China Top 10 Ginkgo Biloba Extract Cologne
China Top 10 Ginkgo Biloba Extract Cologne Detail:
[Latin Name] Cinnamomun camphcra
[Plant Source] It is extracted from Ginkgo Biloba Leaf.
[Specifications]
1, Ginkgo Biloba Extract 24/6
Total Ginkgo flavone glycosides 24%
Total terpene lactones 6%
2, Ginkgo Biloba Extract 24/6
Total Ginkgo flavone glycosides 24%
Total terpene lactones 6%
Ginkgolic acid 5ppm
3,CP2005
Total Ginkgo flavone glycosides 24%
Quercatin: kaemperol 0.8–1.5
Total terpene lactones 6%
Ginkgolic acid <5ppm
4.Germany Standard
Total Ginkgo Flavone Glycosides 22.0%-27%
Total Terpene Lactones 5.0%-7.0%
Bilobalides 2.6%-3.2%
Ginkgolic acid <1ppm
5.Water-Soluble Ginkgo Biloba Extract 24/6
Water Solubility: 5g Ginkgo Biloba Extract will be dissolved completely in 100g water
Total Ginkgo Flavone Glycosides 24.0%
Total Terpene Lactones 6.0%
Ginkgolic acid <5.0ppm
[Appearance] Light yellow fine powder
[Particle size] 80 Mesh
[Loss on drying] £ 5.0%
[Heavy Metal] £10PPM
[Extract solvents] Ethanol
[Storage] Store in cool & dry area, keep away from the direct light and heat.
[Package] Packed in paper-drums and two plastic-bags inside.
[Function]
Expanding blood vessel, resisting insufficient blood and oxygen deficit, increasing blood flow, improving cerebral arteries and distal
blood flow. Promoting cerebral circulation metabolism, improving memory function, resisting depression, resisting lipidic overoxidation,
protecting liver damage.
In clinic, curing high blood pressure, hyperlipoidemia, coronary heart disease, angina pectoris, arterial sclerosis, cerebral embolism,
senile dementia, primary and periodic dropsy, acute drumming in the ears, epicophosis, a variety of body function in disorder, dizziness
and so on.
Product detail pictures:
Related Product Guide:
We insist on offering high-quality creation with superior business enterprise concept, honest revenue plus the greatest and fast service. it will bring you not only the high quality solution and huge profit, but essentially the most significant is usually to occupy the endless market for China Top 10 Ginkgo Biloba Extract Cologne , The product will supply to all over the world, such as: Uruguay, America, Jamaica, The best and original quality for spare parts is a most important factor for transportation. We may stick on supplying original and good quality parts even a little profit earned. God will bless us to do kindness business forever.
Die Ginseng Radix ist eine Pflanzendroge, die von der Wurzel des Ginseng 6-7 Jahre nach der Kultivierung der Pflanze durch das Herausreißen der Pflanze meist mitte September gewonnen wird. Der Ginseng (Panax ginseng C.A.Mey.) ist eine in koreanischen, chinesischen und sibirischen Berg- und Waldregionen vorkommende 30-60 cm hohe Pflanze. In diesen Regionen wird Ginseng seit Jahrtausenden als Heilpflanze eingesetzt. Je nach Aufarbeitung der Wurzel werden verschiedene Arten der Pflanzendroge erhalten.
https://wiki.naturstoff.net/pflanzendrogen_und_extrakte/ginseng_radix
Ginsenoside sind Saponine, welche aus der Ginsengwurzel gewonnen werden. Ginsenoside sind die Glycoside des Protopanaxadiols, des Protopanaxatriols und der Oleansäure, also Triterpen-Aglycone mit jeweils 30 C-Atomen. Diese sind mit einem bis zu mehreren Zuckerteilen glycosiliert. In der Ginsengwurzel konnten bisher bis zu 150 verschiedene Ginsenoside isoliert werden.
https://wiki.naturstoff.net/saponine/ginsenoside
Quellen:
Long Zhixian; The Chinese Materia Medica. Academy Press [Xue Yuan] Beijing, 2007.
R. Hänsel; O. Sticher; Pharmakognosie- Phytopharmazie; Springer-Lehrbuch. Springer, 2009.
Theo Dingermann, Karl Hiller, Georg Schneider, Ilse Zündorf; Arzneidrogen; Spektrum Akademischer Verlag, 5. Auflage; 2004
Nam, Ki-Yeul. The comparative understanding between red ginseng and white ginsengs, processed ginsengs (Panax ginseng CA Meyer). Journal of Ginseng Research, 2005, 29, 1, 1-18.
Wang, Chong-Zhi, et al. Red American ginseng: ginsenoside constituents and antiproliferative activities of heat-processed Panax quinquefolius roots.Planta medica, 2007, 73, 7, 669.
Kang, Ki Sung, et al. „Increase in the free radical scavenging activity of ginseng by heat-processing.“ Biological and Pharmaceutical Bulletin, 2006, 4, 750-754.
Rees, H. H. et al. The biosynthesis of β-amyrin. Mechanism of squalene cyclization, Biochem J. 1968; 106(3): 659–665.
Chen, S., et al. 454 EST analysis detects genes putatively involved in ginsenoside biosynthesis in Panax ginseng. Plant cell reports, 2011, 30, 9, 1593-1601.
