Studies of Sensitivity to Avian Flu Virus A/H5N1 in Chickens

) appear to be highly virulent for chickens. The chance of AFV infection of chickens in case of intranasal challenge is 20 times as great as in the case of peroral one, and 300 times as great as in the case of intragastral one, which bears evidence to higher sensitivity to AFV of the tissues of avian respiratory organs, in comparison with the tissues of gastro-intestinal tract. Therewith, primary target organ for virus in intranasal infected birds is their respiratory channel (mucous membrane of the nasal cavity in particular). Registered is the possibility of existence of fecal-nasal AFV transfer mechanism in chickens

A METHOD OF INTEGRATED ASSESSMENT OF LIVER FIBROSIS DEGREE: A COMPARISON OF THE OPTICAL METHOD FOR THE STUDY OF RED BLOOD CELLS AND INDIRECT ELASTOGRAPHY OF THE LIVER

The presented  method  of integrated  assessment of liver fibrosis degree based on the comparison of the data obtained in the study of electric and viscoelastic parameters of erythrocytes by the dielectrophoresis  method  using the electro-optical system  of the detection  cells and method  for indirect elastometry. A high degree of comparability of the results of the above-described  methods  was established  when the degree of fibrosis F 2-4  in the  absence  of marked  cytolysis, cholestasis,  inflammatory  syndrome,  metal  overload. It is shown that  parallel using the methods  of dielectrophoresis and indirect elastography is needed in the presence of a rise of transaminases, gammaglutamyltranspeptidase more than 5 norms, expressed dysproteinemia,  syndromes of iron overload, copper to increase the accuracy in determining the degree of liver fibrosis. The evaluation of dynamics of changes of the degree of fibrosis during antiviral therapy is more accurate by the method  of indirect elastometry, and the method of dielectrophoresis  is preferable in the treatment of nonalcoholic fatty liver disease. In cases of restrictions on the use of the method  for indirect elastography (marked obesity, ascites, cholelithiasis, pregnancy, presence of pacemaker, prosthesis) to determine  the degree of fibrosis the method of dielectrophoresis  of red blood cells can be used. Simultaneous use of both methods  (using the identified discriminatory values) allows to reduce or to neutralize their disadvantages, dependence on associated syndromes, to expand the possibilities of their application, to improve the diagnostic accuracy in determining each of the degrees of liver fibrosis. Integrated application of both methods — indirect elastography and dielectrophoresis of red blood cells — for determining the degree of liver fibrosis allows to achieve high levels of sensitivity (88.9 percent) and specificity (100 percent) compared to the “gold standard” — biopsy of the liver

Erythrocytes and NO: the facts and hypotheses interaction, prospects for diagnosis and therapy

This review deals with the relationship between red blood cells and nitric oxide, the role of erythrocytes as participants of vasoregulation. There were the results of studies on the physiological origin of vasoactive NO under hypoxic conditions, sources of nitric oxide associated with erythrocytes. The data of the NO effect on the erythrocyte deformability have been analyzed. The hypothesis of insufficient NO bioavailability during blood storage caused by degenerative changes in red blood cells (increased levels of free hemoglobin and microparticles from erythrocytes) was presented. The results of evaluation of hemoglobin associated with NO by means of Raman-spectroscopy were given. Prospects have been identified in the diagnosis and therapy related to the definition and changes in levels of erythrocyte-derived NO and ATP

Inactivation of Viruses in Bubbling Processes Utilized for Personal Bioaerosol Monitoring

A new personal bioaerosol sampler has recently been developed and evaluated for sampling of viable airborne bacteria and fungi under controlled laboratory conditions and in the field. The operational principle of the device is based on the passage of air through porous medium immersed in liquid. This process leads to the formation of bubbles within the filter as the carrier gas passes through and thus provides effective mechanisms for aerosol removal. As demonstrated in previous studies, the culturability of sampled bacterium and fungi remained high for the entire 8-h sampling period. The present study is the first step of the evaluation of the new sampler for monitoring of viable airborne viruses. It focuses on the investigation of the inactivation rate of viruses in the bubbling process during 4 h of continuous operation. Four microbes were used in this study, influenza, measles, mumps, and vaccinia viruses. It was found that the use of distilled water as the collection fluid was associated with a relatively high decay rate. A significant improvement was achieved by utilizing virus maintenance fluid prepared by using Hank's solution with appropriate additives. The survival rates of the influenza, measles, and mumps viruses were increased by 1.4 log, 0.83 log, and 0.82 log, respectively, after the first hour of operation compared to bubbling through the sterile water. The same trend was observed throughout the entire 4-h experiment. There was no significant difference observed only for the robust vaccinia virus

Infection of chickens caused by avian influenza virus A/H5N1 delivered by aerosol and other routes

Summary: This study presents results of the study of infectivity of avian influenza virus (AIV) A subtype H5N1 strains isolated from agricultural birds across the territory of the Russian Federation and CIS countries. The results of the susceptibility of chickens to the AIV isolates delivered by the aerosol route and the dissemination of the virus in the organs of infected birds are presented. As was observed, the sensitivity of birds to AIV by the aerosol route of infection is 30 times higher than by intranasal route, 500 times higher than by the oral route and 10000 times higher than by the intragastric route of infection, which is indicative of higher permissivity of respiratory organs to AIV. The highest titres of AIV A subtype H5N1(A/Chicken/Kurgan/05/2005 strain) in aerosol-infected chickens were found in nasal cavity mucosa, lungs, cloaca, serum and kidney, where viable virus accumulation was detected by 18h post-infection (p.i.). The highest virus titres were observed 54h p.i. in lungs, serum and kidney, reaching the value of 8.16 lg EID/g(ml) in the lungs. The results showed that birds infected by the aerosol route developed higher titres of virus than those infected by other routes

Monitoring of viable airborne SARS virus in ambient air

Due to recent SARS related issues (Science 300 (5624) 1394; Nature 423 (2003) 240; Science 300 (5627) 1966), the development of reliable airborne virus monitoring procedures has become galvanized by an exceptional sense of urgency and is presently in a high demand (In: Cox, C.S., Wathers, C.M. (Eds.), Bioaerosols Handbook, Lewis Publishers, Boca Raton, FL, 1995, pp. 247–267). Based on engineering control method (Aerosol Science and Technology 31 (1999) 249; 35 (2001) 852), which was previously applied to the removal of particles from gas carriers, a new personal bioaerosol sampler has been developed. Contaminated air is bubbled through porous medium submerged into liquid and subsequently split into multitude of very small bubbles. The particulates are scavenged by these bubbles, and, thus, effectively removed. The current study explores its feasibility for monitoring of viable airborne SARS virus. It was found that the natural decay of such virus in the collection fluid was around 0.75 and 1.76 lg during 2 and 4 h of continuous operation, respectively. Theoretical microbial recovery rates of higher than 55 and 19% were calculated for 1 and 2 h of operation, respectively. Thus, the new sampling method of direct non-violent collection of viable airborne SARS virus into the appropriate liquid environment was found suitable for monitoring of such stress sensitive virus