- A industrialized production butoconazole nitrate intermediates
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The invention relates to a method for industrially producing a butoconazole nitrate intermediate 1-(2-chlorine-4-(4-chlorphenyl) butyl)-1hydrogen-imidazole. The method comprises steps as follows: (1), 2-5 parts of 1-(2-hydroxyl-4-(4-chlorphenyl) butyl)-1hydrogen-imidazole is taken and sufficiently dissolved in 20-40 parts of dichloromethane, 2-5 parts of thionyl chloride are slowly and dropwise added at the temperature of 15 DEG C-25 DEG C, the mixture is slowly heated to 25 DEG C-65 DEG C for a sufficient reaction and cooled, and a reaction liquid is obtained; (2), cold water and anhydrous sodium carbonate are sequentially and slowly added to the reaction liquid obtained in the step (1), suction filtration is performed, solids are abandoned, a liquid is concentrated and dried, and the butoconazole nitrate intermediate is obtained. According to the provided method, conditions and parameters in the synthesis process are comprehensively and preferentially selected, the purity and the yield of products are improved, and the method is more suitable for large-scale industrial production.
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Paragraph 0073-0075
(2018/05/24)
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- A industrialized butoconazole nitrate intermediates (by machine translation)
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The invention relates to a kind of industrial production butoconazole nitrate intermediate 1 - (2 - hydroxy - 4 - (4 - chlorophenyl) butyl) - 1 - imidazole method of hydrogen. The method comprises the following steps: (1) taking sodium hydride DMF solution, under the condition of the ice, slow instillment imidazole DMF solution, heating and stirring the reaction; after cooling, slowly adding 1 - chloro - 4 - (4 - chlorophenyl) - 2 - butanol, heating and stirring the reaction, after cooling, to the reaction solution; (2) taking the steps of (1) the resulting reaction solution, under the condition of stirring and mixing ice, to stop the precipitate is filtered, washing the filter cake, drying, recrystallization, to get the. The method of the invention the synthetic process conditions and parameters in the comprehensive preferably, and improves product purity and yield, more suitable for large-scale industrial production. (by machine translation)
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Paragraph 0067-0069
(2018/04/02)
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- Butoconazole nitrate industrial production method
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The invention relates to a method for industrially producing butoconazole nitrate. The method comprises the following steps: (1) taking 1-8 parts of 1-(2-chloro-4-(4-chlorphenyl)butyl)-1-hydro-imidazole, 1-8 parts of 2,6-dichlorothiophenol, 1-5 parts of anhydrous potassium carbonate and 30-50 parts of acetone to undergo heating reflux reaction for 4-6 hours, then replenishing 0.1-1 part of anhydrous potassium carbonate, continuously carrying out heating reflux reaction for 5-9 hours, cooling and filtering the reactant and concentrating the filtrate, thus obtaining a concentrate; (2) taking the concentrate obtained in the step (1), adding extract liquor formed by an organic solvent and water, and after full extraction, retaining an organic phase for later use; (3) dropwise adding concentrated nitric acid to the organic phase obtained in the step (2) and carrying out filtration after stopping generating a precipitate; discarding the filtrate and washing and drying a filter cake, thus obtaining butoconazole nitrate. In the method provided by the invention, the conditions and parameters in the synthetic process are comprehensively and preferentially selected, and the impurities which are likely to be introduced in the production process are effectively controlled, thus increasing the production efficiency and the purity and yield of the product. Therefore, the method is more suitable for large-scale industrial production.
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Paragraph 0104-0107
(2018/05/16)
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- A industrialized production butoconazole nitrate intermediates
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The invention relates to a method for industrially producing a butoconazole nitrate intermediate 1-(2-chloro-4-(4-chlorphenyl)butyl)-1-hydro-imidazole. The method comprises the following steps: (1) taking 1-(2-hydroxy-4-(4-chlorphenyl)butyl)-1-hydro-imidazole and thionyl chloride as raw materials to undergo heating reflux in dichloromethane, and after full reaction, cooling the reactant, thus obtaining a reaction liquid; and (2) slowly adding cold water and anhydrous sodium carbonate to the reaction liquid obtained in the step (1) in sequence, carrying out suction filtration, discarding the solid, concentrating the liquid and drying the concentrate, thus obtaining the butoconazole nitrate intermediate. In the method provided by the invention, the conditions and parameters in the synthetic process are comprehensively and preferentially selected, thus increasing the purity and yield of the product. Therefore, the method is more suitable for large-scale industrial production.
