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Tags: flow chemistry

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  1. Continuous Flow Intensification for the Synthesis of High-Purity Warfarin

    10 May 2024 | Contributor(s):: Silva-Brenes, Diana V., Reyes-Vargas, Stephanie K., Duconge, Jorge, Vlaar, Cornelis, Stelzer, Torsten, Monbaliu, Jean-Christophe M.

    While racemic warfarin was initially commercialized as a rodenticide, it has become the most prescribed anticoagulant drug for prevention of blood clots and is part of the World Health Organization’s list of essential medicines. The synthesis of warfarin appears straightforward, consisting of a...

  2. May 02 2024

    6TH FLOW CHEMISTRY AND CONTINUOUS PROCESSING CONFERENCE

    "Join us in Boston for our annual Flow Chemistry and Continuous Processing Conference, where innovation meets efficiency in the world of chemical and pharmaceutical manufacturing. This...

    https://cmkc.usp.org/events/details/39

  3. Rapid production of the anaesthetic mepivacaine through continuous, portable technology

    24 Apr 2024 | Contributor(s):: Díaz-Kruik, Pablo, Paradisi, Francesca

    Local anaesthetics such as mepivacaine are key molecules in the medical sector, so ensuring their supply chain is crucial for every health care system. Rapid production of mepivacaine from readily available commercial reagents and (non-dry) solvents under safe conditions using portable,...

  4. Multi-step Flow Synthesis of the Anthelmintic Drug Praziquantel

    24 Apr 2024 | Contributor(s):: Phull, Manjinder Singh, Bohara, Chander Singh, Gundla, Rambabu, Mainkar, Prathama S., Jadav, Surender Singh

    Praziquantel (PZQ; Brand name: Biltricide) is categorized as an anthelminthic drug, and it is used for the treatment of Schistosomiasis and other parasitic infections. The World Health Organization (WHO) has classified it as one of the essential and emergency medicines needed across the globe....

  5. Continuous Flow-Facilitated CB2 Agonist Synthesis, Part 2: Cyclization, Chlorination, and Amination

    24 Apr 2024 | Contributor(s):: Prieschl, Michael, Sagmeister, Peter, Moessner, Christian, Sedelmeier, Joerg, Williams, Jason D., Kappe, C. Oliver

    A new route to the cannabinoid receptor type 2 agonist, RG7774, has been developed circumventing an alkylation with poor regioselectivity as the final step. In the new synthetic route, this side chain is incorporated from the beginning. In this article, the development of the final four...

  6. A Continuous Process for Manufacturing Apremilast. Part I: Process Development and Intensification by Utilizing Flow Chemistry Principles

    24 Apr 2024 | Contributor(s):: Hsieh, Hsiao-Wu, Griffin, Daniel J., Ananthoji, Padmini, Avci, Nadide Hazal, Brown, Derek B., Ericson, Ari, Fostinis, James D., Irfan, Muhammad, Langille, Neil, Lovette, Michael A., Murray, James I., Spada, Simone, Thiel, Oliver R., Aiello, Frankie, Daou, Joseph, Goudas-Salomon, Nicole, Pan, Ende, Sarkar, Nandini, Wimalasinghe, Rasangi, Wu, Zufan Steven, Zeng, Alicia, Beaver, Matthew G., Cohen, Carolyn M.

    Herein, we report the development of an integrated continuous manufacturing (CM) process for the penultimate step in the synthesis of apremilast, the drug substance (DS) of the commercial product Otezla. This development effort was motivated by the desire to create an alternative manufacturing...

  7. Sarah George

    https://cmkc.usp.org/members/1118

  8. Rohit Lokhande

    I am a seasoned professional in the pharmaceutical industry with over 13 years of experience, specializing in the chemical synthesis of APIs and intermediates. My journey with the Chemistry world...

    https://cmkc.usp.org/members/1109

  9. The Evolving State of Continuous Processing in Pharmaceutical API Manufacturing: A Survey of Pharmaceutical Companies and Contract Manufacturing Organizations

    09 Jun 2023 | Contributor(s):: McWilliams, JC, Allian, ADOpalka, SM, May, SA, Journet, M, Braden, TM

    This manuscript provides the results of an in-depth survey assessment of the capabilities, experience, and perspectives on continuous processing in the pharmaceutical sector, with respondents from both pharmaceutical companies and Contract Manufacturing Organizations (CMOs). The survey includes...

