153-18-4 Usage
Description
Rutin, also known as rutoside or sophorin, is a flavonoid glycoside found in various plants, particularly in the Rutaceae and Sectaceae families. It is a bioflavonoid, which means it is a plant-based compound that has antioxidant properties and is often associated with vitamin C. Rutin is characterized by its light yellow or yellow-green appearance, slightly bitter taste, and solubility in methanol, pyridine, alkaline solutions, and boiling water. It is widely used in the pharmaceutical, nutritional, and cosmetic industries due to its various health benefits and properties.
Uses
Used in Pharmaceutical Applications:
Rutin is used as a capillary protectant for strengthening and tightening skin capillaries, which may help prevent conditions like couperose. It also demonstrates antioxidant properties, making it a valuable component in the development of pharmaceutical products.
Used in Nutritional Products:
Rutin is used as a nutritional supplement due to its potential health benefits, such as its antioxidant properties and its ability to strengthen capillaries. It is often found in dietary supplements and health products.
Used in Antidiabetic Applications:
Rutin is used as a dipeptidyl peptidase-4 (DPP-4) inhibitor, which helps regulate blood sugar levels and may be beneficial for individuals with diabetes.
Used in Cosmetic Applications:
Rutin is used in the cosmetic industry for its skin-strengthening and capillary-protecting properties. It may be included in skincare products to help improve the appearance and health of the skin.
Used in Plant Sources:
Rutin is found in many plants, particularly the buckwheat plant, and is often extracted from these sources for use in various applications. Some common sources of rutin include rue leaves, buckwheat, and other plants from the Rutaceae, Sectaceae, and Polygonaceae families.
History
In the mid-1930s, Hungarian scientist Szent Gyorgy firstly separated the flavonoid
mixture. After the German pharmacy firstly made it into ranosine in 1942, the concept
of vitamin P has been established worldwide. Further study proved that rutin
was the most important flavonoids of vitamin P. These compounds were certified to
have effects on many diseases in medical.Recently, the research of rutin mainly focuses on the extraction process improvement,
pharmacological effects, and pharmacodynamics research, aiming at improvement
of its bioavailability through the development of different dosage forms. As
for the extraction process, new extraction and purification methods have been developed
since the original alkali extraction acid precipitation method. These methods
greatly improve its extraction efficiency and reduce cost, including hot water precipitation,
hot water extraction with macroporous resin adsorbing purification,
ultrasonic radiation, hot water extraction with alcohol precipitation, cold alkali percolation
extraction with acid precipitation, continuous reflux extraction, ethanol
extraction, supercritical CO2 extraction, and enzymatic hydrolysis .In recent years, advanced rutin dosage forms, such as rutin cyclodextrin saturation,
HPMC controlled release tablets, solid dispersion tablets, coprecipitate, and
rutin effervescent particles, greatly improve the rutin dissolution rate and its
bioavailability.
Pharmacology
As a flavonoid substance, rutin has a significant protective effect on the cardiovascular
system, including the endothelium-dependent vasodilation through
NO-guanylate cyclase pathway, antagonization on platelet-activating factor (PAF),
inhibition on subsequent reactions induced by PAF binding to its specific membrane
receptor, and protection of myocardial cells .Rutin also has good free radical scavenging effects. Studies showed that rutin
and its derivatives had a strong free radical scavenging effect, of which rutin possessed
the strongest antioxidant activity. Rutin removed superoxide anion and
hydroxyl radicals, exerted a strong anti-lipid peroxidation, protected mitochondria,
and enhanced the activity of superoxide dismutase (SOD).
Clinical Use
Rutin is mainly used for the adjuvant treatment of hypertension and treatment for
the prevention of other bleedings due to lack of rutin, such as cerebral hemorrhage,
retinal hemorrhage, purpura, acute hemorrhagic nephritis, chronic bronchitis, and
abnormal blood osmolality, restoration of capillary elastic embolism, and also for
the prevention and treatment of diabetes and hyperlipidemia . Troxerutin, the
most important active ingredient in hydroxy rutin, is used in the treatment of varicose
veins/venous disorders, hemorrhoids, lymphedema, and postoperative edema,
treatment of thrombosis and cerebrovascular disease, and also in the treatment of
diabetes and liver disease. Since rutin has a mild effect with low cost and less
adverse reactions, especially its remarkable effect on acute cerebral infarction, it is
of great worth on promotion and application of rutin .
Purification Methods
The vitamin crystallises from MeOH or water/EtOH, dry it in air, then dry it further for several hours at 110o or in high vacuum at 120o. It forms yellow crystals from EtOH/Me2CO/H2O (2:1:1). It has also been purified by passing (0.5g) through a Kieselgel column (30 x 5cm) with EtOAc/MeOH/H2O (100:20:15), and after 750mL have passed through, the yellow fraction of 250mL gives the glycoside (0.3g) on evaporation. [H.rhammer et al. Chem Ber 101 1183 1968, Marini-Bettòlo Gazz Chim Ital 80 631 1950, Beilstein 18/5 V 519.]
Check Digit Verification of cas no
The CAS Registry Mumber 153-18-4 includes 6 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 3 digits, 1,5 and 3 respectively; the second part has 2 digits, 1 and 8 respectively.
Calculate Digit Verification of CAS Registry Number 153-18:
(5*1)+(4*5)+(3*3)+(2*1)+(1*8)=44
44 % 10 = 4
So 153-18-4 is a valid CAS Registry Number.
InChI:InChI=1/C27H30O16/c1-8-17(32)20(35)22(37)26(40-8)39-7-15-18(33)21(36)23(38)27(42-15)43-25-19(34)16-13(31)5-10(28)6-14(16)41-24(25)9-2-3-11(29)12(30)4-9/h2-6,8,15,17-18,20-23,26-33,35-38H,7H2,1H3/t8?,15?,17-,18+,20-,21+,22?,23?,26+,27-/m0/s1
153-18-4Relevant articles and documents
Labdane diterpenes and flavonoids from Leonurus japonicus
Seo, Hyun Kyu,Kim, Ju Sun,Kang, Sam Sik
, p. 2045 - 2051 (2010)
Chemical investigation of the aerial part of Leonurus japonicus led to the isolation and characterization of a new labdane-type diterpene, named 3α-acetoxy-15-O-methylleopersin C (3), and a new acylated rutin derivative, named 2?-syringylrutin (9), along with seven known compounds, including a labdane-type diterpene and six flavonoids. The structures of the new compounds were established by spectroscopic methods.
Recovery of isoquercetin from bioflavanoid pastes
-
Page column 3-4, (2008/06/13)
The invention relates to a method for recovering high-purity isoquerectin from bioflavonoid pastes, that is from mother-liquor residues which are produced during the recovery of flavonoids, by extraction with a solvent mixture of methyl acetate and water.
Ume extract having medicinal effects and compositions containing the same
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, (2008/06/13)
Extracts are prepared from a leaf and a stem of ume, a kernel of ume, and an ume flower, using methanol in an amount of 5 times the volume thereof. These extracts have anti-oxidation action, gastric mucosa injury inhibiting action, aldose reductase inhibiting action, blood glucose level elevation inhibiting action, platelet agglutination accelerating action, alcohol absorption inhibiting action, anti-inflammatory action, and the like.