47 research outputs found
Development of a Reagent for Evaluation of Incipient Immune Response to the Live Plague Vaccine
Objective of the study is to develop a reagent for the detection of lymphocytes with Yersinia pestis F1 antigen receptors. Materials and methods. Utilized have been: live plague vaccine based on the strain of Yersinia pestis EV NIIEG, formalin killed suspensions of microorganisms - Y. pestis , 3123, Y. enterocolitica O9 H-383 serovar, Y. pseudotuberculosis O1 2841 serovar; acetaldehyde-immobilized capsular antigen of Y. pestis F1 (obtained applying Baker methodology), lipopolysaccharide of Y. pestis K1, and bovine erythrocytes. Bovine erythrocyte F1 sensibilization has been performed using rivanol. Lymphocytes from blood have been isolated in density gradient ficoll-verografin 1.077. Lymphocytes with Yersinia pestis F1 antigen receptors have been detected by means of reagent adhesion onto the isolated lymphocytes. F1-free erythrocytes serve as controls. After the exposition, 7 evaluations of specificity to F1 and the lymphocytes, binding control reagent, have been carried out. Deployed have been 8 rabbits, immunized with live vaccine EV, and 2 rabbits, immunized with inactivated vaccine EV. Examined have been EV-vaccinated 5 persons. Results and conclusions. Identified is optimum sensibilizing dose of F1 antigen (250 µg/ml). Specificity of lymphocytes with receptors to F1 is demonstrated in inhibition experiments applying homologous and heterogeneous antigens. Lymphocytes with receptors to F1 (LRs) have been detected in peripheral blood of all rabbits and humans, immunized with vaccine EV. LRs have been registered since day 2 till day 35 in the rabbits, and in humans - since day 2 till day 14 after vaccination. It is shown that in case of revaccination of humans, LRs emerge and disappear earlier, than in case of primary immunization
Use of analytic solutions in the statement of difference boundary conditions on a movable shoreline
Solutions to initial boundary value problems are constructed for the shallow water equations in the form of series locally convergent in the neighbourhood of a movable water–land boundary for an arbitrary bottom relief. The motion law and the velocity of this boundary are determined for various wave–shore interaction modes. The obtained results of analytic study of the solutions are used for the development of approximations of boundary conditions on the movable shoreline. Test problems are numerically solved using an explicit predictor-corrector scheme of the second order of approximation on adaptive grids retracing the position of the water–land boundary. The results of these calculations are presented
Revelation of Immune Memory at the First Stage of Antigen-Specific Cell Response after Second Introduction of the Live Plague Vaccine
Background. The study of immune memory is necessary to evaluate the effectiveness of immunization against infection, including plague and to make a choice of vaccination scheme.Goals. The goal is to study the possible role of immune memory in the early stage of the antigen-specific response – the formation of cells with receptors for capsular (F1) and lipopolysaccharide (LPS) antigens of plague live EV vaccine.Methodology. Volunteers vaccinated with live plague vaccine EV for the first time (6 persons – group 1) and again (6 persons – group 2) were examined. In the mononuclear fraction of the blood of volunteers the cells binding antigens F1 and LPS Y. pestis (CBA) were determined.Results. In the volunteers group 2, the content of CBA at 2 days after vaccination was higher than in group 1. Between the 5th day and the end of the CBA detection, their content in group 2 decreased, and in group 1, it increased, but remained significantly less than in group 2 two days after immunization.Сonclusions. It is shown that the previous vaccination accelerates the first stage of the antigen-specific human response to second vaccination against plague. This reflects the role of immune memory in the formation of this stage of the immune response at vaccination against plague