ФИЗИОЛОГО-БИОХИМИЧЕСКАЯ ОЦЕНКА АДАПТОГЕННЫХ СВОЙСТВ ФИТОЭКДИСТЕРОИД СОДЕРЖАЩИХ ЭКСТРАКТОВ ИЗ ЛИСТЬЕВ ШПИНАТА

1. Ray A., Gulati K., Anand R. Stress, adaptogens and their evaluation: an overview //J. Pharm. Rep. 2016. Vol. 1, № 2. ArticleID1000110.

2. Roberts J.L., Moreau R. Functional properties of spinach (Spinacia oleracea L.) phytochemicals and bioactives //Food Funct. 2016. Vol. 7, № 8. P. 3337-53.

3. Cartford M.C., Gemma C., Bickford P.C. Eighteen-month-old Fischer 344 rats fed a spinach-enriched diet show improved delay classical eyeblink conditioning and reduced expression of tumor necrosis factor alpha (TNFalpha) and TNFbeta in the cerebellum // J Neurosci. 2002. Vol. 22, № 14. P. 5813-6.

4. Son H., Jung S., Shin J.H., et al. Anti-stress and anti-depressivee ffects of spinach extracts on a chronic stress-induced depression mouse model through lowering blood corticosterone and increasing brain glutamate and glutamine levels // J. Clin. Med. 2018. Vol. 7, № 11. P. E406.

5. Lomnitski L., Bergman M., Nyska A., Ben-Shaul V., Grossman S. Composition, efficacy, and safety of spinach extracts // Nutr Cancer. 2003. Vol. 46, № 2. P.222-31.

6. Fiorito S., Preziuso F., Epifano F., et al. Novel biologically active principles from spinach, goji and quinoa // Food Chem. 2019. Vol. 276. P.262-5.

7. Mzhelskaya K.V., Shipelin V.A., Shumakova A.A., et al. Effects of quercetin on the neuromotor function and behavioral responses of Wistar and Zucker rats fed a high-fat and high-carbohydrate diet // Behav Brain Res. 2020. Vol. 378. P. 112270.