Mechanochemical Preparation of Active Pharmaceutical Ingredients Monitored by <i>In Situ</i> Raman Spectroscopy

Sović, Irena; Lukin, Stipe; Meštrović, Ernest; Halász, Ivan; Porcheddu, Andrea; Delogu, Francesco; Ricci, Pier Carlo; Caron, Fabien; Perilli, Thomas; Dogan, Anita; Colacino, Evelina

doi:10.1021/acsomega.0c03756

Cited by 44 publications

(136 citation statements)

References 69 publications

(100 reference statements)

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“…This long sought-after goal in chemistry has been partially addressed by mechanochemistry in the growing number of publications focused on the synthesis of active pharmaceutical ingredients (APIs) and pharmaceutical solid forms such as polymorphs, cocrystals, salts and salt cocrystals; an area often named as medicinal mechanochemistry. [62][63][64] Most of these studies have been focused on developing alternative synthetic routes to marketed APIs, for which the benefit-risk balance was already known, [9b, 65,66] and therefore the mechanochemical procedures were preordained to provide products previously regarded as safe. However, in some cases, newly mechanosynthesized molecules and pharmaceutical solid forms have been studied to determine their biological activity, [67][68][69][70][71][72] toxicity, [73,74] and stability.…”

Section: Gc 4: Designing Safer Chemicalsmentioning

confidence: 99%

“…Most of these studies have been focused on developing alternative synthetic routes to marketed APIs, for which the benefit‐risk balance was already known, [9b,65,66] and therefore the mechanochemical procedures were preordained to provide products previously regarded as safe. However, in some cases, newly mechanosynthesized molecules and pharmaceutical solid forms have been studied to determine their biological activity, [67–72] toxicity, [73,74] and stability [75–77] .…”

Section: Mechanochemistry and The Twelve Principles Of Green Chemistrymentioning

confidence: 99%

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Sustainability Assessment of Mechanochemistry by Using the Twelve Principles of Green Chemistry

2021

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In recent years, mechanochemistry has been growing into a widely accepted alternative for chemical synthesis. In addition to their efficiency and practicality, mechanochemical reactions are also recognized for their sustainability. The association between mechanochemistry and Green Chemistry often originates from the solvent-free nature of most mechanochemical protocols, which can reduce waste production. However, mechanochemistry satisfies more than one of the Principles of Green Chemistry. In this Review we will present a series of examples that will clearly illustrate how mechanochemistry can significantly contribute to the fulfillment of Green Chemistry in a more holistic manner.

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Section: Gc 4: Designing Safer Chemicalsmentioning

confidence: 99%

Section: Mechanochemistry and The Twelve Principles Of Green Chemistrymentioning

confidence: 99%

Sustainability Assessment of Mechanochemistry by Using the Twelve Principles of Green Chemistry

2021

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“…Complementary to the PXRD monitoring which is sensitive to bulk crystalline species and limited to the determination of the amount of the amorphous phase, Raman spectroscopy does not require a sample to be crystalline. Very recently, a mechanochemical preparation of silver sulfadiazine monitored by in situ Raman spectroscopy was reported by Colacino et.al (Scheme 8b) [66] . While addition of aqueous ammonia (LAGs) was necessary for preparation of metallodrug silver sulfadiazine, too much aqueous ammonia may stabilize the silver centre and slow down the transformation.…”

Section: Lag For Pharmaceutical Molecule Synthesismentioning

confidence: 99%

“…Very recently, a mechanochemical preparation of silver sulfadiazine monitored by in situ Raman spectroscopy was reported by Colacino et.al (Scheme 8b). [66] While addition of aqueous ammonia (LAGs) was necessary for preparation of metallodrug silver sulfadiazine, too much aqueous ammonia may stabilize the silver centre and slow down the transformation.…”

Section: Metallo-drugsmentioning

confidence: 99%

Liquid‐Assisted Grinding Mechanochemistry in the Synthesis of Pharmaceuticals

2021

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Mechanochemical reactions by milling, grinding or other types of mechanical action have emerged as a salient green approach because of its wide applications towards academic and industrial chemical communities in sustainable solvent‐free/solvent‐less processes. Liquid‐assisted grinding (LAG) as an extension of traditional solvent‐free mechanochemical techniques by which a small amount of liquid is used as an additive to enhance and/or control reactivity, has been fruitfully applied in the screening of inclusion compounds, cocrystals, salts, solvates, and polymorphs. However, utilization of this important technique in the synthesis of pharmaceutically and biologically relevant targets was not adequately investigated. This review article summarizes an overview of the latest development of LAG mechanochemical approaches in the synthesis of active pharmaceutical ingredients (API) and drug‐like fragments, highlights its superiority versus conventional syntheses.

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“…With the aim of directly probing the binding modes of the terephthalate ligands by using 17 O ssNMR, 17 O-labelled terephthalic acid was used as a starting material to prepare Zn-BDC phases enriched on the carboxylate groups. Concerning the bridging hydroxyls, a direct enrichment during the mechanochemical synthesis of the Zn-BDC phases was envisaged by using 17 O-enriched water as a starting reactant (instead of normal water).…”

Section: Figure S5 and S6)mentioning

confidence: 99%

From operando Raman mechanochemistry to "NMR crystallography": understanding the structures and interconversion of Zn-terephthalate networks using selective 17O-labelling.

Leroy

Métro

Hung

et al. 2021

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The description of the formation, structure and reactivity of coordination networks and MOFs remains a real challenge in a number of cases. This is notably true for compounds composed of Zn2+ ions and terephthalate ligands (benzene 1,4-dicarboxylate, BDC), because of the difficulties in isolating them as pure phases and/or because of the presence of structural defects. Here, using mechanochemistry in combination with operando Raman spectroscopy, the observation of the formation of various zinc-terephthalate compounds was rendered possible, allowing the distinction and isolation of three intermediates during the ball-milling synthesis of Zn3(OH)4(BDC). An “NMR crystallography” approach was then used, combining solid-state NMR (1H, 13C and 17O) and DFT calculations, in order to refine the poorly described crystallographic structures of these phases. Particularly noteworthy are the high-resolution 17O NMR analyses, which were made possible in a highly efficient and cost-effective way, thanks to the selective 17O-enrichment of either hydroxyl or terephthalate groups by ball-milling. This allowed the presence of defect sites to be identified for the first time in one of the phases, and the nature of the H-bonding network of the hydroxyls to be established in another. Lastly, the possibility of using deuterated precursors (e.g. D2O and d4-BDC) during ball-milling is also introduced, as a means for observing specific transformations during operando Raman spectroscopy studies, that would not have been possible with hydrogenated equivalents. Overall, the synthetic and spectroscopic approaches developed herein are expected to push forward the understanding of the structure and reactivity of other complex coordination networks and MOFs.

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Mechanochemical Preparation of Active Pharmaceutical Ingredients Monitored by In Situ Raman Spectroscopy

Cited by 44 publications

References 69 publications

Sustainability Assessment of Mechanochemistry by Using the Twelve Principles of Green Chemistry

Sustainability Assessment of Mechanochemistry by Using the Twelve Principles of Green Chemistry

Liquid‐Assisted Grinding Mechanochemistry in the Synthesis of Pharmaceuticals

From operando Raman mechanochemistry to "NMR crystallography": understanding the structures and interconversion of Zn-terephthalate networks using selective 17O-labelling.

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