Investigations for the development of a procedure for the quantitative analysis of redhaw hawthorn (Crataegus sanguinea) shoots


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Introduction. The flowers and berries of redhaw hawthorn (Crataegus sanguinea Pall., the rose family (Rosaceae)) are used in medical practice as cardiotonic agents. Its shoots contain flavonoids and therefore they are a promising type of medicinal plant raw materials and can be used as a source for obtaining herbal medicines. Objective: to develop a procedure for the assay of the amount of flavonoids, calculated with reference to vitexin 2"-O-rhamnoside, in the redhaw hawthorn shoots. Material and methods. The shoots of redhaw hawthorn of various species were collected in the Samara University Botanical Garden during the plant flowering stage. The collected raw materials were air dried without direct sunlight. The relationship between various extraction parameters and the yield of active substances from raw materials was studied. Results. The optimal parameters for the procedure of assaying the redhaw hawthorn shoots were extraction for 60 minutes in a boiling water bath where 70% ethanol was used as an extractant in a raw material-to-extractant ratio of 1:100. The expediency of quantitative determination of the amount of flavonoids, calculated with reference to vitexin 2II-O-rhamnoside at a wavelength of 392 nm was justified. The amount of flavonoids was studied in the shoots of redhaw hawthorn and other species of the Crataegus genus. The total content of flavonoids in the redhaw hawthorn shoots, which was calculated with reference to vitexin 2II-O-rhamnoside, was in the range of 2.04-3.79%. Conclusion. A procedure has been developed to assay the amount of flavonoids, calculated with reference to vitexin 2II-O-rhamnoside, in the redhaw hawthorn shoots, when analyzing the wavelength of 392 nm. The shoots of redhaw hawthorn are a promising source of new medicines.

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作者简介

Nadezhda Volkova

Samara State Medical University

Email: nadezhda_alexandrovna_1997@mail.ru
Postgraduate Department of Pharmacognosy with Botany and the basics of Phytotherapy 9, Chapaevskaya St., Samara, 443099, Russian Federation

Vladimir Kurkin

Samara State Medical University

Email: kurkinvladimir@yandex.ru
Head of the Department of Pharmacognosy with Botany and the Basics of Phytotherapy, Doctor of Pharmaceutical Sciences, Professor. 9, Chapaevskaya St., Samara, 443099, Russian Federation

Olga Pravdivtseva

Samara State Medical University

Email: pravdivtheva@mail.ru
Associate professor of the Department of Pharmacognosy with Botany and the Bases of Phytotherapy, Doctor of Pharmaceutical Sciences 9, Chapaevskaya St., Samara, 443099, Russian Federation

Anna Kurkina

Samara State Medical University

Email: kurkina-av@yandex.ru
Associate professor of the Department of Pharmacognosy with Botany and the Bases of Phytotherapy, Doctor of Pharmaceutical Sciences 9, Chapaevskaya St., Samara, 443099, Russian Federation

Natalja Varina

Samara State Medical University

Email: shagalieva.nr@mail.ru
Associate professor of the Department of Pharmacognosy with Botany and the Bases of Phytotherapy, PhD 9, Chapaevskaya St., Samara, 443099, Russian Federation

Olga Sharova

Samara State Medical University

Email: o.v.sharova@samsmu.ru
Assistant Professor of the Department of Pharmacology named after A.A. Lebedev 9, Chapaevskaya St., Samara, 443099, Russian Federation

参考

  1. Государственная Фармакопея Российской Федерации, XIV изд. [Электронное издание]. Режим доступа: http://femb.ru/feml
  2. Куркин В.А., Морозова Т.В., Правдивцева О.Е., Куркина А.В. Количественное определение суммы флавоноидов в листьях боярышника кроваво-красного. Химикофармацевтический журнал. 2018; 52 (10): 34-8.
  3. Морозова Т.В., Куркин В.А., Правдивцева О.Е. и др. Сравнительное фитохимическое исследование плодов, побегов и цветков некоторых видов рода боярышник. Аспирантский вестник Поволжья. 2018; 1-2: 22-4.
  4. Государственная фармакопея Республики Беларусь, I изд., том 2. Минск, 2007.
  5. European Pharmacopoeia, 6-th еd. Rockville: United States Pharmacopoeial Convention, Inc. 2008.
  6. Куркин В.А., Зайцева Е.Н., Правдивцева О.Е. и др. Изучение фармакологической активности препаратов плодов боярышника мягковатого. Наука и инновации в медицине. 2019; 4 (3): 69-72.
  7. Растительные ресурсы СССР: Цветковые растения, их химический состав, использование; Семейства Hydrangeaceae - Haloragaceae. Л.: Наука, 1987; 34-42.
  8. Куркина А.В. Флавоноиды фармакопейных растений. Самара: «Офорт», СамГМУ, 2012; 290.
  9. Куркина А.В. Новые подходы к стандартизации цветков боярышника. Химия растительного сырья. 2013; 2: 171-6.
  10. Сагарадзе В.А., Бабаева Е.Ю., Каленикова Е.И. Определение флавоноидов в цветках с листьями боярышника методом ВЭЖХ со спектрофотометрическим детектированием. Химико-фармацевтический журнал. 2017; 5 (4): 30-4.

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