Antimicrobial Effects of Silver Nanoparticles Stabilized in Solution by Sodium Alginate
Background/purpose To investigate the effect of nanosilver particles in solution stabilized in a matrix of sodium alginate on the growth and development of pathogenic bacteria such as Staphylococcus aureus, Enterococcus faecalis, Escherichia coli, Proteus vulgaris, Enterobacter cloacae, the antibiotic-resistant strain of Pseudomonas aeruginosa, the yeast-like fungus Candida albicans, and the luminescent bacteria Photobacterium leiognathi Sh1. Methods Isolates of pathogenic bacteria obtained from bronchoalveolar and peritoneal lavage samples from Wistar rats with experimental pneumonia and peritonitis were tested for their susceptibility to silver nanoparticles in solution with an alginate stabilizer. The antifungal activity of silver nanoparticles in sodium alginate was studied for C. albicans (strain CCM885) using the Sabouraud agar method. The biocidal impact of silver nanoparticles in solution with a sodium alginate matrix on the luminescent bacteria P. leiognathi Sh1 was investigated using a BLM 8801 luminometer. Results It was observed that a 0.02-0.05% nanosilver solution with an alginate stabilizer limits the growth and development of pathogenic bacteria within the first 24 hours of exposure. If the concentration of nanosilver solution is 0.0005-0.05%, it inhibits the viability of the fungus C. albicans. A nanosilver solution at a concentration of 0.05-0.2 μg/mL represses bioluminescence in the bacteria P. leiognathi Sh1. From these results, it appears that the biocidal effect of nanosilver is related either to the presence of ions that are formed during dissolution, or to the availability of nanoparticles that interrupt the membrane permeability of bacterial cells. Conclusion Silver nanoparticles stabilized in a solution of sodium alginate possess significant in vitro antimicrobial activity, which is manifested by inhibition of the bioluminescence of P. leiognathi Sh1, and inhibition of the growth and development of the pathogenic bacteria S. aureus, E. faecalis, E. coli, P. vulgaris, E. cloacae, the antibiotic-resistant strain of P. aeruginosa, and the fungus C. albicans.
Protective effect of grapes polyphenol concentrate “Fenokor” in terms of hypoxic myocardial injury
Polyphenols of grapes and their beneficial effects on human health have been known for a long time and still attract more and more research interest. The aim of the research was to reveal cardioprotective properties of polyphenols contained in grape concentrate "Fenokor" in terms of experimental histotoxic hypoxia. Materials and methods. The study was conducted on 21 adult male Wistar rats divided into 3 groups, 2 of which were administered CoCl 2 aqueous solution in a dose of 60 mg/kg for 7 days intragastrically. The control group consisted of 5 intact animals. The rats of the second group (n = 8) after the introduction of the cobalt did not receive any treatment, the animals of the third group (n = 8) after the administration of cobalt chloride intragastrically, were given Fenokor aqueous solution at a dose of 2,5 ml/kg along with 0,05 ml of water orally. Morphological study was performed using light and electron microscopy. During the experiment the following biochemical parameters such as contents of malondialdehyde, oxidative modification of proteins were estimated. The results. The result of the influence of cobalt on the heart of animals in experiments is the development of severe cardiomyopathy that requires cardio-protection. Histological structure of myocardium observed in the second group of male rats after cobalt intoxication on the background of grape polyphenol concentrate generally reflected a tendency to minimize the damage extent which was manifested in the form of normalization of cell structures and muscle fibers. Application of Fenokor has demonstrated its antioxidant and cytoprotective properties, which contributed to myocardial structure preservation in rats exposed to histotoxic hypoxia.
Изучение кишечного фактора в скорости старения, индукции воспаления и прогрессировании заболеваний неразрывно (прямо или косвенно) связано с великим русским учёным И.И. Мечниковым. Его интуиция инициировала изучение особенностей состава микробиоты долгожителей и операций по удалению толстой кишки (как рудимента и источника токсичных продуктов гниения), результаты которых не имели научного и практического успеха и завершились чуть менее 100 лет тому назад, ознаменовав собой завершение первого этапа исследований. Параллельно с первым стартовал второй этап. Он заключался в изучении биологических свойств и структуры эндотоксина - липополисахарида (ЛПС), число молекул которого на планете очень велико, поскольку ЛПС термостабилен, а главным его источником являются сине-зелёные водоросли, заселившие Мировой океан около 2 миллиардов лет тому назад. Третий этап изучения кишечного фактора в общей патологии стартовал в России треть века назад на стыке первых двух параллельно развивающихся направлений с постулирования системной эндотоксинемии, как облигатного биологического явления и открытия клеточного рецептора TLR4, лигандом которого является ЛПС. В дальнейшем TLR4-подобные рецепторы были обнаружены даже у растений, что позволяет квалифицировать ЛПС не только как экзогормон адаптации, но и как облигатный фактор эволюции. Последняя подразумевает самообновление популяции, для реализации которой облигатные факторы жизнеобеспечения должны обладать и противоположным действием, среди которых стресс и ЛПС. Способность средств снижения содержания ЛПС в крови повышать качество лечебно-профилактического процесса позволяет оптимистично оценивать возможность замедления процессов старения. Первоочередными задачами для достижения поставленной цели являются: определение диапазона физиологических показателей системной эндотоксинемии во всех возрастных группах и создание нового поколения доступных для широкого использования средств селективной элиминации избытка ЛПС из крови (гемодиализ) и кишечника (энтеросорбция), которые могут быть созданы на основе аптамеров. Studying the role of intestinal factor in the rate of aging, induction of inflammation, and progression of diseases is inextricably (directly or indirectly) associated with the great Russian scientist I.I. Mechnikov. His intuition initiated studying the long-livers’ microbiota and the surgical removal of the colon (as a rudiment and source of toxic rotting products), which did not bring any scientific or practical success. These studies were over a little less than 100 years ago marking the end of the first stage of research. The second stage started in parallel with the first one and consisted in studying biological properties and structure of endotoxin (lipopolysaccharide, LPS). LPS molecules are as numerous on the earth as in the air since LPS is thermally stable and generated by blue-green algae that have inhabited the World Ocean two billion years ago. The third stage of studying the intestinal factor in general pathology started in Russia one third of a century ago at the junction of the two above-mentioned, paralleling endeavors - postulating systemic endotoxemia as an obligate biological phenomenon and discovery of the LPS receptor (TLR4) of innate immunity. TLR4 is carried by humans, animals, fish, sponges, and even plants, which suggests that LPS is not only an adaptive exohormone but also an obligate factor of evolution. This implies population self-renewal, which requires that the obligate life-support factors must also possess an opposite effect, including stress and intestinal LPS. The ability of LPS suppressors to enhance the therapeutic and prophylactic process makes promising a possibility of slowing aging. The primary tasks for achieving this goal are determining the range of systemic endotoxemia physiological indexes in all age groups and creating a readily accessible new generation of methods for selective elimination of LPS from blood (hemodialysis) and intestine (enterosorption) that could be developed on the basis of aptamers.
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