Mechanism and Regulation Strategy of Solution-Mediated Polymorphic Transformation: A Case of 5-Nitrofurazone

Li, Xin; Wang, Na; Wang, Chang; Ma, Yingjie; Huang, Xin; Wang, Ting; Hao, Hongxun

doi:10.1021/acs.iecr.0c05660

Cited by 7 publications

(8 citation statements)

References 42 publications

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“…It was observed that both the portion of water and the temperature of the SMPT experiments determined the results collected. A transformation from amorphous to other polymorphs or solvates by SMPT involves two processes, namely the dissolution of amorphous and the nucleation of the new solid-state phases. , Tables and indicate that as the water activity of MeOH/H 2 O and THF/H 2 O solutions increased and the temperature decreased, the solubility of nilotinib decreased consequently (the solubility curves and data could be found in Figures S7, S8 and Tables S14, S15, respectively) and became the rate-limiting step of the process, thus slowing down the transformation. In contrast, the decreased water activity would increase the solubility but inhibit the formation of hydrate form H3.…”

Section: Resultsmentioning

confidence: 99%

New Case of Pharmaceutical Solid-State Forms: Several Novel Solvates/Polymorphs of Nilotinib and Their Phase Transformation Controls

Shi

Chen

Deng

et al. 2022

Crystal Growth & Design

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Nilotinib as a type of anticancer drug was designed for the treatment of chronic myeloid leukemia that is resistant to imatinib. Presently, very few studies of nilotinib polymorphs have been reported because of the sparing solubility of the free base compared with its salt forms. Besides, there are also hardly reports for its solvates. Notably, in this study, eight different nilotinib solid-state forms, including six new solvates (form H1, form H2a, form H2b, form H2c, form H3, and form H4) and two desolvated polymorphs (form C and form D) were initially obtained. The crystallography data of form H2a, form H2b, and form H2c were obtained using single-crystal X-ray diffraction. We found that form H2a, form H2b, and form H2c were isolated site solvates. Besides, form H1 and form H3 are suspected to be isolated site solvates based on their thermal characterizations. Furthermore, we performed antisolvent experiments and used the diffusion theory to explain the mechanism successfully. In addition, we performed a series of solventmediated phase transformation experiments of the solid-state forms specifically and studied the transformation between nilotinib solvates. To the best of our knowledge, this is the first study to report the eight new crystal forms of nilotinib. Therefore, the present study fulfills the research blank in the crystallography field of nilotinib.

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Section: Resultsmentioning

confidence: 99%

New Case of Pharmaceutical Solid-State Forms: Several Novel Solvates/Polymorphs of Nilotinib and Their Phase Transformation Controls

Shi

Chen

Deng

et al. 2022

Crystal Growth & Design

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“…In the absence of additives, only the β form was obtained in aqueous solution, while only the α form appeared under the action of the additives. Li et al 103 observed that adding a small amount of additive 5-nitrofurfural inhibited the generation of the α form of 5-nitrofurazone in acetonitrile solution, thus obtaining the γ form. Kwon et al 104 also found that the crystal form of polyene PyT1 changed in the presence of additive PyM1.…”

Section: Mechanisms Of Polymorphismmentioning

confidence: 99%

“…Therefore, the effects of TMAs on the stability of polymorphs can be evaluated by the lattice energy with incorporation of additives. 103,115 5.2. Investigation the Action Mechanism of TMAs.…”

Section: Prediction Of Conformationsmentioning

confidence: 99%

Role of Tailor-Made Additives in Crystallization from Solution: A Review

Zhu

Gao

et al. 2023

Ind. Eng. Chem. Res.