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Paragraph 0075-0077
(2018/05/24)
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- Butoconazole nitrate industrial production method
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The invention relates to a method for producing butoconazole nitrate. The method comprises the following steps: (1) taking 1-(2-chloro-4-(4-chlorphenyl)butyl)-1-hydro-imidazole, 2,6-dichlorothiophenol and anhydrous potassium carbonate as raw materials to undergo heating reflux in acetone, after full reaction, cooling and filtering the reactant and concentrating the filtrate, thus obtaining a concentrate; (2) taking the concentrate obtained in the step (1) and adding extract liquor which comprises diethyl ether and water in a weight ratio of (2-3) to (1-2); after full extraction, discarding a water phase and retaining an organic phase for later use; (3) dropwise adding concentrated nitric acid to the organic phase obtained in the step (2) and carrying out filtration after stopping generating a precipitate; discarding the filtrate and washing and drying a filter cake, thus obtaining butoconazole nitrate. In the method provided by the invention, the conditions and parameters in the synthetic process are comprehensively and preferentially selected, and the impurities which are likely to be introduced in the production process are effectively controlled, thus increasing the production efficiency and the purity and yield of the product. Therefore, the method is more suitable for large-scale industrial production.
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Paragraph 0111; 0112; 0113
(2018/05/24)
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- Preparation method of butoconazole nitrate
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The invention discloses a preparation method of butoconazole nitrate. The preparation method comprises the following steps: with 4-chlorobenzyl chloride as a starting raw material, synthesizing 1-chloro-4-(4-chlorophenyl)-2-butanol, then synthesizing 1-(4-(4-chlorophenyl)-2-hydroxy-butyl) imidazole, then synthesizing 1-(4-(4-chlorophenyl)-2-chloro-butyl) imidazole, adding the 1-(4-(4-chlorophenyl)-2-chloro-butyl) imidazole, 2, 6-dichlorobenzenethiol and potassium carbonate into acetone, heating for refluxing, adding water and ethyl acetate after the completion of a reaction, performing liquid separation, sequentially washing an ethyl acetate phase by using saturated potassium carbonate and saturated salt water, drying by using anhydrous magnesium sulfate, removing magnesium sulfate, dropwise adding nitric acid with the concentration of 65% in an ice bath until no precipitate is produced, filtering for collecting solid, and recrystallizing by using absolute ethanol to obtain white crystals, namely the butoconazole nitrate. By the preparation method of the butoconazole nitrate, the process is simple, the yield is high, the cost is low, and the purity of the obtained product is high.
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Paragraph 0033; 0035; 0043; 0045; 0053; 0055
(2018/01/11)
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- A industrialized butoconazole nitrate intermediates
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The invention relates to a method for industrially synthesizing a butoconazole nitrate intermediate. The method comprises steps as follows: (1), imidazole and sodium hydride are taken as raw materials, are heated and stirred in a DMF (dimethyl formamide) solution and are cooled after sufficient reaction, 1-chlorine-4-(4-chlorphenyl)-2-butanol is slowly dropwise added, the mixture is heated, stirred and cooled after sufficient reaction, and a reaction liquid is obtained; (2), n-hexane and ice water are sequentially added to the reaction liquid obtained in the step (1), sufficiently stirred and filtered after sediment separation stops, a filter cake is washed, centrifugally dried and recrystallized with ethyl acetate and activated carbon, and the butoconazole nitrate intermediate is obtained. According to the provided method, conditions and parameters in the synthesis process are comprehensively and preferentially selected, the purity and yield of products are improved, and the method is more suitable for large-scale industrial production.
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Paragraph 0068-0069
(2018/01/13)
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- Method for industrial process production of butoconazole nitrate
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The invention relates to a method for industrial process production of butoconazole nitrate. The method comprises the step that an intermediate product 1-chlorine-4-(4-chlorphenyl)-2-butanol, an intermediate product 1-(2-hydroxy-4-(4-chlorphenyl)butyl)-1 hydrogen-imidazole, an intermediate product 1-(2-chlorine-4-(4-chlorphenyl)butyl)-1 hydrogen-imidazole, a butoconazole nitrate crude product and a butoconazole nitrate finished product are sequentially synthesized. According to the method, conditions and parameters in the synthesizing process are comprehensively optimized, impurities likely to be introduced in the production process are effectively controlled, the production efficiency is improved, the purity and yield of the products are increased, and the method is suitable for industrial production.
