China Biggest Factory Manufacturer Supply CARRAGEENAN CAS 9000-07-1 CAS NO.9000-07-1

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CARRAGEENAN Basic information Product Name: CARRAGEENAN Synonyms: 3,6-anhydro-d-galactan;aubygelgs;KAPPA-CARRAGEENAN (TYPE I);CARRAGEENAN;CARRAGENAN, SODIUM;CARRAGEENAN SODIUM;CARRAGEENAN TYPE I;GELATIN, VEGETABLE TYPE I CAS: 9000-07-1 MF: NULL MW: 0 EINECS: 232-524-2 Product Categories:   Mol File: Mol File   CARRAGEENAN Chemical Properties FEMA  2596 | IRISH MOSS EXTRACT IARC 3 (Vol. 31, Sup 7) 1987 EPA Substance Registry System Carrageenan (9000-07-1)   Safety Information WGK Germany  2 RTECS  FI0700000 HS Code  13023911 Hazardous Substances Data 9000-07-1(Hazardous Substances Data) MSDS Information Provider Language SigmaAldrich English

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Leader Biochemical Group is a large leader incorporated industry manufacturers and suppliers of advanced refined raw materials From the year of 1996 when our factory was put into production to year of 2020, our group has successively invested in more than 52 factories with shares and subordinates.We focus on manufacture Pharm & chemicals, functional active ingredients, nutritional Ingredients, health care products, cosmetics, pharmaceutical and refined feed, oil, natural plant ingredients industries to provide top quality of GMP standards products.All the invested factories' product lines cover API and intermediates, vitamins, amino acids, plant extracts, daily chemical products, cosmetics raw materials, nutrition and health care products, food additives, feed additives, essential oil products, fine chemical products and agricultural chemical raw materials And flavors and fragrances. Especially in the field of vitamins, amino acids, pharmaceutical raw materials and cosmetic raw materials, we have more than 20 years of production and sales experience. All products meet the requirements of high international export standards and have been recognized by customers all over the world. Our manufacture basement & R&D center located in National Aerospace Economic & Technical Development Zone Xi`an Shaanxi China. Now not only relying on self-cultivation and development as well as maintains good cooperative relations with many famous research institutes and universities in China. Now, we have closely cooperation with Shanghai Institute of Organic Chemistry of Chinese Academy of Science, Beijing Institute of Material Medical of Chinese Academy of Medical Science, China Pharmaceutical University, Zhejiang University. Closely cooperation with them not only integrating Science and technology resources, but also increasing the R&D speed and improving our R&D power. Offering Powerful Tech supporting Platform for group development. Keep serve the manufacture and the market as the R&D central task, focus on the technical research.  Now there are 3 technology R & D platforms including biological extract, microorganism fermentation and chemical synthesis, and can independently research and develop kinds of difficult APIs and pharmaceutical intermediates. With the strong support of China State Institute of Pharmaceutical Industry (hereinafter short for CSIPI), earlier known as Shanghai Institute of Pharmaceutical Industry (SIPI), we have unique advantages in the R & D and industrialization of high-grade, precision and advanced products.  Now our Group technical force is abundant, existing staff more that 1000 people, senior professional and technical staff accounted for more than 50% of the total number of employees, including 15 PhD research and development personnel, 5 master′ S degree in technical and management personnel 9 people. We have advanced equipment like fermentation equipment and technology also extraction, isolation, purification, synthesis with rich production experience and strict quality control system, According to the GMP required, quickly transforming the R&D results to industrial production in time, it is our advantages and our products are exported to North and South America, Europe, Middle East, Africa, and other five continents and scale the forefront in the nation, won good international reputation.  We believe only good quality can bring good cooperation, quality is our key spirit during our production, we are warmly welcome clients and partner from all over the world contact us for everlasting cooperation, Leader will be your strong, sincere and reliable partner in China.

