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Home > Products >  China Largest Manufacturer factory Supply MEBENDAZOLE CAS 31431-39-7

China Largest Manufacturer factory Supply MEBENDAZOLE CAS 31431-39-7 CAS NO.31431-39-7

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  • Min.Order: 500 Kilogram
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  • MEBENDAZOLE
  • MEBENDAZOLE
  • 31431-39-7

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  • ProName: China Largest Manufacturer factory Sup...
  • CasNo: 31431-39-7
  • Molecular Formula: 31431-39-7
  • Appearance: white powder
  • Application: Pharm chemicals industry
  • DeliveryTime: 3-5 days
  • PackAge: 25KG/Drum
  • Port: Shanghai Guangzhou Qingdao Shenzhen
  • ProductionCapacity: 20 Metric Ton/Month
  • Purity: 99%
  • Storage: 2-8°C
  • Transportation: By air /Sea/ coruier
  • LimitNum: 500 Kilogram
  • Heavy metal: 10PPM
  • Color: white
  • Melting point: ≥350°C
  • Boiling point: 363.24°C (rough estimate)
  • density: 1.667
  • solubility: 1 M NaOH: 10 mg/mL, dark green
  • Water Solubility: <0.1 g/100 mL at 21 oC
  • Stability: Stable. Combustible. Incompatible with...

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Mebendazole Basic information Pharmacology and mechanism of action Indications Side effects Contraindications and precautions Interactions Preparations Reference Product Name: Mebendazole Synonyms: (5-Benzoyl-1H-benzimidazol-2-yl)carbamicacidmethylester;(5-benzoyl-1h-benzimidazol-2-yl)-carbamicacidmethylester;(5-benzoyl-1h-benzimidazol-2-yl)-carbamicacimethylester;5-benzoyl-2-benzimidazolecarbamicacimethylester;bantenol;besantin;lomper;mbdz CAS: 31431-39-7 MF: C16H13N3O3 MW: 295.29 EINECS: 250-635-4 Product Categories: VERMOX;Pharmaceutical intermediates;Miscellaneous Enzyme;Amines;Aromatics;Heterocycles;Miscellaneous Natural Products;Intermediates & Fine Chemicals;Pharmaceuticals Mol File: 31431-39-7.mol  Mebendazole Chemical Properties Melting point  288.5°C Boiling point  436.98°C (rough estimate) density  1.1952 (rough estimate) refractive index  1.6500 (estimate) storage temp.  Sealed in dry,2-8°C solubility  Practically insoluble in water, in alcohol and in methylene chloride. form  neat pka pKa 3.43/9.93(H2O,t =25,I=0.025) (Uncertain) color  White to Pale Beige Water Solubility  35.4mg/L(25 ºC) Merck  14,5768 BRN  759809 CAS DataBase Reference 31431-39-7(CAS DataBase Reference) EPA Substance Registry System Mebendazole (31431-39-7) Safety Information Hazard Codes  Xn Risk Statements  22 Safety Statements  36 RIDADR  UN 2811 WGK Germany  3 RTECS  EY8600000 HS Code  29339900 Hazardous Substances Data 31431-39-7(Hazardous Substances Data) Toxicity LD50 orally: >80 mg/kg in sheep; >40 mg/kg in mice, rats and chickens (Van Gelder) MSDS Information Provider Language 5-Benzoyl-2-benzimidazolylcarbamic acid methyl ester English SigmaAldrich English Mebendazole Usage And Synthesis Pharmacology and mechanism of action Mebendazole is a benzimidazole derivative with a broad spectrum of anthelminthic activity. It is highly effective against adult and larval stages of Ascaris lumbricoides, Enterobius vermicularis, Trichuris trichiura, hookworms (Ancylostoma duodenale and Necator americanus) and Capillaria philippinensis. It is also ovicidal against Ascaris lumbricoides and Trichuris trichuria [1]. With high doses, the drug has some effect against hydatid disease [2]. Recent in vitro studies have reported mebendazole to be more effective than metronidazole in killing Giardia lamblia [3,4]; however, clinical findings are inconclusive [5, 6, 7]. The mechanisms of action of benzimidazoles are similar. These drugs appear to bind to parasite tubules with subsequent inhibition of the polymerization of tubules to microtubules which is vital for the normal functioning of the parasite cells[8]. Indications Mebendazole is the drug of choice for mixed nematode infections due to Trichuris trichiura, Ascaris lumbricoides, Enterobius