Chromatographic separation and spectroscopic characterization of the e/z isomers of acrivastine

Davadra, Prakash M.; Dabhi, Batuk; Singh, Manoj K.; Jain, Mukul; Joshi, H. S.; Bapodra, Atul H.

doi:10.1002/chir.21022

Cited by 4 publications

(2 citation statements)

References 11 publications

(8 reference statements)

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“…Compound 4 is a reported impurity of acrivastine, and the 1 H and 13 C NMR data (Supporting Information S1 and S2, Tables S1 and S2) agree well with the reported acrivastine Z ‐isomer [18]. To confirm the configuration of C11═C19, the planar structure of 4 is constructed by detailed analyses of 1 H NMR, 13 C NMR, 1 H 1 H COSY, HSQC, and NOESY (Supporting Information S15–S19).…”

Section: Resultssupporting

confidence: 60%

“…Previous studies mainly focused on the quantitative determination of acrivastine in biosamples using spectroscopy [11], GC-MS [12], SPE-HPLC [13], HPLC-MS [14], and electrochemical methods [15]; the quantitative determination of acrivastine formulation using HPLC with monolithic stationary phase [16]; simultaneous analysis of acrivastine and pseudoephedrine hydrochloride by HPLC [16,17]. Recently, the Z-isomer of acrivastine has been isolated and structurally elucidated using HPLC [18]. Ajay Kumar et al [19] identified a process-related impurity, Imp-IV, and two oxidative degradation impurities, Imp-V and VI, using HPLC-MS, and the structures were confirmed by synthesis.…”

Section: Introductionmentioning

confidence: 99%

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Isolation, structure elucidation, and high‐performance liquid chromatography quantification of photolytic degradation impurities in acrivastine

Zeng

et al. 2022

J of Separation Science

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Acrivastine is a second-generation H1-receptor antagonist, and its structure is sensitive to ultraviolet. Four unknown and one reported degradation products can be detected in the ultraviolet radiation solutions of acrivastine. To improve the quality control of acrivastine, the photodegradation impurities were isolated and structurally elucidated. There are four new impurities (1-3 and 5), and one reported compound (4). The isolation strategy was designed as preparative high-performance liquid chromatography using a reversed phase column with volatile acid addition in the mobile phase, combined with preparative thinlayer chromatography using silica gel with alkaline addition in the mobile phase. Using the developed methods, five impurities (1-5) were efficiently purified after two or three chromatography runs with purities > 95%. The structures of compounds 1-5 are elucidated based on spectroscopy analysis of MS, and nuclear magnetic resonance spectroscopy. Using the impurity standard, the highperformance liquid chromatography method was developed and validated. The method was proved to be sensitive, accurate (Recovery% 96.1-107.7%), linear (0.15-0.75 μg/mL, R 2 > 0.996), robust, and specific, and it was successfully used to determine the degradation impurities of acrivastine and its formulation.

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Section: Resultssupporting

confidence: 60%

Section: Introductionmentioning

confidence: 99%

Isolation, structure elucidation, and high‐performance liquid chromatography quantification of photolytic degradation impurities in acrivastine

Zeng

et al. 2022

J of Separation Science

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Identification, synthesis and structural characterization of process related and degradation impurities of acrivastine and validation of HPLC method

Kumar¹,

Devineni²,

Dubey³

et al. 2017

Journal of Pharmaceutical and Biomedical Analysis

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Stereodivergent Synthesis of Alkenylpyridines via Pd/Cu Catalyzed C–H Alkenylation of Pyridinium Salts with Alkynes

Tang

et al. 2020

Org. Lett.

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The first Pd/Cu catalyzed selective C2-alkenylation of pyridines with internal alkynes has been developed via the pyridinium salt activation strategy. Importantly, the configuration of the product alkenylpyridines could be tuned by the choice of the proper N-alkyl group of the pyridinium salts, thus allowing for both the Z- and E-alkenylpyridines synthesized with good regio- and stereoselectivity. A plausible mechanism was proposed based on the Hammett study and KIE experiment.

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Chromatographic separation and spectroscopic characterization of the e/z isomers of acrivastine

Cited by 4 publications

References 11 publications

Isolation, structure elucidation, and high‐performance liquid chromatography quantification of photolytic degradation impurities in acrivastine

Isolation, structure elucidation, and high‐performance liquid chromatography quantification of photolytic degradation impurities in acrivastine

Identification, synthesis and structural characterization of process related and degradation impurities of acrivastine and validation of HPLC method

Stereodivergent Synthesis of Alkenylpyridines via Pd/Cu Catalyzed C–H Alkenylation of Pyridinium Salts with Alkynes

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