The aim of the work was to develop a technology for obtaining dry extracts from leaves of non-pharmacopoeia species of hawthorn and establishing their chemical profiles. Materials and methods. Leaves of Crataegus mollis Sarg., Crataegus submollis Sarg. and Crataegus arnoldiana Sarg., used to obtain the dry extracts, were harvested in the Botanical Garden of the National University named after M. N. Karazina in August 2021. To determine the chemical profiles of the obtained dry extracts, the spectrophotometric method and the high-performance liquid chromatography (HPLC) method were used. Results. A technological scheme for obtaining dry extracts of hawthorn leaves has been developed. The content of flavonoids and hydroxycinnamic acids in dry extracts of the leaves of C. mollis Sarg., C. submollis Sarg. and C. arnoldiana Sarg. was determined. The content of free amino acids in extracts ranges from 0.70 % to 0.99 %. The content of flavonoids ranged from 7.25 %±0.04 to 8.43 %±0.01, of hydroxycinnamic acids - from 2.35 %±0.02 to 2.85 %±0.03. Rutin, kaempferol-3-O-glycoside, epicatechin and chlorogenic acid were identified in all extracts by the HPLC method. In dry leaf extracts of C. arnoldiana Sarg. and C. mollis identified p-coumaric acid; C. arnoldiana Sarg. – quercetin; C. arnoldiana Sarg. and C. submollis Sarg. – ferulic acid; C. submollis Sarg. and C. mollis Sarg. – quercetin-3-O-rhamnoside. Conclusions. Dry leaf extracts of C. mollis Sarg., C. submollis Sarg. and C. arnoldiana Sarg. were obtained. For the first time, the content of flavonoids and hydroxycinnamic acids in the extracts was determined by HPLC. It was established that the chemical profile of the obtained extracts is formed by rutin, chlorogenic acid and kaempferol-3-O-glycoside, which can be used in further standardization of these substances. In addition, a comparative study of the amino acid composition of the obtained extracts was carried out for the first time
Objective: The purpose of the research was to optimize technology for producing a magneto controllable nanocomposite Ag@Fe3O4 with modern physicochemical and therapeutic requirements using methods of mathematical design of the experiment. Methods: To optimize the synthesis process of the nanocomposite Ag@Fe3O4, the method of factor experiment was used. Mathematical calculations were performed using the STATISTICA 10 StatSoft Inc. system and Excel spreadsheet processor of MS Office 2019 Professional Plus. Results: Based on the study of technological parameters of nanocomposite synthesis Ag@Fe3O4 (16 experiments) a regression equation was obtained: Y = 106.415+0.038X1+4.448Х2+1.806Х3–1.593Х4–18.945Х5–109.980Х6. By the use of this equation the synthesis parameters were optimized with the help of steepest ascent method. It was found that the maximum yield of Ag@Fe3O4 can be achieved under the following conditions: X1 (magnetite synthesis time, min)–40; X2 (glucose content in solution,%)–10; X3 (temperature of the Tollens reaction, °С)–65; X4 (magnetite silver coating time, min)–30; X5 (pH, units)–8.5; X6 (rate of addition of ammonia, mol/min)–0.36. Conclusion: Using mathematical design of the experiment, a technology was developed for producing Ag@Fe3O4 with modern physicochemical and therapeutic requirements.
Parasitic infections are one of the most acute problems of the modern society as this group of diseases is met in all countries of the world. According to the World Health Organization around 1.2 billion people are infected with diverse parasitic infections each year. Helminthiases of digestive system, primarily nematodosis, constitute a group of special risk, since a particularly sensitive audience for them are children of younger and middle age. Phytotherapy, which is based on the centuries-old experience of folk medicine, promises to be a solution to this problem, enabling to create effective complex medicines for nematodosis prevention and treatment. Thus, the herbal mixture was prepared on the basis of the offered composition of medicinal plant raw material. The research of antimicrobial activity of the studied herbal mixture was conducted in vitro by the method of diffusion into agar at the Biotechnology Department of the National Pharmaceutical University under the direction of Doctor of Pharmaceutical Sciences, prof. Strelets O.P. The obtained results of the carried out research of the antimicrobial properties of the herbal mixture samples allowed examining the level of antimicrobial activity. The further research of the investigated herbal mixture and the offered phytocomposition is promising for creation of new effective medicines with the complex action including anthelminthic (specific to nematodes), antiparasitic, anti-inflammatory, antibacterial, antiseptic, hepatoprotective, nephroprotective, laxative, antiallergic, antispasmodic, analgesic, sedative activities
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