vermicularis, Capillaria philippinensis or hookworms. The drug may be used against hydatid disease when albendazole is not available. Side effects Despite the widespread use of the drug, few side effects have been reported, especially in patients with heavy infections. These include transitory abdominal pain, diarrhoea and slight headache. High doses of the drug such as those used in the treatment of hydatid disease have been associated with bone marrow toxicity, alopecia, hepatitis, glomerulonephritis, fever and exfoliative dermatitis [9–12]. Contraindications and precautions When high doses of mebendazole are given, regular monitoring of serum-transaminase levels and leukocyte and platelet counts must be carried out. In patients with liver impairment dosage reductions must be made. Interactions The concomitant administration of phenytoin or carbamazepine has been reported to lower the plasma concentration of mebendazole [12], while cimetidine had the opposite effect[13]. Preparations • Pantelmin® (Janssen). Oral solution 20 mg/ml. Tablets 100 mg, 500 mg. • Vermox® (Janssen). Oral suspension 20 mg/ml. Tablets 100 mg, 500 mg. Several other preparations are available. Reference 1. Van den Bossche H, Rochette F, Horig C (1982). Mebendazole and related anthelminthics. Adv Pharmacol Chemother, 19, 287–296. 2. Todorov T, Vutova K, Mechkov G, Georgiev P, Petkov D, Tonchev Z, Nedelkov G (1992). Chemotherapy of human cystic echinococcosis: comparative efficacy of mebendazole and albendazole. Ann Trop Med Parasitol, 86, 59–66. 3. Cedillo-Rivera R, Munoz O (1992). In-vitro susceptibility of Giardia lamblia to albendazole, mebendazole and other chemotherapeutic agents. J Med Microbiol, 37, 221–224. 4. Edlind TD, Hang TL, Chakraborty PR (1990). Activity of the anthelminthic benzimidazoles against Giardia lamblia in vitro. J Infect Dis, 162, 1408–1411. 5. Al-Waili D, Al-Waili B, Saloom K (1988). Therapeutic use of mebendazole in giardial infections. Trans R Soc Trop Med Hyg, 82, 438. 6. Al-Waili NSD, Hasan NU (1992). Mebendazole in giardial infections: A comparative study with metronidazole. J Infect Dis, 165, 1170–1171. 7. Gascon J, Moreno A, Valls ME, Miro JM, Corachan M (1989). Failure of mebendazole treatment in Giardia lamblia infection. Trans R Soc Trop Med Hyg, 83, 647. 8. Lacey E (1990). Mode of action of Benzimidazoles. Parasitology Today, 6, 112–115. 9. Wilson JF, Rausch RL, McMahon BJ, Schantz PM (1992). Parasitological effect of chemotherapy in alveolar hydatid disease: Review of experience with mebendazole and albendazole in Alaskan eskimos. Clin. Infect Dis, 15, 234–249. 10. Ellis M, von Sinner W, Al-hokail A, Siek JA (1992). Clinical-radiological evaluation of benzimidazoles in the management of Echinococcus granulosus cysts. Scand J Infect Dis, 24, 1–13. 11. Todorov T, Vutova K, Mechkov G, Tonchev Z, Georgiev P, Lazarova I (1992). Experience in the chemotherapy of severe, inoperable echinococcosis in man. Infection, 20, 23–24. 12. Luder PJ, Siffert B, Witassek F, Meister F, Bircher J (1986). Treatment of hydatid disease with high oral doses of mebendazole. Long-term follow-up of plasma mebendazole levels and drug interactions. Eur J Clin Pharmacol, 31, 443–448. 13. Bekhti A, Pirotte J (1987). Cimetidine increases serum mebendazole concentrations. Implications for treatment of hepatic hydatid cysts. Br J Clin Pharmacol, 24, 390–392. Description Mebendazole is a broad-spectrum anthelmintic that is active against both larval and adult stages of nematodes selectively binding the β-subunit of tubulin, thereby inhibiting intestinal microtubule synthesis in the parasite (IC50 = 0.19 μM for Giardia in vitro). As a tubulin-binding agent, mebendazole also possesses antitumor properties, inducing apoptosis of various human carcinomas both in vitro and in vivo, thus preventing their growth and migration. Furthermore, mebendazole has been used to inhibit hedgehog signaling in cancer cells via suppression of the