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CARRAGEENAN Basic information Product Name: CARRAGEENAN Synonyms: 3,6-anhydro-d-galactan;aubygelgs;KAPPA-CARRAGEENAN (TYPE I);CARRAGEENAN;CARRAGENAN, SODIUM;CARRAGEENAN SODIUM;CARRAGEENAN TYPE I;GELATIN, VEGETABLE TYPE I CAS: 9000-07-1 MF: NULL MW: 0 EINECS: 232-524-2 Product Categories:   Mol File: Mol File   CARRAGEENAN Chemical Properties FEMA  2596 | IRISH MOSS EXTRACT IARC 3 (Vol. 31, Sup 7) 1987 EPA Substance Registry System Carrageenan (9000-07-1)   Safety Information WGK Germany  2 RTECS  FI0700000 HS Code  13023911 Hazardous Substances Data 9000-07-1(Hazardous Substances Data) MSDS Information Provider Language SigmaAldrich English   CARRAGEENAN Usage And Synthesis Chemical Properties moisture <12%, gel strength 1,000 g/cm2, pH 7-9 Chemical Properties Carrageenan, when extracted from the appropriate seaweed source, is a yellow-brown to white colored, coarse to fine powder that is odorless and tasteless. Chemical Properties Carrageenan is a generic term used for chemically similar hydrocolloids obtained by aqueous extraction from certain members of the class Rhodophyceae. Carrageenan is a strongly charged anionic polyelectrolyte of large size. It is generally regarded as containing two major fractions, which may be separated from dilute aqueous solution by the precipitation of one fraction by the addition of potassium ions. The precipitated fraction, or gelling fraction, is designated k-carragenan, and is composed of residues of D-galactose and 3,6-anhydro-D-galactose in a molar ratio of 1.1 to 1.5:1 and contains one sulfate half-ester group for every 2 to 2.5 monosaccharide units, depending on the source. l-Carrageenan, the nongelling fraction, is composed primarily of 1,3-linked D-galactose-2-sulfate and 1,4-linked D-galactose-2,6-disulfate. The sulfate content of the two fractions differs substantially, with values of approximately 24 and 33% having been given for the k and l fractions, respectively. Carrageenan is readily soluble in water, but it has few other solvents. In the presence of specific metallic cations, such as potassium, calcium, ammonium and others, carrageenan solutions form short, inelastic, thermally reversible gels on heating and cooling. The most unique property of carrageenan as a hydrocolloid is its high degree of reactivity with certain proteins; its reactivity with milk protein, in particular, is the basis for a number of applications of carrageenan in foods. Carrageenan is practically odorless and has a mucilaginous taste. Occurrence Irish moss is a seaweed found in Europe and on the coasts of Canada. Uses Pharmaceutic aid (suspending agent); pharmaceutic aid (viscosity-increasing agent). Uses Carrageenan is a gum that is a seaweed extract obtained from red seaweed chondrus crispus (also known as irish moss), gigartina, and eucheuma species. chondrus crispus yields kappa and lambda carra- geenans. gigartina yields kappa and lambda carrageenans. eucheuma yields kappa and iota carrageenans. it exists as various salts or mixed salts of a sulfate ester. it is classified mainly as kappa, iota, and lambda types which differ in solubility and gelling properties. the kappa and iota types require hot water (above 71°c) for complete solubility and can form thermally reversible gels in the presence of potassium and calcium cations, respectively. the kappa gels are brit- tle with syneresis while the iota gels are more elastic without synere- sis. the lambda type is cold-water soluble and does not form gels. kappa and iota carrageenan are very reactive with milk protein products. carrageenan is used to stabilize milk protein at 0.01–0.05% and to form water gels at 0.5–1.0%. its uses include dairy products, water gel desserts, and low-calorie jellies. a typical use level in water systems is 0.2–1.0% and milk systems is 0.01–0.25%. also termed chondrus extract. Uses Carrageenan is a species of red seaweed known as chondrus crispus, from which kappa and lambda carrageenans are obtained. Definition A sulfur phycocolloid: the aqueous, usually gel- forming, cell-wall polysaccharide mucilage found in red algae (Chondrus crispus and several other species). It is water-extracted from a seaweed called carrageen or Irish moss (east coast of southern Canada, New England, and south to New Jersey). It is a mixture of polysaccharide fractions: (1) The λ fraction is cold-water soluble, contains d-galactose and 35% esterified sulfate, and does not gel. (2) The κ fraction contains d-galactose and 3,6-anhydro-d- galactose (1.4:1 ratio) and 25% esterified sulfate. The κ form does not gel without addition of a solute; the properties of the gel depend on the amount and nature of the added solute. Another species of sea- weed produces 100% κ from North Carolina to the tropics. Carrageenan is a hydrophilic colloid that absorbs water readily and complexes with milk pro- teins. Production Methods The main species of seaweed from which carrageenan is manufactured are