Abstract
Introduction. The chlorination reaction in the synthesis of the substance of bendamustine hydrochloride is a complex process. The presence of active adverse reactions makes scaling difficult.Aim. Improving the performance of the technology for producing bendamustine ethyl ester in a flow microreactor.Materials and methods. A series of experiments was carried out to carry out the chlorination stage in the synthesis of bendamustine hydrochloride in a flow microreactor with various concentrations in the initial reagent solutions.Results and discussion. Experimental work was carried out to increase the productivity of the technology for the preparation of bendamustine ethyl ester (4-{[5-[bis(2-chloroethyl)amino]-1-methylbenzimidazol-2-yl}butanoic acid ethyl ester) by increasing the concentration of the starting reagents in the reaction mass. The conditions for conducting the chlorination reaction in the synthesis of bendamustine hydrochloride have been optimized, and possible ways to further increase productivity have been analyzed. The effect of changes in the concentration of reagents in the initial solutions and flow rates of reagent solutions on the final reaction product was studied.Conclusion. The optimal concentrations of reagents in the initial solutions were selected, allowing to increase the productivity of the flow microreactor with a volume of 137 mL to an equivalent level of a 100 liter capacitive reactor.
Highlights
The chlorination reaction in the synthesis of the substance of bendamustine hydrochloride is a complex process
A series of experiments was carried out to carry out the chlorination stage in the synthesis of bendamustine hydrochloride in a flow microreactor with various concentrations in the initial reagent solutions
Experimental work was carried out to increase the productivity of the technology for the preparation of bendamustine ethyl ester (4-{[5-[bis(2-chloroethyl)amino]-1-methylbenzimidazol-2-yl}butanoic acid ethyl ester) by increasing the concentration of the starting reagents in the reaction mass
Summary
Реакция хлорирования в синтезе фармацевтической субстанции бендамустина гидрохлорида является сложным технологическим процессом. Совершенствование процесса хлорирования в микрореактором синтезе бендамустина для повышения производительности технологии. Проведена серия экспериментов по совершенствованию технологии хлорирования в синтезе бендамустина гидрохлорида в проточном микрореакторе с различными концентрациями реагентов. Повышение концентрации исходных реагентов в реакционной массе позволило увеличить производительность технологии получения этилового эфира бендамустина (этиловый эфир 4-{5-[бис(2-гидроксоэтил)амино]-1-метилбензимидазол-2-ил}бутановой кислоты). Оптимизированы условия реакции хлорирования в синтезе бендамустина гидрохлорида, проанализированы возможные пути дальнейшего увеличения производительности. Определены оптимальные концентрации реагентов в исходных растворах, позволяющие достичь производительности проточного микрореактора объемом 137 мл, которая эквивалентна производительности емкостного реактора объемом 100 л. М. Юраков разработали и оптимизировали технологию хлорирования в проточном микрореакторе. Все авторы принимали участие в обсуждении результатов. Разработка и регистрация лекарственных средств. 2020; 9(1): 13–17
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