formation of the primary cilium, a microtubule-based organelle that functions as a signaling hub for hedgehog pathway activation. Additionally, mebendazole has been shown to stabilize the transcriptional activator HIF-1α and its downstream targets, abrogating oxidative neuronal death in primary neurons. Chemical Properties White Amorphous Powder Originator Vermox,Ortho,US ,1975 Uses Mebendazole Polymorph C is an Anthelmintic (Nematodes). Uses Anthelmintic (Nematodes) Uses For the treatment of Enterobius vermicularis (pinworm), Trichuris trichiura (whipworm), Ascaris lumbricoides (common roundworm), Ancylostoma duodenale (common hookworm), Necator americanus (American hookworm) in single or mixed infections. Definition ChEBI: A carbamate ester that is methyl 1H-benzimidazol-2-ylcarbamate substituted by a benzoyl group at position 5. Indications Unlike thiabendazole, mebendazole (Vermox) does not inhibit fumarate reductase.While mebendazole binds to both mammalian and nematode tubulin, it exhibits a differential affinity for the latter, possibly explaining the selective action of the drug. The selective binding to nematode tubulin may inhibit glucose absorption, leading to glycogen consumption and ATP depletion. Manufacturing Process A mixture of 5.2 parts of 4-chloro-3-nitrobenzophenone, 5 parts of ammonia, 72 parts of methanol and 13 parts of sulfolane is heated overnight at 125°C in a sealed tube. The reaction mixture is evaporated in vacuo. The semisolid residue is boiled in 100 parts of a diluted hydrochloric acid solution. After cooling, the precipitated product is filtered off and dissolved in chloroform. The chloroform phase is dried and evaporated. The residue is crystallized from toluene, yielding 4-amino-3-nitrobenzophenone; MP 141°C. A mixture of 9.6 parts of 4-amino-3-nitrobenzophenone, 160 parts of methanol, 8 parts of concentrated hydrochloric acid and 1 part of palladiumon-charcoal catalyst 10% is hydrogenated at normal pressure and at room temperature. After the calculated amount of hydrogen is taken up, hydrogenation is stopped. The catalyst is filtered off and the solvent is evaporated. The solid residue is triturated in 2-propanol. The latter is partly evaporated and the solid product is filtered off, washed with 2-propanol and dried, yielding 3,4-diaminobenzophenone hydrochloride; MP 207°C. 7.8 parts of S-methylisothiourea sulfate are stirred in 10 parts of water in an ice bath and there are added 4.5 parts of methyl chloroformate. While keeping the temperature below 20°C, there are added dropwise, in the course of 10 minutes, 17 parts of sodium hydroxide solution 25% (pH 8±), followed by the addition of 5.6 parts of acetic acid (pH 5). To this mixture is added at 20°C a suspension of 7 parts of 3,4-diaminobenzophenone hydrochloride in 100 parts of water, followed by the addition of 2.3 parts of sodium acetate. The whole is slowly heated to 85°C and stirred at this temperature for 45 minutes. The reaction mixture is cooled and the precipitated product is filtered off. It is washed successively with water and ethanol, dried and crystallized from a mixture of acetic acid and methanol, yielding methyl N-[5(6)-benzoyl2-benzimidazolyl]carbamate; MP 288.5°C. Brand name Vermox (McNeil). Therapeutic Function Anthelmintic General Description White to slightly yellow powder. Pleasant taste. Practically water insoluble. Air & Water Reactions Insoluble in water. Reactivity Profile Mebendazole is a carbamate ester-amine. Amines behave as chemical bases. Carbamates are chemically similar to, but more reactive than amides. Like amides they form polymers such as polyurethane resins. Carbamates are incompatible with strong acids and bases, and especially incompatible with strong reducing agents such as hydrides. Flammable gaseous hydrogen is produced by the combination of active metals or nitrides with carbamates. Strongly oxidizing acids, peroxides, and hydroperoxides are incompatible with carbamates. Fire