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Additives which share a similar molecular structure with the crystallizing parent molecule are called tailor-made additives (TMAs). The inclusion of well-chosen TMAs often has a significant impact on crystallization behaviors. However, how TMAs affect the solution crystallization has seldom been systematically summarized in recent years. Herein this paper reviews the role of TMAs in solution crystallization. First, the effects and action mechanisms of TMAs on crystal nucleation and growth are discussed, respectively. Next, the applications of TMAs in the regulation of crystal properties including the polymorphism, crystal habit, crystal size, and chirality are introduced. Then the recent progress of molecular simulation in predicting the role of TMAs is discussed. Finally, we analyze the existing problems in this field and give an outlook on the future development. This paper is helpful and useful to readers interested in the use of TMAs to control crystallization and design crystals with desired properties.

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“…7−11 The occurrence of concomitant crystallization can significantly affect the consistency of the drug, leading to the reduction of bioavailability, dissolution performance, subsequent processing performance, and so on. 12,13 Therefore, the study of solution chemistry, molecular assembly, and its intrinsic connection with concomitant polymorphism are crucial in improving the quality of polymorphic outcomes.…”

Section: Introductionmentioning

confidence: 99%

“…Polymorphism is a common phenomenon in crystallization, especially in pharmaceuticals. − The significant differences in performance between different polymorphs were brought to light by a number of drug withdrawals in the 20th century, and this is why the polymorphism in chemicals, especially in organic small molecule drugs, has gradually gained widespread recognition and attention in the last 30 years. − Concomitant polymorphism is a special type, which refers to the phenomenon of simultaneous nucleation and growth of two or more polymorphs in the same environment under the combined influence of thermodynamic and kinetic factors. − The occurrence of concomitant crystallization can significantly affect the consistency of the drug, leading to the reduction of bioavailability, dissolution performance, subsequent processing performance, and so on. , Therefore, the study of solution chemistry, molecular assembly, and its intrinsic connection with concomitant polymorphism are crucial in improving the quality of polymorphic outcomes.…”

Section: Introductionmentioning

confidence: 99%

Synergistic Control of Nonlinear Growth Kinetics and Nucleation Kinetics in the Concomitant Crystallization of Aripiprazole as Reflected by the Ostwald Ratio

Gao

Cen

Lin

et al. 2022

Ind. Eng. Chem. Res.

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Some polycrystalline drugs are subject to concomitant polymorphism during the manufacturing process, resulting in large batch-to-batch variation and reduced drug bioavailability. Most existing studies on concomitant polymorphism have focused only on differences in nucleation kinetics and lacked analysis of the role of growth processes in polymorph control. Herein, we conducted a systematic study on the concomitant crystallization of aripiprazole Form III and Form V under the influence of thermodynamic and kinetic factors employing thermal analysis with the Ostwald ratio as a medium. It shows that the nucleation and growth rates of both forms cross over with increasing supersaturation. The comparison between the polymorph composition computed by the Ostwald ratio and the experiments highlights the considerable influence of crystal growth on the formation of concomitant polymorphism. The effect of crystal growth at lower supersaturation is indeed minimal due to the large difference in nucleation rates, but as the supersaturation increases, the difference in nucleation rates becomes smaller and the growth rate ratio gradually becomes a key factor. The images plotted with initial concentration and crystallization temperature further demonstrate that the introduction of actual nonlinear growth kinetics can lead to improved computation accuracy of the Ostwald ratio. This work provides evidence for the application of the Ostwald ratio in the design of batch crystallization for a concomitant system.

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Mechanism and Regulation Strategy of Solution-Mediated Polymorphic Transformation: A Case of 5-Nitrofurazone

Cited by 7 publications

References 42 publications

New Case of Pharmaceutical Solid-State Forms: Several Novel Solvates/Polymorphs of Nilotinib and Their Phase Transformation Controls

New Case of Pharmaceutical Solid-State Forms: Several Novel Solvates/Polymorphs of Nilotinib and Their Phase Transformation Controls

Role of Tailor-Made Additives in Crystallization from Solution: A Review

Synergistic Control of Nonlinear Growth Kinetics and Nucleation Kinetics in the Concomitant Crystallization of Aripiprazole as Reflected by the Ostwald Ratio

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