  10. Small-Volume Continuous Manufacturing of Merestinib. Part 1. Process Development and Demonstration

    09 Jun 2023 | Contributor(s):: Cole, KP, Reizman, BJHess, M, Groh, JM, Laurila, ME, Cope, RF, Campbell, BM, Forst, MB, Burt, JL, Maloney, TD, Johnson, MD, Mitchell, D, Polster, CS, Mitra, AW, Boukerche, M, Conder, EW, Braden, TM, Miller, RD, Heller, MR, Phillips, JL, Howell, JR

    Development of a small volume continuous process that used a combination of batch and flow unit operations to manufacture the small molecule oncolytic candidate merestinib is described. Continuous processing was enabled following the identification and development of suitable chemical...

  11. Small-Volume Continuous Manufacturing of Merestinib. Part 2.Technology Transfer and cGMP Manufacturing

    09 Jun 2023 | Contributor(s):: Reizman, Brandon J., Hess, Molly, Burt, Justin L., Maloney, Todd D., Johnson, Martin D., Laurila, Michael E., Cope, Richard F., Luciani, Carla V., Buser, Jonas Y., Campbell, Bradley M., Forst, Mindy B., Mitchell, David, Braden, Timothy M., Lippelt, Christopher K., Boukerche, Moussa, Starkey, Derek R., Miller, Richard D., Chen, Jing, Sun, Baoquan, Kwok, Martin, Zhang, Xin, Tadayon, Sam, Huang, Ping

    Technology transfer of a small volume continuous (SVC) process and Current Good Manufacturing Practices (cGMP) manufacturing of merestinib are described. A hybrid batch-SVC campaign was completed at a contract manufacturing organization under cGMP. The decision process by which unit operations...

  12. Separation and Purification in the Continuous Synthesis of Fine Chemicals and Pharmaceuticals

    09 Jun 2023 | Contributor(s):: O'Mahony, M, Ferguson, SStelzer, T, Myerson, A

    The use to both chemists and chemical engineers working in flow synthesis, this chapter provides a summary of separation and purification operations that can be applied to flow synthesis reaction streams. Both single and biphasic separations for the liquid phase are detailed. Separation and...

  13. Sampling and Analysis in Flow: The Keys to Smarter, More Controllable, and sustainable Fine-Chemical Manufacturing

    09 Jun 2023 | Contributor(s):: Morin, Mathieu, Zhang, Wenyao, Mallik, Debasis, Organ, Michael G

    Process analytical technology (PAT) is a system designed to help chemists better understand and control manufacturing processes. PAT systems operate through the combination of analytical devices, reactor control elements, and mathematical models to ensure the quality of the final product through...

  14. Scaling continuous API synthesis from milligram to kilogram: extending the enabling benefits of micro to the plant

    09 Jun 2023 | Contributor(s):: Berton, M, de, Souza, JMAbdiaj, I, McQuade, DT, Snead, DR

    The signature benefits of continuous flow are largely a result of a reactor's micro-sized features. However, as the technology gains industrial traction in the synthesis of active pharmaceutical ingredients (API), the reactors must be scaled to larger size to meet production demands. Often, the...

  15. Reactor design and selection for effective continuous manufacturing of pharmaceuticals

    09 Jun 2023 | Contributor(s):: Hu, Chuntian

    Pharmaceutical production remains one of the last industries that predominantly uses batch processes, which are inefficient and can cause drug shortages due to the long lead times or quality defects. Consequently, pharmaceutical companies are transitioning away from outdated batch lines, in large...

  16. PAT Implementation on a Mobile Continuous Pharmaceutical Manufacturing System: Real-Time Process Monitoring with In-Line FTIR and Raman Spectroscopy

    09 Jun 2023 | Contributor(s):: Miyai, Yuma, Formosa, Anna, Armstrong, Cameron, Marquardt, Brian, Rogers, Luke, Roper, Thomas

    The strategies and experimental methods for implementation of process analytical technology (PAT) on the mobile pharmaceutical manufacturing system, Pharmacy on Demand (PoD), are discussed. With multiple processes to be monitored on the PoD end-to-end continuous manufacturing process, PAT and its...

  17. On-Demand Continuous Manufacturing of Ciprofloxacin in Portable Plug-and-Play Factories: Development of a Highly Efficient Synthesis for Ciprofloxacin

    09 Jun 2023 | Contributor(s):: Armstrong, Cameron, Miyai, Yuma, Formosa, Anna, Thomas Dale, Chen, Esther, Hart, Travis, Schultz, Victor, Desai, Bimbisar, Cai, Angela, Almasy, Alexandra, Jensen, Klavs, Roper, Thomas

    The experimental approach taken and challenges overcome in developing a high-purity production (>100 g) scale process for the telescoped synthesis of the antibiotic ciprofloxacin is outlined. The process was first optimized for each step sequentially with regard to purity and yield, with...

