33400-45-2Relevant academic research and scientific papers
Method for preparing flupirtine hydrochloride
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, (2019/01/14)
The invention discloses a method for preparing flupirtine hydrochloride. The method comprises the following steps: adopting 2,6-dichloro-3-nitropyridine as an initial material, performing ammonolysis,substituting fluorobenzylamine, purifying, hydrogenating, performing acylation reaction, filtering, precipitating crystals and decompression drying to obtain the flupirtine hydrochloride. The methodis simple in operation, capable of simultaneously performing the hydrogenation and acylation reaction, capable of avoiding the deterioration of polyamino pyridine derivatives as far as possible, capable of titrating ethyl chloroformate without opening a kettle cover, and capable of reducing the harm on the human body.
Synthesis method for flupirtine maleate compound
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, (2016/12/01)
The invention discloses a synthesis method for a flupirtine maleate compound. The method comprises the steps that 2-amino-3-nitro-6-chloropyridine (a first compound) is used as a starting material to react with fluorobenzylamine (a second compound) to generate 2-amino-3-nitro-6-p-fluorobenzylamine pyridine (a third compound), the third compound is processed through di-tert-butyl dicarbonate ester protection to obtain 2-amino-3-nitro-6-p-fluorobenzylamine pyridine-3-based-tert-butyl acetate (a fourth compound), the fourth compound is processed through hydrogenation reduction and then react with ethyl chloroformate, after reacting is finished, deprotection is performed to obtain flupirtine hydrochloride (a fifth compound), and the fifth compound is salified with maleic acid to obtain flupirtine maleate (the sixth compound). According to the synthesis method, the starting material is cheap and easy to obtain, byproduct generation is avoided through amino protection, therefore, the impurity content is decreased, and the product quality is improved; catalytic reduction is performed by adopting palladium chloride, the reaction condition is mild, the reaction process is easy to operate, and the method is suitable for industrial production.
FLUPIRTINE HYDROCHLORIDE MALEIC ACID COCRYSTAL
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Page/Page column 30-31, (2010/04/03)
The invention relates to crystalline forms of flupirtine, particularly to 1:1 flupirtine hydrochloride maleic acid cocrystal. The preparation and characterization of 1:1 flupirtine hydrochloride maleic acid cocrystal is described. The invention also relates to the therapeutic use of the flupirtine hydrochloride maleic acid cocrystal to treat nervous system disorders, pain disorders, and musculoskeletal disorders and to pharmaceutical compositions containing the cocrystal.
Synthesis and quantitative structure-activity relationships of anticonvulsant 2,3,6-triaminopyridines
Seydel,Schaper,Coats,Cordes
, p. 3016 - 3022 (2007/10/02)
The synthesis of 2,3,6-triaminopyridine derivatives, representing a unique chemical structure for anticonvulsants, is described. The synthetic program was performed (a) to identify more potent analogs, (b) to determine structural properties controlling potency as well as neurotoxicity, and (c) to reduce the requirements for animal testing. As a result, besides other structural properties, the overall molecular lipophilicity (log k', octanol- coated column) explained changes in anticonvulsant potency and neurotoxicity. Mimicking the interaction of the amphiphilic triaminopyridines with biological membranes, NMR experiments in the presence of lecithin vesicles were conducted in order to measure the phospholipid-binding parameter log Δ(1/T2). Replacement of log k' with log Δ(1/T2) in the correlation analysis afforded a more significant equation describing the anticonvulsant activity of 21 derivatives.
