PAT application in the expedited development of a three-step, one-stage synthesis of the dipeptide intermediate of HCV protease inhibitor faldaprevir
A concise scalable synthesis of a chiral dipeptide acid, key substructure of the HCV protease inhibitor faldaprevir, has been developed. A green process with an E-factor of 9.2 was achieved utilizing process analytical technology (PAT) to allow effective processing of multiple-steps in a one-stage operation. Mixed anhydride/oxazolone formation, peptide coupling, saponification, and then crystallization of the desired dipeptide acid were completed within 10 h. MultiMaxIR was used to detect the formation and consumption rates of key intermediates and to provide initial safety data which was subsequently confirmed by more comprehensive process safety testing. Further kinetic analysis was performed to determine the range of operability space to ensure conditions for a robust process.
Haddad, Nizar,Qu, Bo,Lee, Heewon,Lorenz, Jon,Varsolona, Rich,Kapadia, Suresh,Sarvestani, Max,Feng, XuWu,Busacca, Carl A.,Hebrault, Dominique,Rea, Simon,Schellekens, Leen,Senanayake, Chris H.
p. 132 - 138
(2015/03/03)
CRYSTALLINE FORMS OF A 2-THIAZOLYL- 4-QUINOLINYL-OXY DERIVATIVE, A POTENT HCV INHIBITOR
This invention relates to novel crystalline forms of the following Compound (1), and the sodium salt thereof, and methods for the preparation thereof, pharmaceutical compositions thereof, and their use in the treatment of Hepatitis C Viral (HCV) infection.
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Page/Page column 24-25
(2010/04/25)
ANTIVIRAL COMPOUNDS
The invention is related to phosphorus substituted anti-viral inhibitory compounds, compositions containing such compounds, and therapeutic methods that include the administration of such compounds, as well as to processes and intermediates useful for preparing such compounds.
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Page/Page column 319-320
(2008/06/13)
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