Eucheuma, Chondrus, and Gigartina. The weed is dried quickly to prevent degradation, and is then baled for shipment to processing facilities. The seaweed is repeatedly washed to remove gross impurities such as sand, salt, and marine life, and then undergoes a hot alkali extraction process, releasing the carrageenan from the cell. Once it is in a hot solution, carrageenan undergoes clarification and concentration in solution and is converted to powder. Three processes can be used to remove the carrageenan from solution. The first is a ‘freeze–thaw’ technique. The solution is gelled with various salts, then the gels are frozen. Upon thawing, the water is removed and the resultant mass, primarily carrageenan and salt, is ground to the desired particle size. The second method, referred to as the ‘alcohol precipitation method’ takes the concentrated solution of carrageenan and places it in alcohol. This causes the carrageenan to precipitate out of solution. The cosolvents are evaporated and the precipitated carrageenan is dried and ground to the desired particle size. The third method is the ‘KCl precipitation’ process, where after hot extraction, the filtrate is evaporated to reduce the filtrate volume. The filtrate is then extruded through spinnerets into a cold 1.0–1.5% solution of potassium chloride. The resulting gel threads are washed with KCl solution and are pressed, dried and milled to carrageenan powder. Commercial carrageenan is usually standardized by blending different batches of carrageenan and adding sugar or salt to obtain the desired gelling or thickening properties. Brand name Marine Colloids (FMC). General Description Carrageenans are mucopolysaccharides from the cell walls of the red algae. They are anionic linear polymers composed of 1,3α-1,4β-galactans having one (κ-), two (ι-) or three (λ-) sulfates per disaccharide unit. In ionic solutions, κ- and ι-carrageenans self-associate into helical structures that form rigid or flexible gels, respectively. λ-carrageenans do not form helices and are non-gelling. Carrageenans are used commercially as thickeners and stabilizing agents. Hazard Questionable carcinogen. Agricultural Uses Carrageenans are naturally occurring hydrophilic colloids found in various species of red seaweeds. They perform a role similar to cellulose in terrestrial plants. Carrageenans are a highly sulphated galactan. Due to this they are a strongly anionic polymer which makes them useful commercially. They are commercially extracted for their use as water soluble gums. Carrageenans may be compared with furcellaran extracted from agars (furcellarans have a smaller proportion of half-ester sulphate). Agars, in contrast, are commonly considered non-ionic Pharmaceutical Applications Carrageenan is used in a variety of nonparenteral dosage forms, including suspensions (wet and reconstitutable), emulsions, gels, creams, lotions, eye drops, suppositories, tablets, and capsules. In suspension formulations, usually only the ι-carrageenen and γ-carrageenan fractions are used. γ-Carrageenan is generally used at levels of 0.7% w/v or less, and provides viscosity to the liquid. Carrageenan has been shown to mask the chalkiness of antacid suspensions when used as a suspending agent in these preparations. When used in concentrations of 0.1–0.5%, carrageenan gives stable emulsions. Carrageenan is used in hand lotions and creams to provide slip and improved ‘rub out’. ι-Carrageenan develops a shear-thinning thixotropic gel, which can be easily poured after shaking. When ι-carrageenan is used, the presence of calcium ions is required for the gel network to become established. With pure ι-carrageenan, about 0.4% w/v is required for most suspensions plus the addition of calcium. However, if SeaSpen PF is used, it must be at about 0.75% w/v level, although no additional calcium is required as this is already present in the product to control the rate of gelation. Studies on the effect of carrageenan and other colloids on mucoadhesion of drugs to the oropharyngeal areas have shown that carrageenan had the greatest propensity for adhesion and can be used in formulations for oral and buccal drug delivery. The application of carrageenan in topical gel bases has been examined, and the findings indicate that the use of carrageenan in these dosage forms is most likely to be dependent on the active drug, owing to the potential for ionic interactions. In the case of topical gels, a combination of ι, κ-, and γ-carrageenans produces a spreadable gel with acceptable tactile sensation, resulting in drug release that is more likely to follow diffusion kinetics. Incorporation of carrageenan into tablet matrices with various drugs and other excipients to alter release profiles has been studied, illustrating that the carrageenans have good tablet-binding properties. Furthermore, the inclusion of calcium or potassium salts into the tablet creates a microenvironment for gelation to occur, which further controls drug release. There