Aleksei V. Kiselev scite author profile

Aleksei V. Kiselev

4Publications

34Citation Statements Received

59Citation Statements Given

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Affiliations

Semenov Institute of Chemical Physics

Publications

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Effects of Physicochemical Forms of Phenazepam and Panavir on Their Action at Ultra-Low Doses

et al. 2012

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A concept of physicochemical forms of biologically active substances introduced in investigation of the action mechanism of ultra-low doses allows qualitative explanation of the main effects of ultra-low doses, chemical diversity of biologically active substances, and physical boundaries for these effects. Phenazepam was shown to possess activity in ultra-low doses only in disperse state, in the form of nanoparticles with a diameter <100-300 nm; these nanoparticles appear as micelles of surface active substances and solvated. Panavir possesses pharmacological activity in ultra-low doses and appears as nanoparticles with a diameter of 200-300 nm, which have uncompensated negative surface charge and polymer nature.

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Antiviral activity of the high-molecular-weight plant polysaccharides (Panavir®)

Калинина

Zlenko

Kiselev

et al. 2020

International Journal of Biological Macromolecules

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This short report is dedicated to the description of the wide antiviral and antibacterial activity of the immunemodulating agent Panavir®. Panavir® is a high-molecular-weight fraction of the polysaccharides extracted from the shoots of the Solanum tuberosum. It demonstrates activity against many types of viruses, including animal coronavirus and also against bacterial infections. These properties look very promising considering the COVID-19 epidemy and allow propose that Panavir® would be effective in the therapy of the SARS-CoV-2 infection.

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Antiviral potential of plant polysaccharide nanoparticles actuating non-specific immunity

Стовбун

Калинина

Zlenko

et al. 2021

International Journal of Biological Macromolecules

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The development of high-end targeted drugs and vaccines against modern pandemic infections, such as COVID-19, can take a too long time that lets the epidemic spin up and harms society. However, the countermeasures must be applied against the infection in this period until the targeted drugs became available. In this regard, the non-specific, broad-spectrum anti-viral means could be considered as a compromise allowing overcoming the period of trial. One way to enhance the ability to resist the infection is to activate the nonspecific immunity using a suitable driving-up agent, such as plant polysaccharides, particularly our drug Panavir isolated from the potato shoots. Earlier, we have shown the noticeable anti-viral and anti-bacterial activity of Panavir. Here we demonstrate the pro-inflammation activity of Panavir, which four-to-eight times intensified the ATP and MIF secretion by HL-60 cells. This effect was mediated by the active phagocytosis of the Panavir particles by the cells. We hypothesized the physiological basis of the Panavir proinflammatory activity is mediated by the indol-containing compounds (auxins) present in Panavir and acting as a plant analog of serotonin.

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P.470 Calcium salt of N-(5-hydroxy-nicotinoyl)-L-glutamic acid improves mood and cognitive processes in patients with chronic cerebral ischemia

Kiselev

Kalinina

Stovbun

2019

European Neuropsychopharmacology

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