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Development of a multi-step synthesis and workup sequence for an integrated, continuous manufacturing process of a pharmaceutical
Authors
Aaron Wolfe (1831153)
Brahim Benyahia (1258056)
+11 more
Haitao Zhang (47756)
James M.B. Evans (7128281)
Klavs F. Jensen (722008)
L. Buchbinder (7129670)
Patrick L. Heider (1734916)
R. Hogan (7129667)
Richard Lakerveld (1784755)
S. Basak (7129664)
S.C. Born (7129661)
Salvatore Mascia (1831159)
Timothy F. Jamison (1316955)
Publication date
19 February 2014
Publisher
Abstract
The development and operation of the synthesis and workup steps of a fully integrated, continuous manufacturing plant for synthesizing aliskiren, a small molecule pharmaceutical, are presented. The plant started with advanced intermediates, two synthetic steps away from the final active pharmaceutical ingredient, and ended with finished tablets. The entire process was run on several occasions, with the data presented herein corresponding to a 240 h run at a nominal throughput of 41 g h-1 of aliskiren. The first reaction was performed solvent-free in a molten condition at a high temperature, achieving high yields (90%) and avoiding solid handling and a long residence time (due to higher concentrations compared to dilute conditions when run at lower temperatures in a solvent). The resulting stream was worked-up inline using liquid-liquid extraction with membrane-based separators that were scaled-up from microfluidic designs. The second reaction involved a Boc deprotection, using aqueous HCl that was rapidly quenched with aqueous NaOH using an inline pH measurement to control NaOH addition. The reaction maintained high yields (90-95%) under closed-loop control despite process disturbances. © 2014 American Chemical Society
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Last time updated on 26/03/2020