have also been several references to the use of carrageenan in chewable tablets having a confectionary texture. This approach to creating a novel dosage form requires the use of both icarrageenan and κ-carrageenan, to prevent moisture loss and texture changes that occur over time. Carrageenan has been used for the microencapsulation of proteins and probiotic bacteria. Hydrogels have also been prepared by crosslinking with gelatin and k-carrageenan for oral delivery of probiotic bacteria. It has also been used as beads in the preparation of controlled release systems. Hydrogel beads based on κ-carrageenan and sodium alginate/chitosan are being used as new carriers for drug loading and controlled delivery systems. κ-Carrageenan is known as a novel pelletization aid in the manufacture of pellets by extrusion/spheronization and has the best pelletization behavior. γ-Carrageenan is also able to nanoencapsulate drug molecules spontaneously, hence controling drug release. The presence of carrageenan induces the formation of smaller particles compared to those formed in the absence of polymer, and their average size depends on the nature and concentration of the polysaccharide used. Studies have shown that carrageenan compounds block infections by the herpes simplex virus; human cytomegalovirus; human papilloma virus; Sindbis virus; vesicular stomatitis virus; and HIV. A combined κ- and γ-carrageenan formulation is currently being investigated as the active ingredient in a topical microbicide used to prevent the sexual transmission of HIV. In combination with chitosan, agar and polyvinyl pyrrolidone, carrageenan forms a water-insoluble complex which is able to absorb large amounts of body fluids, and is used as an effective wound dressing. Carrageenan is used in the preparation of hard and soft capsule shells. It is also used in toothpastes and cosmetic preparations such as conditioners and shampoos. Safety Profile Poison by intravenous route. Questionable carcinogen with experimental neoplastigenic and tumorigenic data. When heated to decomposition it emits acrid smoke and fumes. Safety Carrageenan is widely used in numerous food applications and is increasingly being used in pharmaceutical formulations. Carrageenan is generally regarded as a relatively nontoxic and nonirritating material when used in nonparenteral pharmaceutical formulations. However, carrageenan is known to induce inflammatory responses in laboratory animals, and for this reason it is frequently used in experiments for the investigation of anti-inflammatory drugs. Animal studies suggest that degraded carrageenan (which is not approved for use in food products) may be associated with cancer in the intestinal tract, although comparable evidence does not exist in humans. The WHO has set an acceptable daily intake of carrageenan of ‘not specified’ as the total daily intake was not considered to represent a hazard to health. In the UK, the Food Advisory Committee has recommended that carrageenan should not be used as an additive for infant formulas. LD50 (rat, oral): >5 g/kg LD50 (rabbit, skin): >2 g/kg/4 h LC50 (rat, inhalation): >0.93 mg/L storage Carrageenan is a stable, though hygroscopic, polysaccharide and should be stored in a cool, dry place. Carrageenan in solution has maximum stability at pH 9 and should not be heat processed at pH values below 3.5. Acid and oxidizing agents may hydrolyze carrageenan in solution leading to loss of physical properties through cleavage of glycosidic bonds. Acid hydrolysis depends on pH, temperature and time. The acid hydrolysis takes place only when the carrageenan is dissolved, and the hydrolysis is accelerated as the processing temperature and/or the processing time is increased. However, when the carrageenan is in its gelled state the acid hydrolysis no longer takes place. Purification Methods This D-galactose-anhydro-D or Lgalactoside polysaccharide is precipitated from 4g of Carrageenan in 600mL of water containing 12g of KOAc by addition of EtOH. Collect the fraction that precipitates between 30 and 45% (v/v) of EtOH and dry them in vacuo. [Pal & Schubert J Am Chem Soc 84 4384 1962.] Incompatibilities Carrageenan can react with cationic materials. If complexation of cationic materials, with associated modification of the active compound’s solubility, is undesirable, the use of carrageenan is not recommended. Carrageenan may interact with other charged macromolecules, e.g. proteins, to give various effects such as viscosity increase, gel formation, stabilization or precipitation. Regulatory Status GRAS listed. Accepted as a food additive in Europe. Included in the FDA Inactive Ingredients Database (dental; oral capsules, granules, powders and syrups; topical; transdermal preparations; and controlled-release film preparations). Included in the Canadian List of Acceptable Non-medicinal Ingredients. Included in nonparenteral medicines (oral granules, capsules (shells), and orodispersible tablets) licensed in the UK.