Comparative evaluation of influence of immunomodulators on the development of experimental synegne infection

 
PIIS102872210002423-0-1
DOI10.31857/S102872210002423-0
Publication type Article
Status Published
Authors
Affiliation: Orenburg State Medical University
Affiliation: Orenburg State Medical University
Affiliation: Orenburg State Medical University
Affiliation: Orenburg State Medical University
Affiliation: Orenburg State Medical University
Affiliation: Orenburg State Medical University
Affiliation: Orenburg State Medical University
Affiliation: Orenburg State Medical University
Journal nameRossiiskii immunologicheskii zhurnal
EditionVolume 12 Issue 3
Pages434-438
Abstract

A comparative study of the protective eff ect of miliacin and galavit in the case of Pseudomonas aeruginosa infection in mice was carried out. It was established that miliacin and galavit reduced the death of animals, limited hypoplasia of the thymus and bone marrow, reduced the stimulated production of IL-17.

Keywordsmouse, Pseudomonas infection, miliacin, galavit
Received12.01.2019
Publication date12.01.2019
Cite   Download pdf To download PDF you should sign in
Размещенный ниже текст является ознакомительной версией и может не соответствовать печатной

views: 1304

Readers community rating: votes 0

1. Liu J., Feng Y., Yang K., Li Q., Ye L., Han L., Wan H. Early production of IL-17 protects against acute pulmonary Pseudomonas aeruginosa infection in mice. FEMS Immunology &Medical Microbiology 2011, 61, 179–188.

2. Weber A., Zimmermann C., Mausberg A. K., Dehmel T., Kieseier Hans-Peter Hartung B. C., Hofstetter H. H. Pseudomonas aeruginosa and Its Bacterial Components Infl uence the Cytokine Response in Thymocytes and Splenocytes. Infection and Immunity 2016, 84 (5), 1413–1423.

3. Nurridinova N. R., Garib F. Yu. Immunoterapiya ostroj sinegnojnoj pnevmonii v ehksperimente. Meditsinskaya immunologiya 2004, 6, 1–2, 113–116. [Nuridinova N. R., Gharib F. Yu. Immunotherapy of acute Pseudomonas aeruginosa in the experiment. Medical immunology 2016, 84 (5), 1413–1423].

4. Latysheva T. V., Scherbakova O. A. Novye vozmozhnosti napravlennoj immunologicheskoj korrektsii na primere otechestvennogo immunomodulyatora «Galavit». Rossijskij allergologicheskij zhurnal 2004, 1, 77–81. [Latysheva T. V., Shcherbakova O. A. New possibilities of directed immunological correction on the example of the domestic immunomodulator “Galavit”. Russian Allergology Journal 2004, 1, 77–81].

5. Panfilova T. V., Shtil' A. A., Frolov B. A. Triterpenoid miliatsin snizhaet indutsirovannoe stressom POL Byulleten' ehksperimental'noj biologii i meditsiny 2006, 141 (6), 633–635. [Panfi lova T. V., Shtil A. A., Frolov B. A. Triterpenoid miLiacin reduces stress-induced LPO. Bulletin of Experimental Biology and Medicine 2006, 141 (6), 633–635].

6. Volchegorskij I. A., Dolgushin I. I., Kolesnikov O. L. Ehksperimental'noe modelirovanie i laboratornaya otsenka adaptivnykh reaktsij organizma. Chelyabinsk: Izd-vo Chelyabinskogo gosudarstvennogo pedagogicheskogo universiteta, 2000, 167 s. [Volchegorsky I. A., Dolgushin I. I., Kolesnikov O. L. Experimental modeling and laboratory evaluation of adaptive reactions of the organism. Chelyabinsk: Publishing house of the Chelyabinsk State Pedagogical University, 2000, 167 p.].

Система Orphus

Loading...
Up