利用连续流动化学开发大规模氰化工艺用于瑞德西韦的合成。

Development of a Large-Scale Cyanation Process Using Continuous Flow Chemistry En Route to the Synthesis of Remdesivir.

作者信息

Vieira Tiago, Stevens Andrew C, Chtchemelinine Andrei, Gao Detian, Badalov Pavel, Heumann Lars

机构信息

Gilead Alberta ULC, 1021 Hayter Road, Edmonton, Alberta T6S 1A1, Canada.

Gilead Sciences, Inc., 333 Lakeside Drive, Foster City, California 94404, United States.

出版信息

Org Process Res Dev. 2020 May 21;24(10):2113-2121. doi: 10.1021/acs.oprd.0c00172. eCollection 2020 Oct 16.

DOI:10.1021/acs.oprd.0c00172

PMID:37556265

Abstract

The implementation of cyanation chemistry at manufacturing scales using batch equipment can be challenging because of the hazardous nature of the reagents employed and the tight control of reaction parameters, including cryogenic temperatures, that help to afford acceptable selectivity and conversion for the desired reaction. Application of continuous flow chemistry offers a means to mitigate the risk associated with handling large amounts of hazardous reagents and to better control the reaction parameters. A case study describing the cyanation of a glycoside using continuous flow chemistry toward the synthesis of the drug candidate remdesivir is presented.

摘要

使用间歇式设备在生产规模上实施氰化反应可能具有挑战性，这是因为所使用的试剂具有危险性，且需要严格控制反应参数，包括低温温度，这些参数有助于为所需反应提供可接受的选择性和转化率。连续流动化学的应用提供了一种手段，可降低与处理大量危险试剂相关的风险，并更好地控制反应参数。本文介绍了一个案例研究，该研究描述了使用连续流动化学对一种糖苷进行氰化反应以合成候选药物瑞德西韦的过程。

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利用连续流动化学开发大规模氰化工艺用于瑞德西韦的合成。

Development of a Large-Scale Cyanation Process Using Continuous Flow Chemistry En Route to the Synthesis of Remdesivir.

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