Hazard Flash point data for Mebendazole are not available; however, Mebendazole is probably combustible. Pharmaceutical Applications A benzimidazole carbamic acid methyl ester available for oral administration. It is insoluble in water and stable at room temperature. Mechanism of action Mebendazole is given orally; it is poorly soluble, and very little is absorbed from the intestinal tract. About 5 to 10%, principally the decarboxylated derivatives, is recovered in the urine; most of the orally administered drug is found in the feces within 24 hours. Pharmacokinetics Oral absorption is poor. Plasma concentrations achieved after oral administration of 100 mg every 12 h for three consecutive days do not exceed 0.03 mg/L. All metabolites are inactive. Most of the dose, as unchanged drug or a primary metabolite, is retained in the intestinal tract and passed in the feces, with the remainder, approximately 2% of the dose, excreted in the urine. Clinical Use Methyl 5-benzoyl-2-benzimidazolecarbamate (Vermox) isa broad-spectrum anthelmintic that is effective against variousnematode infestations, including whipworm, pinworm,roundworm, and hookworm. Mebendazole irreversiblyblocks glucose uptake in susceptible helminths, thereby depletingglycogen stored in the parasite. It apparently does notaffect glucose metabolism in the host. It also inhibits cell divisionin nematodes. Mebendazole is poorly absorbed by the oral route.Adverse reactions are uncommon and usually consist of abdominaldiscomfort. It is teratogenic in laboratory animalsand, therefore, should not be given during pregnancy. Clinical Use Mebendazole is used primarily for the treatment of A. lumbricoides, T. trichiura, E. vermicularis, and hookworm infections, in which it produces high cure rates. It is an alternative agent for the treatment of trichinosis and visceral larva migrans. Owing to its broad-spectrum anthelmintic effect, mixed infections (ascariasis, hookworm infestation, or enterobiasis in association with trichuriasis) frequently respond to therapy. High doses have been used to treat hydatid disease, but albendazole is now thought to be superior. Clinical Use Intestinal nematode infections Trichinosis (larval stage) Side effects Abdominal discomfort and diarrhea may occur when the worm load is heavy. Its use is contraindicated during pregnancy. Side effects Diarrhea and gastrointestinal discomfort may occur, but adverse reactions are generally mild. Woman of childbearing age should be informed of a potential risk to the fetus if treated during pregnancy, particularly during the first trimester. Safety Profile Moderately toxic by ingestion and intraperitoneal routes. Human mutation data reported. An experimental teratogen. Experimental reproductive effects. When heated to decomposition it emits toxic fumes of NOx. See also CARBAMATES. Chemical Synthesis Mebendazole, methyl-[5-(benzoyl)-1H-benzoimidazol-2-yl]carbamate (38.1.5), is a derivative of benzoimidazole, which is made by reacting 3,4-diaminobenzophenone (38.1.3) with N-methoxycarbonyl-S-methylthiourea (38.1.4).  The necessary reagents are made in the following manner. Nitration of 4-chlorobenzophenone with nitric acid at a temperature lower than 5°C gives 4-chloro-3-nitrobenzophenone (38.1.1), in which the chlorine atom is replaced with an amino group by heating it to 125°C in a solution of ammonia in methanol to make 4-amino-3-nitrobenzophenone (38.1.2). Reducing the nitro groups in this compound with hydrogen using a palladium on carbon catalyst gives 3,4-diaminobenzophenone (38.1.3).  The second reagent, N-methoxycarbonyl-S-methylthiourea (38.1.4), is made by reacting methyl chloroformate with S-methylthiourea.  Drug interactions Potentially hazardous interactions with other drugs Cimetidine: possibly inhibits metabolism of mebendazole. Antiepileptics: phenytoin, carbamazepine and phenobarbital: lower mebendazole concentrations, only relevant when being used in high doses for echinococcosis. Mebendazole Preparation Products And Raw materials Raw materials Aluminum chloride-->Copper(I) chloride-->Sodium acetate trihydrate-->1,2-Dichlorobenzene-->2-Methyl-2-thiopseudourea sulfate-->Activated carbon,decolor-->Methyl chloroformate-->4-Chloro-3-nitrobenzoic acid-->Methylcyanocarbamate-->(3,4-Diaminophenyl)phenylmethanone-->2,4'-Dichlorobenzophenone-->Ammonia-->Hydrogen-->4-CHLORO-3-NITROBENZOPHENONE-->3,4-DIAMINOBENZOPHENONE MONOHYDROCHLORIDE-->(3,4-Dinitrophenyl)(phenyl)methanone
 
 

