Flow-oriented synthetic design in the continuous preparation of the aryl piperazine drug flibanserin

Bana, Péter; Szigetvári, Áron; Kóti, János; Éles, János; Greiner, István

doi:10.1039/c8re00266e

Cited by 23 publications

(19 citation statements)

References 62 publications

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“…Reductive aminations also proved their utility in flow chemistry [ 39 ], especially when catalytic hydrogenation is used, which is well-suited to continuous transformations, since it is typically free from side-products, and the removal of excess hydrogen is fairly simple [ 40 , 41 ]. The application of reductive amination in continuous-flow hydrogenation equipment for API production has been reported in the literature [ 22 , 42 ]. However, to the best of our knowledge, these transformations have not been used directly after each other in a consecutive continuous-flow reaction sequence before.…”

Section: Resultsmentioning

confidence: 99%

“…Besides the well-known strategies to solve these limitations [ 20 ], the flow-oriented design of the synthetic route might be needed [ 21 ]. Several successful approaches have been recently described within the field of central nervous system (CNS) drugs, including the integrated continuous-flow syntheses of flibanserin [ 22 ], ketamine [ 23 ], paroxetine [ 24 ], tramadol [ 25 ], or baclofen [ 26 ].…”

Section: Introductionmentioning

confidence: 99%

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C-N Bond Formation by Consecutive Continuous-Flow Reductions towards A Medicinally Relevant Piperazine Derivative

et al. 2021

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A new, continuous-flow consecutive reduction method was developed for the C-N bond formation in the synthesis of the key intermediate of the antipsychotic drug cariprazine. The two-step procedure consists of a DIBAL-H mediated selective ester reduction conducted in a novel, miniature alternating diameter reactor, followed by reductive amination using catalytic hydrogenation on 5% Pt/C. The connection of the optimized modules was accomplished using an at-line extraction to prevent precipitation of the aluminum salt byproducts.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

C-N Bond Formation by Consecutive Continuous-Flow Reductions towards A Medicinally Relevant Piperazine Derivative

et al. 2021

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“…In addition, many other diverse reduction processes have been effected by the H-Cube ® system. It has been utilised for the reduction of amides [239], nitro compounds [240][241][242], nitriles [243][244][245], azides [246,247], diazo compounds [248], and for carrying out reductive aminations [249][250][251] on a laboratory scale, while the H-Cube ® midi, has been designed specifically to be used in larger scale processes [252][253][254]. Recently, the H-Cube ® apparatus has also found use in the evaluation for biomass-derived chemicals recovery, such as Ru-catalysed hydrogenation of methyl levulinate (262) from lignocellulosic biomass to γ-valerolactone (263) [255], and scrap waste recovery, such as the scrap ceramic-cores of automotive catalytic converters (CATs) employed in the chemoselective hydrogenation of cinnamaldehyde to hydrocinnamyl alcohol [256,257].…”

Section: Hydrogenationmentioning

confidence: 99%

“…The column was prepared by attaching microencapsulated gold onto amine functionalities within a modified polysiloxane capillary performed at elevated temperatures. The optimisation of the oxidation process was carried out on 1-phenylethanol (250) and the established conditions were then applied to 9 additional substrates. Good yields were obtained in all cases except for the oxidation of benzyl alcohol which required a column coated with a bimetallic Pd/Au matrix.…”

Section: Oxidation and Related Transformationsmentioning

confidence: 99%

A comprehensive review of flow chemistry techniques tailored to the flavours and fragrances industries

Gambacorta¹,

Sharley²,

Baxendale³

2021

Beilstein J. Org. Chem.

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Due to their intrinsic physical properties, which includes being able to perform as volatile liquids at room and biological temperatures, fragrance ingredients/intermediates make ideal candidates for continuous-flow manufacturing. This review highlights the potential crossover between a multibillion dollar industry and the flourishing sub-field of flow chemistry evolving within the discipline of organic synthesis. This is illustrated through selected examples of industrially important transformations specific to the fragrances and flavours industry and by highlighting the advantages of conducting these transformations by using a flow approach. This review is designed to be a compendium of techniques and apparatus already published in the chemical and engineering literature which would constitute a known solution or inspiration for commonly encountered procedures in the manufacture of fragrance and flavour chemicals.

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“…Traditional synthetic approaches include the cyclocarbonylation of o -phenylenediamine ( 2 ), transformation of benzimidazolium salts, synthesis from arylureas, Curtius reaction of anthranilic acids or phthalic anhydrides, decarbonylative ring contraction of benzodiazepinones or quinoxalinediones, decarbonylative cycloaddition of isocyanates to isatins, and assembly of 2-iodoarylcarbodiimides with acrylates, one-pot reaction of hydroxylamines, aldehydes, and trimethylsilyl cyanide [1,8,18,19]. It is worth noting that a four-step continuous flow synthesis of flibanserin that involved a 1,8-diazabicyclo [5.4.0]undec-7-ene (DBU)-promoted thermal cyclisation of an N -Boc-substituted o -phenylendiamine derivative as the key step to prepare the benzimidazolone ring has been recently reported [20]. Although a number of synthetic alternatives is currently available, the cyclocarbonylation of o -phenylenediamine ( 2 ) with phosgene, triphosgene, carbon dioxide, carbon monoxide, dimethyl carbonate, urea, and 1,1′-carbonyldiimidazole (CDI) still remains the most widely used approach because of its broad substrate scope and low cost.…”

Section: Introductionmentioning

confidence: 99%

Optimisation by Design of Experiment of Benzimidazol-2-One Synthesis under Flow Conditions

et al. 2019

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A novel flow-based approach for the preparation of benzimidazol-2-one (1) scaffold by the 1,1′-carbonyldiimidazole (CDI)-promoted cyclocarbonylation of o-phenylenediamine (2) is reported. Starting from a preliminary batch screening, the model reaction was successfully translated under flow conditions and optimised by means of design of experiment (DoE). The method allowed the efficient preparation of this privileged scaffold and to set up a general protocol for the multigram-scale preparation in high yield, purity, and productivity, and was successfully applied for the multigram flow synthesis of N-(2-chlorobenzyl)-5-cyano-benzimidazol-2-one, which is a key synthon for hit-to-lead explorations in our anti-inflammatory drug discovery program.

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Flow-oriented synthetic design in the continuous preparation of the aryl piperazine drug flibanserin

Abstract: The first integrated continuous-flow synthesis of the drug substance flibanserin was developed, using an uninterrupted four-step sequence, via an unprecedented route.

Cited by 23 publications

References 62 publications

C-N Bond Formation by Consecutive Continuous-Flow Reductions towards A Medicinally Relevant Piperazine Derivative

C-N Bond Formation by Consecutive Continuous-Flow Reductions towards A Medicinally Relevant Piperazine Derivative

A comprehensive review of flow chemistry techniques tailored to the flavours and fragrances industries

Optimisation by Design of Experiment of Benzimidazol-2-One Synthesis under Flow Conditions

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