on the effect of the modifier, pressure and temperature on the yield of extractable materials on the method of supercritical fluid CO 2 extraction of the root of Far-Eastern wild Panax ginseng Meyer. The amounts of biologically active substances (ginsenosides) obtained with the use of small fractions of the modifier are very small, in contrast to large fractions of the modifier used in the experiment. Several experimental conditions were investigated: variations of pressure levels within the range of 200-400 bar, and ethanol percentages from 2 to 5[%] in the liquid phase at a temperature within the range of 31-70°C.During extraction process with variations in levels of pressure, temperature and amount of modifier, it was found that the presence of the modifier in the extracted system had a significant effect on the amount of extracted ginsenosides. The experimental procedures showed that the main factors that influence the result of ginseng extraction are the density o
Ключевые слова:
Carbon dioxide; Ginsenosides; High performance liquid chromatography; Panax ginseng Meyer; Supercritical extraction
ginseng extract; ginsenoside; malonaldehyde; polysaccharide; protopanaxadiol; turpentine; Article; controlled study; cosmetic industry; degradation; drug industry; food industry; fractionation; ginseng; high performance liquid chromatography; liquid chromatography-mass spectrometry; nonhuman; particle size; pressure; quadrupole mass spectrometry; retention time; solvation; supercritical fluid extraction; temperature
Язык текста: Английский
ISSN: 2065-0019
Razgonova M. P.
Kalenik T. K.
Veselov V. V. Valerij Vyacheslavovich 1992-
Zakharenko A. S.
Taghizadehghalehjoughi A. L. I.
Vuță V.
Bărbuceanu F.
Izotov B. N. Boris Nikolaevich 1938-
Stratidakis A. K.
Tsatsakis A. Aristidis 1957-
Golokhvast K. S.
Разгонова М. П.
Каленик Т. К.
Веселов В. В. Валерий Вячеславович 1992-
Захаренко А. С.
Тагхизадехгхалехйоугхи А. Л. И.
Вуță В.
Бăрбуcеану Ф.
Изотов Б. Н. Борис Николаевич 1938-
Стратидакис А. К.
Цацакис А. Аристидис 1957-
Голохваст К. С.
Supercritical green technologies for obtaining ginsenosides from far-eastern wild ginseng Panax Ginseng meyer using SFE for applying in drug, food and cosmetic industries
Supercritical green technologies for obtaining ginsenosides from far-eastern wild ginseng Panax Ginseng meyer using SFE for applying in drug, food...
Текст визуальный непосредственный
Farmacia
Uniunea Societatilor de Stiinte Medicale din Rumania
Vol.67, Issue1 P. 81-91
2019
Статья
Carbon dioxide Ginsenosides High performance liquid chromatography Panax ginseng Meyer Supercritical extraction
ginseng extract ginsenoside malonaldehyde polysaccharide protopanaxadiol turpentine Article controlled study cosmetic industry degradation drug industry food industry fractionation ginseng high performance liquid chromatography liquid chromatography-mass spectrometry nonhuman particle size pressure quadrupole mass spectrometry retention time solvation supercritical fluid extraction temperature
This study focuses on the effect of the modifier, pressure and temperature on the yield of extractable materials on the method of supercritical fluid CO 2 extraction of the root of Far-Eastern wild Panax ginseng Meyer. The amounts of biologically active substances (ginsenosides) obtained with the use of small fractions of the modifier are very small, in contrast to large fractions of the modifier used in the experiment. Several experimental conditions were investigated: variations of pressure levels within the range of 200-400 bar, and ethanol percentages from 2 to 5[%] in the liquid phase at a temperature within the range of 31-70°C.During extraction process with variations in levels of pressure, temperature and amount of modifier, it was found that the presence of the modifier in the extracted system had a significant effect on the amount of extracted ginsenosides. The experimental procedures showed that the main factors that influence the result of ginseng extraction are the density o