  18. Model-based comparison of batch and flow syntheses of an active pharmaceutical ingredient using heterogeneous hydrogenation

    09 Jun 2023 | Contributor(s):: Kim, J, Yonekura, HWatanabe, T, Yoshikawa, S, Nakanishi, H, Badr, S, Sugiyama, H

    This work presents a model-based comparison of the batch and flow syntheses for doripenem, which is an antibiotic active pharmaceutical ingredient. The targeted reaction is heterogeneous hydrogenation, the most widely used method for reduction reaction in drug syntheses. We developed rigorous...

  19. Integrated Flow Processing - Challenges in Continuous Multistep Synthesis

    09 Jun 2023 | Contributor(s):: Pieber, B, Gilmore, K, Seeberger, PH

    The way organic multistep synthesis is performed is changing due to the adoption of flow chemical techniques, which has enabled the development of improved methods to make complex molecules. The modular nature of the technique provides not only access to target molecules via linear flow...

  20. Implementing Continuous Manufacturing for the Final Methylation Step in the AMG 397 Process to Deliver Key Quality Attributes

    09 Jun 2023 | Contributor(s):: Tom, JK, Achmatowicz, MMBeaver, MG, Colyer, J, Ericson, A, Hwang, TL, Jiao, N, Langille, NF, Liu, M, Lovette, MA, Sangodkar, RP, Kumar, SS, Spada, S, Perera, D, Sheeran, J, Campbell, K, Doherty, T, Ford, DD, Fang, YQ, Rossi, E, Santoni, G, Cui, S, Walker, SD

    In this article, we describe the process development efforts to improve the final methylation step in the AMG 397 drug substance process, culminating in the execution of a Good Manufacturing Practice (GMP) continuous manufacturing process. During the development, batch kinetic studies and...

  21. High-yielding continuous-flow synthesis of antimalarial drug hydroxychloroquine

    09 Jun 2023 | Contributor(s):: Yu, E, Mangunuru, HPRTelang, NS, Kong, CJ, Verghese, J, Gilliland, SE, Ahmad, S, Dominey, RN, Gupton, BF

    Numerous synthetic methods for the continuous preparation of fine chemicals and active pharmaceutical ingredients (API's) have been reported in recent years resulting in a dramatic improvement in process efficiencies. Herein we report a highly efficient continuous synthesis of the antimalarial...

  22. Flow Chemistry, Continuous Processing, and Continuous Manufacturing: A Pharmaceutical Perspective

    09 Jun 2023 | Contributor(s):: May, SA

    Flow chemistry has become a vibrant area for Research Article over the past decade. This perspective is intended to capture insights on how these advances have and will continue to impact the development and commercialization of active pharmaceutical ingredients. A series of chemistry examples...

  23. Continuous-Flow Technology—A Tool for the Safe Manufacturing of Active Pharmaceutical Ingredients

    09 Jun 2023 | Contributor(s):: Gutmann, B, Cantillo, D, Kappe, CO

    In the past few years, continuous-flow reactors with channel dimensions in the micro- or millimeter region have found widespread application in organic synthesis. The characteristic properties of these reactors are their exceptionally fast heat and mass transfer. In microstructured devices of...

  24. Continuous Production of Five Active Pharmaceutical Ingredients in Flexible Plug-and-Play Modules: A Demonstration Campaign

    09 Jun 2023 | Contributor(s):: Rogers, L, Briggs, NAchermann, R, Adamo, A, Azad, M, Brancazio, D, Capellades, G, Hammersmith, G, Hart, T, Imbrogno, J, Kelly, LP, Liang, GH, Neurohr, C, Rapp, K, Russell, MG, Salz, C, Thomas, DA, Weimann, L, Jamison, TF, Myerson, AS, Jensen, KF

    Traditional pharmaceutical manufacturing is based on a complex supply chain that is vulnerable to spikes in demand and interruptions. Continuous pharmaceutical production in compact modules is a potential solution that allows for drug manufacturing when and where it is needed with significantly...

  25. Continuous manufacturing of drug substance and small molecules: process and equipment view

    09 Jun 2023 | Contributor(s):: Yazdanpanah, Nima

    The continuous manufacturing of pharmaceutical compounds and fine chemicals is in high interest for the industry due to significant technical, quality, and economical advantages. This manufacturing method has its own challenges. Beside the more efficient, safer, and greener synthesis rout, a new...