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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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Mebendazole Basic information Pharmacology and mechanism of action Indications Side effects Contraindications and precautions Interactions Preparations Reference Product Name: Mebendazole Synonyms: (5-Benzoyl-1H-benzimidazol-2-yl)carbamicacidmethylester;(5-benzoyl-1h-benzimidazol-2-yl)-carbamicacidmethylester;(5-benzoyl-1h-benzimidazol-2-yl)-carbamicacimethylester;5-benzoyl-2-benzimidazolecarbamicacimethylester;bantenol;besantin;lomper;mbdz CAS: 31431-39-7 MF: C16H13N3O3 MW: 295.29 EINECS: 250-635-4 Product Categories: VERMOX;Pharmaceutical intermediates;Miscellaneous Enzyme;Amines;Aromatics;Heterocycles;Miscellaneous Natural Products;Intermediates & Fine Chemicals;Pharmaceuticals Mol File: 31431-39-7.mol  Mebendazole Chemical Properties Melting point  288.5°C Boiling point  436.98°C (rough estimate) density  1.1952 (rough estimate) refractive index  1.6500 (estimate) storage temp.  Sealed in dry,2-8°C solubility  Practically insoluble in water, in alcohol and in methylene chloride. form  neat pka pKa 3.43/9.93(H2O,t =25,I=0.025) (Uncertain) color  White to Pale Beige Water Solubility  35.4mg/L(25 ºC) Merck  14,5768 BRN  759809 CAS DataBase Reference 31431-39-7(CAS DataBase Reference) EPA Substance Registry System Mebendazole (31431-39-7) Safety Information Hazard Codes  Xn Risk Statements  22 Safety Statements  36 RIDADR  UN 2811 WGK Germany  3 RTECS  EY8600000 HS Code  29339900 Hazardous Substances Data 31431-39-7(Hazardous Substances Data) Toxicity LD50 orally: >80 mg/kg in sheep; >40 mg/kg in mice, rats and chickens (Van Gelder) MSDS Information Provider Language 5-Benzoyl-2-benzimidazolylcarbamic acid methyl ester English SigmaAldrich English Mebendazole Usage And Synthesis Pharmacology and mechanism of action Mebendazole is a benzimidazole derivative with a broad spectrum of anthelminthic activity. It is highly effective against adult and larval stages of Ascaris lumbricoides, Enterobius vermicularis, Trichuris trichiura, hookworms (Ancylostoma duodenale and Necator americanus) and Capillaria philippinensis. It is also ovicidal against Ascaris lumbricoides and Trichuris trichuria [1]. With high doses, the drug has some effect against hydatid disease [2]. Recent in vitro studies have reported mebendazole to be more effective than metronidazole in killing Giardia lamblia [3,4]; however, clinical findings are inconclusive [5, 6, 7]. The mechanisms of action of benzimidazoles are similar. These drugs appear to bind to parasite tubules with subsequent inhibition of the polymerization of tubules to microtubules which is vital for the normal functioning of the parasite cells[8]. Indications Mebendazole is the drug of choice for mixed nematode infections due to Trichuris trichiura, Ascaris lumbricoides, Enterobius vermicularis, Capillaria philippinensis or hookworms. The drug may be used against hydatid disease when albendazole is not available. Side effects Despite the widespread use of the drug, few side effects have been reported, especially in patients with heavy infections. These include transitory abdominal pain, diarrhoea and slight headache. High doses of the drug such as those used in the treatment of hydatid disease have been associated with bone marrow toxicity, alopecia, hepatitis, glomerulonephritis, fever and exfoliative dermatitis [9–12]. Contraindications and precautions When high doses of mebendazole are given, regular monitoring of serum-transaminase levels and leukocyte and platelet counts must be carried out. In patients with liver impairment dosage reductions must be made. Interactions The concomitant administration of phenytoin or carbamazepine has been reported to lower the plasma concentration of mebendazole [12], while cimetidine had the opposite effect[13]. Preparations • Pantelmin® (Janssen). Oral solution 20 mg/ml. Tablets 100 mg, 500 mg. • Vermox® (Janssen). Oral suspension 20 mg/ml. Tablets 100 mg, 500 mg. Several other preparations are available. Reference 1. Van den Bossche H, Rochette F, Horig C (1982). Mebendazole and related anthelminthics. Adv Pharmacol Chemother, 19, 287–296. 2. Todorov T, Vutova K, Mechkov G, Georgiev P, Petkov D, Tonchev Z, Nedelkov G (1992). Chemotherapy of human cystic echinococcosis: comparative efficacy of mebendazole and albendazole. Ann Trop Med Parasitol, 86, 59–66. 3. Cedillo-Rivera R, Munoz O (1992). In-vitro susceptibility of Giardia lamblia to albendazole, mebendazole and other chemotherapeutic agents. J Med Microbiol, 37, 221–224. 4. Edlind TD, Hang TL, Chakraborty PR (1990). Activity of the anthelminthic benzimidazoles against Giardia lamblia in vitro. J Infect Dis, 162, 1408–1411. 5. Al-Waili D, Al-Waili B, Saloom K (1988). Therapeutic use of mebendazole in giardial infections. Trans R Soc Trop Med Hyg, 82, 438. 6. Al-Waili NSD, Hasan NU (1992). Mebendazole in giardial infections: A comparative study with metronidazole. J Infect Dis, 165, 1170–1171. 7. Gascon J, Moreno A, Valls ME, Miro JM, Corachan M (1989). Failure of mebendazole treatment in Giardia lamblia infection. Trans R Soc Trop Med Hyg, 83, 647. 8. Lacey E (1990). Mode of action of Benzimidazoles. Parasitology Today, 6, 112–115. 9. Wilson JF, Rausch RL, McMahon BJ, Schantz PM (1992). Parasitological effect of chemotherapy in alveolar hydatid disease: Review of experience with mebendazole and albendazole in Alaskan eskimos. Clin. Infect Dis, 15, 234–249. 10. Ellis M, von Sinner W, Al-hokail A, Siek JA (1992). Clinical-radiological evaluation of benzimidazoles in the management of Echinococcus granulosus cysts. Scand J Infect Dis, 24, 1–13. 11. Todorov T, Vutova K, Mechkov G, Tonchev Z, Georgiev P, Lazarova I (1992). Experience in the chemotherapy of severe, inoperable echinococcosis in man. Infection, 20, 23–24. 12. Luder PJ, Siffert B, Witassek F, Meister F, Bircher J (1986). Treatment of hydatid disease with high oral doses of mebendazole. Long-term follow-up of plasma mebendazole levels and drug interactions. Eur J Clin Pharmacol, 31, 443–448. 13. Bekhti A, Pirotte J (1987). Cimetidine increases serum mebendazole concentrations. Implications for treatment of hepatic hydatid cysts. Br J Clin Pharmacol, 24, 390–392. Description Mebendazole is a broad-spectrum anthelmintic that is active against both larval and adult stages of nematodes selectively binding the β-subunit of tubulin, thereby inhibiting intestinal microtubule synthesis in the parasite (IC50 = 0.19 μM for Giardia in vitro). As a tubulin-binding agent, mebendazole also possesses antitumor properties, inducing apoptosis of various human carcinomas both in vitro and in vivo, thus preventing their growth and migration. Furthermore, mebendazole has been used to inhibit hedgehog signaling in cancer cells via suppression of the formation of the primary cilium, a microtubule-based organelle that functions as a signaling hub for hedgehog pathway activation. Additionally, mebendazole has been shown to stabilize the transcriptional activator HIF-1α and its downstream targets, abrogating oxidative neuronal death in primary neurons. Chemical Properties White Amorphous Powder Originator Vermox,Ortho,US ,1975 Uses Mebendazole Polymorph C is an Anthelmintic (Nematodes). Uses Anthelmintic (Nematodes) Uses For the treatment of Enterobius vermicularis (pinworm), Trichuris trichiura (whipworm), Ascaris lumbricoides (common roundworm), Ancylostoma duodenale (common hookworm), Necator americanus (American hookworm) in single or mixed infections. Definition ChEBI: A carbamate ester that is methyl 1H-benzimidazol-2-ylcarbamate substituted by a benzoyl group at position 5. Indications Unlike thiabendazole, mebendazole (Vermox) does not inhibit fumarate reductase.While mebendazole binds to both mammalian and nematode tubulin, it exhibits a differential affinity for the latter, possibly explaining the selective action of the drug. The selective binding to nematode tubulin may inhibit glucose absorption, leading to glycogen consumption and ATP depletion. Manufacturing Process A mixture of 5.2 parts of 4-chloro-3-nitrobenzophenone, 5 parts of ammonia, 72 parts of methanol and 13 parts of sulfolane is heated overnight at 125°C in a sealed tube. The reaction mixture is evaporated in vacuo. The semisolid residue is boiled in 100 parts of a diluted hydrochloric acid solution. After cooling, the precipitated product is filtered off and dissolved in chloroform. The chloroform phase is dried and evaporated. The residue is crystallized from toluene, yielding 4-amino-3-nitrobenzophenone; MP 141°C. A mixture of 9.6 parts of 4-amino-3-nitrobenzophenone, 160 parts of methanol, 8 parts of concentrated hydrochloric acid and 1 part of palladiumon-charcoal catalyst 10% is hydrogenated at normal pressure and at room temperature. After the calculated amount of hydrogen is taken up, hydrogenation is stopped. The catalyst is filtered off and the solvent is evaporated. The solid residue is triturated in 2-propanol. The latter is partly evaporated and the solid product is filtered off, washed with 2-propanol and dried, yielding 3,4-diaminobenzophenone hydrochloride; MP 207°C. 7.8 parts of S-methylisothiourea sulfate are stirred in 10 parts of water in an ice bath and there are added 4.5 parts of methyl chloroformate. While keeping the temperature below 20°C, there are added dropwise, in the course of 10 minutes, 17 parts of sodium hydroxide solution 25% (pH 8±), followed by the addition of 5.6 parts of acetic acid (pH 5). To this mixture is added at 20°C a suspension of 7 parts of 3,4-diaminobenzophenone hydrochloride in 100 parts of water, followed by the addition of 2.3 parts of sodium acetate. The whole is slowly heated to 85°C and stirred at this temperature for 45 minutes. The reaction mixture is cooled and the precipitated product is filtered off. It is washed successively with water and ethanol, dried and crystallized from a mixture of acetic acid and methanol, yielding methyl N-[5(6)-benzoyl2-benzimidazolyl]carbamate; MP 288.5°C. Brand name Vermox (McNeil). Therapeutic Function Anthelmintic General Description White to slightly yellow powder. Pleasant taste. Practically water insoluble. Air & Water Reactions Insoluble in water. Reactivity Profile Mebendazole is a carbamate ester-amine. Amines behave as chemical bases. Carbamates are chemically similar to, but more reactive than amides. Like amides they form polymers such as polyurethane resins. Carbamates are incompatible with strong acids and bases, and especially incompatible with strong reducing agents such as hydrides. Flammable gaseous hydrogen is produced by the combination of active metals or nitrides with carbamates. Strongly oxidizing acids, peroxides, and hydroperoxides are incompatible with carbamates. Fire Hazard Flash point data for Mebendazole are not available; however, Mebendazole is probably combustible. Pharmaceutical Applications A benzimidazole carbamic acid methyl ester available for oral administration. It is insoluble in water and stable at room temperature. Mechanism of action Mebendazole is given orally; it is poorly soluble, and very little is absorbed from the intestinal tract. About 5 to 10%, principally the decarboxylated derivatives, is recovered in the urine; most of the orally administered drug is found in the feces within 24 