Sun, Chao, et al. De novo sequencing and analysis of the American ginseng root transcriptome using a GS FLX Titanium platform to discover putative genes involved in ginsenoside biosynthesis. BMC genomics, 2010, 11, 1, 262.
Chen, Hao, et al. Panaxadiol and Panaxatriol Derivatives as Anti-Hepatitis B Virus Inhibitors. Natural Products and Bioprospecting, 2014, 1-12.
Bildnachweis
https://commons.wikimedia.org/wiki/File:Insam.jpg
Fayed, A.E.
Detection of Domiati cheese adultration with palm oil.
Identification of palm oil in some fatty products.
Influence of insecticide residues on growth and activity of Streptococcus diacetilactis and Leuconostoc cremoris.
Presistence of Fenvalerate pyrethroid in milk in relation to lactic acid bacteria.
Susceptibility of some lactic acid bacteria to different insecticides.
Ultrafiltration of reconstituted skimmilk powder in relation to the rennet ability and casein fractions.
Application of ultrafiltration technique for production of low calorie recombined butter rich in protein.
Ultrafiltration whey protein concentrate as a substitute for egg white in pie topping meringue.
Production of aromatic recombined butter by using different milk solids not fat ingredients.
Distribution of some insecticides in milk fat globule materials.
Keeping quality of market butter oil in comparison with samna.
Ultrafiltration whey concentrate as protein fortifier in macaroni manufacture from wheat flour.
Fiber fortification of ice milk by means of cooked wheat.
Enhancement of milk fat quality by conversion into recombined butter in relation to some properties of skimmilk powder used.
Incidence of some environmental pollutants in milk and its products at great Cairo markets.
Substitution of non fat milk solids in ice cream with ultrafiltration whey protein concentrate.
Milk preparedness for bacterial growing in relation to environmental contaminants.
Quality evaluation of imported skimmilk prowder.
Effect of milk fat quality on the properties of recombined butter.
Utilization of some food industry wastes prepared as milk fat antioxidants.
Effect of microwave treatment on bacteriological and keeping quality of buffaloes milk.
Monitoring some contaminants during the manufacture of some conventional dairy products.
Ultrafiltration membrance permeability of some milk contaminants.
Physical and organoleptic properties of yoghurt made from standardized buffalo’s milk fortified with total milk proteinate.
Production and characterization of bacterial coagulants as calf rennet replacer for Egyptian cheesemaking.
The profile of market Domiati cheese with emphasis on biogenic amines occurrence.
Production of bacteriocin using ultrafiltrated milk permeate.
The use of ultrafiltration technique for recovery of nisin-like bacteriocin.
Comparative supplementation of ice cream mixes by ultrafiltrated skimmilk retentate or whey proteins concentrate.
Production of low calorie ice cream.
Comparative acylation methods of ultrafiltrated whey proteins concentrate with emphasis on the functional properties.
Effect of using alternative combination of glucono delta lactone with lactic starter culture on the properties of UF-white soft cheese during cold storage.
Brevibacterium linens as an adjunct starter culture in low fat Ras cheese.
Influence of some preservatives on cast UF-white soft cheese properties during cold storage.
Antifungal efficiency of a starter culture containing Lactobacillus reutrei during Ras cheese ripening.
Influence of formaldehyde and hydrogen peroxide as preservatives on the properties of buffalo’s milk proteins.
Comparative evaluation between Selandid and Maltodextrin as fat mimetic in low fat Ras cheesemaking.
Production of probiotic low calorie sour cream.
Production of light calorie whipped cream using mimetic fats and stevioside.
Effect of Transglutaminase on the quality of yoghurt made with different milk protein sources.
Biological evaluation of cow’s milk yoghurt fortified with different source of milk proteins.
Antifungal efficiency of a starter culture containing some Lactobacillus species during Ras cheese ripening.
Utilization of ultrafiltrated whey protein concentrate in the manufacture of reduced fat processed cheese spread.
Biological Attributes of bio-yoghurt versus the conventional one fed in spray dried form.
Effect of cow’s milk treatment with transglutaminase on the composition and quality of yoghurt with particular reference to its biological value.
Performance of transglutaminase as body stabilizer in Tallaga cheese made from ultrafiltrated cow’s milk retentate.
Utilization of mushroom powder for substituting dried skimmilk in the manufacture of processed cheese spread.
Glycoprotein fortification of bioyoghurt.
Improvement of yoghurt efficiency as functional food by glycoprotein fortification.
Application of ultrafiltration technique in the manufacture of reduced-calorie frozen bioyoghurt in synbiotic form.
Healthy multifunctional spectra of milk glycoproteins and their fragments.
Production of carbonated stirred yoghurt fortified with some physiological active ingredients.
Physiologically Active Ingredients as Yoghurt Fortifiers.
Rheological, microstructural and biological characteristics of probiotic ultrafiltrated skimmed milk cheese in comparison with the conventional Kariesh cheese.
Economics scale for processing of white soft cheese in Egypt.
By Lorraine from Mexico - 2018.11.06 10:04
After the signing of the contract, we received satisfactory goods in a short term, this is a commendable manufacturer.
By Clara from Philippines - 2017.07.28 15:46
