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Coformer Replacement as an Indicator for Thermodynamic Instability of Cocrystals: Competitive Transformation of Caffeine:Dicarboxylic AcidAlsirawan, M.H.D. Bashir, Vangala, Venu R., Kendrick, John, Leusen, Frank J.J., Paradkar, Anant R 11 May 2016 (has links)
Yes / The thermodynamic stability of caffeine (CA) cocrystals with dicarboxylic acids (DAs) as coformers was investigated in the presence of a range of structurally related dicarboxylic acids (SRDs). Two experimental conditions (slurry and dry-grinding) were studied for mixing the cocrystal and the SRD additive. The additives oxalic, malonic and glutaric acid led to the replacement of the acid coformer for certain cocrystals. Interestingly, a change in stoichiometry was observed for the CA:maleic acid system. A stability order among the cocrystals was established depending on their tendency to replace the coformer. To understand the factors controlling the relative stabilities, lattice energies were calculated using dispersion corrected Density Functional Theory (DFT). Gibbs free energy changes were calculated from experimental solubilities. The observed stability order corroborated well with lattice energy and Gibbs free energy computations.
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In situ monitoring of competitive coformer exchange reaction by 1H MAS Solid-state NMRHareendran, C., Alsirawan, B., Paradkar, Anant R, Ajithku, T.G.am 23 February 2024 (has links)
Yes / In a competitive coformer exchange reaction, a recent topic of interest in pharmaceutical research, the coformer in a pharmaceutical cocrystal is exchanged with another coformer which is expected to form a cocrystal that is more stable. There will be a competition between coformers to form the most stable product through formation of hydrogen bonds. Thus, to monitor each and every step of such reactions, employing a very sensitive technique is crucial. 1H nuclear magnetic resonance (NMR) is a very powerful technique that is very sensitive to the hydrogen bond interactions. In this study, an in situ monitoring of a coformer exchange reaction is carried out by 1H magic angle spinning (MAS) solid-state NMR (SSNMR) at a spinning frequency of 60 KHz. The changes in caffeine maleic acid cocrystals on addition of glutaric acid, and caffeine glutaric cocrystal on addition of maleic acid were monitored. In all the reactions, it has been observed that caffeine glutaric acid Form I is formed. When glutaric acid was added to 2:1 caffeine maleic acid, the formation of metastable 1:1 caffeine glutaric acid Form I was observed, at the start of the experiment, indicating that the centrifugal pressure is enough for the formation. The difference in the end product of the reactions with similar reaction pathway of 1:1 and 2:1 reactant stoichiometry indicate that a complete replacement of maleic acid has only occurred only in the 1:1 stoichiometry of the reactants. The polymorphic transition of caffeine glutaric acid Form II to Form I at higher temperature was crucial reason which triggers the exchange of glutaric acid with maleic acid in the reaction of caffeine glutaric acid and maleic acid. Based on these results, new reaction pathways in competitive coformer exchange reactions could be distinguished, and the remarkable role of stoichiometry, polymorphism, temperature and centrifugal pressure could be established. / C.H. acknowledges Department of Science and Technology, India (DST), for the grant of Inspire Fellowship. T.G.A. acknowledges Council of Scientific and Industrial Research, India (CSIR) for research grants under the 12th 5 year plan project (Grant No. CSC0405). / The full-text of this article will be released for public view at the end of the publisher embargo on 19 Feb 2025.
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Synthesis of new cocrystal solid form of fluconazole-fumaric acidOwoyemi, Bolaji Charles Dayo 29 September 2015 (has links)
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Previous issue date: 2015-09-29 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Pharmaceutical cocrystals are multicomponent crystalline solids comprised of
an active pharmaceutical ingredient (API) and one or more co-formers
interacting through hydrogen bonding or other weak interactions like the π-stack
and van der Waals interactions. Fluconazole (FLZ) is a triazole antifungal drug
used in the treatment and prevention of superficial and systemic fungal
infections. It is also used to prevent and treat meningitis. Cocrystallization is an
alternative approach for enhancement of drug. It can be performed using neat
grinding, solvent assisted grinding, solvent evaporation, cooling evaporation
and slurry cocrystallization. In this work, a new cocrystal Fluconazol-Fumaric
acid monohydrate was synthesized via 1:1 stoichiometric amount of FLZ and
FUM at different conditions. The characterization of the synthesized cocrystals
was achieved using Raman spectroscopy, differential scanning calorimetry,
powder X-ray diffraction and single crystal X-ray diffraction. The results
obtained for the characterization of the samples showed some obvious
differences among the spectra, diffractograms and thermograms. The single
crystal X-ray diffraction analysis of the new structure shows a cocrystal where
the fluconazole molecules are attached to the fumaric acid and water molecules
respectively through hydrogen bonds, gave unique cell dimensions for an
assumed structure C17H18F2N6O6 with a space group of P21/n, a = 17.053(3) Å,
b = 5.5995(10), c=21.154(3), α = 90°, β=105.418(4)°, γ= 90°, V = 1947.3(6) Å3.
This work is the first to report a monohydrate cocrystal structure of fluconazole
and fumaric acid. / Cocristais farmacêuticos são sólidos cristalinos multi-componentes compostos
de um ingrediente ativo farmacêutico (API) e um ou mais co-formadores
interagindo através de ligações de hidrogênio ou outras interações fracas como
as π-stack e Van der Waals. Fluconazol (FLZ), é um fármaco anti-fúngico
triazol utilizado no tratamento e prevenção de infecções fúngicas superficiais e
sistémicas. É também utilizado para prevenir e tratar a meningite.
Cocristalização é uma abordagem alternativa para melhorar as propriedades de
fármacos. Pode ser realizada através de moagem a seco, moagem assistida
por solvente, evaporação de solvente e cristalização em suspensão. Neste
trabalho, um novo co-cristal Fluconazol-Ácido Fumarico monohidrato foi
sintetizado utilizando uma estequimetria 1:1 em diferentes condições. A
caracterização dos co-cristais sintetizados foi realizada utilizando
espectroscopia Raman, calorimetria exploratória diferencial, difração de raios-X
em pó é por monocristal. Os resultados obtidos para a caracterização das
amostras mostrou algumas diferenças obvias entre os espectros, difratogramas
e termogramas. A difração de raios-X de monocristal mostrou uma nova
estrutura onde as moléculas de fluconazol estão ligadas ao ácido fumárico e a
uma molécula de água através de ligações de hidrogênio, originando uma
estrutura única C17H18F2N6O6 de grupo espacial P21/n e dimensões da célula
unitária a = 17.053(3) Å, b = 5.5995(10), c=21.154(3), α = 90°, β=105.418(4)°,
γ= 90°, V = 1947.3(6) Å3. Este trabalho é o primeiro a relatar uma estrutura de
co-cristal mono-hidrato de fluconazol e acido fumárico.
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