Chromatographic Assessment of the Concentration of Phenolic Compounds in Wild Chamomile (Matricaria chamomilla L.) Extracts Obtained under Various Extraction Conditions

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Abstract

Results of a study of water and water–alcohol extracts of wild chamomile (Matricaria chamomilla L.) depending on the conditions of their extraction by different methods are discussed. The test samples are wild chamomile samples collected in various regions of Russia. Phenolic components in their native forms were extracted from medicinal raw materials using infusion, maceration, microwave-assisted, ultrasound-assisted, and subcritical extraction, and by the pharmacopoeial method. Concentrations of individual components and total phenolic compounds in wild chamomile were determined by chromatographic methods. The HPLC determination of phenolic compounds with diode-array and mass spectrometric detection was carried out using gradient elution with a mixture of acetonitrile with 0.1% formic acid. Chlorogenic acid, ferulic acid glycosides, luteolin-7-O-glucoside, dicaffeoylquinic and chicoric acid, apigenin-7-glucoside, and apigenin were identified in water and water–alcohol extracts of wild chamomile. The dependence of the concentration of phenolic compounds on the geographical place of the growth of plant raw materials was studied based on value of this parameter in extracts of wild chamomile samples from different territories. The maximum total concentration of phenolic compounds (10.1 mg/g) was found in the extract of chamomile from FarmaTsvet (Krasnogorsk, Moscow oblast).

About the authors

Z. A. Temerdashev

Kuban State University

Email: TemZA@kubsu.ru
350040, Krasnodar, Russia

T. K. Chubukina

Kuban State University

Email: TemZA@kubsu.ru
350040, Krasnodar, Russia

E. A. Vinitskaya

Kuban State University; Subtropical Scientific Centre, Russian Academy of Sciences

Email: TemZA@kubsu.ru
350040, Krasnodar, Russia; 354002, Sochi, Russia

N. V. Kiseleva

Kuban State University

Author for correspondence.
Email: TemZA@kubsu.ru
350040, Krasnodar, Russia

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