hours. Pharmacokinetics Oral absorption is poor. Plasma concentrations achieved after oral administration of 100 mg every 12 h for three consecutive days do not exceed 0.03 mg/L. All metabolites are inactive. Most of the dose, as unchanged drug or a primary metabolite, is retained in the intestinal tract and passed in the feces, with the remainder, approximately 2% of the dose, excreted in the urine. Clinical Use Methyl 5-benzoyl-2-benzimidazolecarbamate (Vermox) isa broad-spectrum anthelmintic that is effective against variousnematode infestations, including whipworm, pinworm,roundworm, and hookworm. Mebendazole irreversiblyblocks glucose uptake in susceptible helminths, thereby depletingglycogen stored in the parasite. It apparently does notaffect glucose metabolism in the host. It also inhibits cell divisionin nematodes. Mebendazole is poorly absorbed by the oral route.Adverse reactions are uncommon and usually consist of abdominaldiscomfort. It is teratogenic in laboratory animalsand, therefore, should not be given during pregnancy. Clinical Use Mebendazole is used primarily for the treatment of A. lumbricoides, T. trichiura, E. vermicularis, and hookworm infections, in which it produces high cure rates. It is an alternative agent for the treatment of trichinosis and visceral larva migrans. Owing to its broad-spectrum anthelmintic effect, mixed infections (ascariasis, hookworm infestation, or enterobiasis in association with trichuriasis) frequently respond to therapy. High doses have been used to treat hydatid disease, but albendazole is now thought to be superior. Clinical Use Intestinal nematode infections Trichinosis (larval stage) Side effects Abdominal discomfort and diarrhea may occur when the worm load is heavy. Its use is contraindicated during pregnancy. Side effects Diarrhea and gastrointestinal discomfort may occur, but adverse reactions are generally mild. Woman of childbearing age should be informed of a potential risk to the fetus if treated during pregnancy, particularly during the first trimester. Safety Profile Moderately toxic by ingestion and intraperitoneal routes. Human mutation data reported. An experimental teratogen. Experimental reproductive effects. When heated to decomposition it emits toxic fumes of NOx. See also CARBAMATES. Chemical Synthesis Mebendazole, methyl-[5-(benzoyl)-1H-benzoimidazol-2-yl]carbamate (38.1.5), is a derivative of benzoimidazole, which is made by reacting 3,4-diaminobenzophenone (38.1.3) with N-methoxycarbonyl-S-methylthiourea (38.1.4).  The necessary reagents are made in the following manner. Nitration of 4-chlorobenzophenone with nitric acid at a temperature lower than 5°C gives 4-chloro-3-nitrobenzophenone (38.1.1), in which the chlorine atom is replaced with an amino group by heating it to 125°C in a solution of ammonia in methanol to make 4-amino-3-nitrobenzophenone (38.1.2). Reducing the nitro groups in this compound with hydrogen using a palladium on carbon catalyst gives 3,4-diaminobenzophenone (38.1.3).  The second reagent, N-methoxycarbonyl-S-methylthiourea (38.1.4), is made by reacting methyl chloroformate with S-methylthiourea.  Drug interactions Potentially hazardous interactions with other drugs Cimetidine: possibly inhibits metabolism of mebendazole. Antiepileptics: phenytoin, carbamazepine and phenobarbital: lower mebendazole concentrations, only relevant when being used in high doses for echinococcosis. Mebendazole Preparation Products And Raw materials Raw materials Aluminum chloride-->Copper(I) chloride-->Sodium acetate trihydrate-->1,2-Dichlorobenzene-->2-Methyl-2-thiopseudourea sulfate-->Activated carbon,decolor-->Methyl chloroformate-->4-Chloro-3-nitrobenzoic acid-->Methylcyanocarbamate-->(3,4-Diaminophenyl)phenylmethanone-->2,4'-Dichlorobenzophenone-->Ammonia-->Hydrogen-->4-CHLORO-3-NITROBENZOPHENONE-->3,4-DIAMINOBENZOPHENONE MONOHYDROCHLORIDE-->(3,4-Dinitrophenyl)(phenyl)methanone

 

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