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Paragraph 0054
(2017/01/23)
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- Industrial production method for butoconazole nitrate intermediate
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The present invention relates to an industrial production method for a butoconazole nitrate intermediate 1-chloro-4-(4-chlorophenyl)-2-butanol. The method comprises the following steps: (1) taking 1.5-2.5 parts of magnesium powder, diethyl ether for initiation and a catalytic amount of acid, slowly dropwise adding 35-45 parts of a p-chlorobenzyl chloride ether solution with the density of 0.2-0.4 g/ml, and performing a reflux reaction after adding dropwise to obtain a p-chlorobenzyl chloride Grignard reagent; slowly dropwise adding 15-25 parts of an epichlorohydrin ether solution with the density of 0.25-0.45 g/ml, and performing a reflux reaction after adding dropwise to obtain reaction liquid; and (2) taking the reaction liquid obtained in step (1), adding dilute sulphuric acid under the condition of ice-bath, standing for layering, retaining an organic phase, concentrating, and rectifying to obtain a product. According to the method provided by the invention, conditions and parameters in the synthetic process are optimized comprehensively, so that the purity and the yield of the product are improved, and the method is more suitable for large-scale industrial production.
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Paragraph 0035; 0036; 0037; 0038; 0039
(2016/10/17)
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- HEME-OXYGENASE INHIBITORS AND USE OF THE SAME IN THE TREATMENT OF CANCER AND DISEASES OF THE CENTRAL NERVOUS SYSTEM
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Disclosed are compounds of the general formula (1): compositions comprising an effective amount of said compounds either alone or in combination with other chemotherapeutic agents, and methods useful for treating or preventing cancer and for inhibiting tumour tissue growth. These compounds attenuate the oxidative damage associated with increased heme-oxygenase activity and can reduce cell proliferation in transformed cells. In addition, the described compounds and compositions are useful as neuroprotectants and for treating or preventing neurodegenerative disorders and other diseases of the central nervous system.
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Page/Page column 34; sheet 1/36; 51
(2009/01/24)
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- Heme oxygenase inhibition by 2-oxy-substituted 1-(1H-imidazol-1-yl)-4-phenylbutanes: Effect of halogen substitution in the phenyl ring
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A series of 2-oxy-substituted 1-(1H-imidazol-1-yl)-4-phenylbutanes comprising imidazole-ketones, imidazole-dioxolanes, and imidazole-alcohols substituted with halogens in the phenyl ring were synthesized and evaluated as novel inhibitors of heme oxygenase which are structurally distinct from metalloporphyrins. The entire library of compounds was found to be highly active, with the bromine- and iodine-substituted derivatives being the most potent. The imidazole-dioxolanes were all selective for the HO-1 isozyme (inducible) and exhibited substantially lower activity toward the HO-2 isozyme (constitutive). The corresponding imidazole-ketones and imidazole-alcohols showed selectivity toward HO-1 to a lesser degree than the similarly substituted imidazole-dioxolanes.
- Roman, Gheorghe,Riley, John G.,Vlahakis, Jason Z.,Kinobe, Robert T.,Brien, James F.,Nakatsu, Kanji,Szarek, Walter A.
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p. 3225 - 3234
(2008/02/07)
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- Derivatives of thienyl- and furyl-substituted N-butyl and N-phenyl imidazoles
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The compounds of the present invention are represented by the formula STR1 wherein R1 and R2 are the same or different and are optionally substituted furyl or thienyl the substituents independently selected from the group halo, C1 to C6 alkyl and C1 to C6 alkoxy or optionally substituted phenyl the substituents independently selected from the group halo, C1 to C4 alkyl, C1 to C4 alkoxy and trifluoromethyl; X is oxygen or sulfur; m is the integer 0; and n is the integer 2 or 3; and the antimicrobial acid addition salts thereof, with the proviso that when either R1 or R2 is said optionally substituted phenyl the other R1 or R2 is said optionally substituted furyl or thienyl. The compounds are useful for combatting fungi, bacteria and protozoa. They also have spermatocidal and spermatostatic activity.
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- Derivatives of substituted N-alkyl imidazoles and compositions and methods containing the same
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Compounds of the formula STR1 wherein R1 is phenethyl and R2 is phenyl, each of said phenethyl or phenyl independently being unsubstituted or substituted in the phenyl ring by from 1 to 3 substituents selected from the group consisting of halo, lower alkyl and lower alkoxy with the proviso that at least one of R1 and R2 be substituted by lower alkoxy; X is oxygen or sulfur; and the antimicrobial acid addition salts thereof are useful as antifungal, antibacterial and antiprotozoal agents.
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