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40 records – page 1 of 4.

[Assessment of the risk of expansion of the habitats of the mosquitoes AEDES aegypti L. and Aedes albopictus Skus. in Russia].

https://arctichealth.org/en/permalink/ahliterature262346
Source
Med Parazitol (Mosk). 2014 Oct-Dec;(4):8-10
Publication Type
Article
Author
L A Ganushkina
L F Morozova
I V Patraman
V P Sergiev
Source
Med Parazitol (Mosk). 2014 Oct-Dec;(4):8-10
Language
Russian
Publication Type
Article
Keywords
Aedes - pathogenicity - virology
Animals
Climate
Dengue - prevention & control - transmission
Dengue Virus - pathogenicity
Ecosystem
Introduced species
Russia
Species Specificity
Abstract
Based on climatic characteristics, the authors show that an invasive Aedes albopictus species is likely to emerge in new areas of the Russian Federation.
PubMed ID
25812400 View in PubMed
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[Calculation of trends in typhoid morbidity in different regions of the country]

https://arctichealth.org/en/permalink/ahliterature70368
Source
Zh Mikrobiol Epidemiol Immunobiol. 1980 Oct;(10):14-7
Publication Type
Article
Date
Oct-1980
Author
V P Sergiev
V A Nikonova
Source
Zh Mikrobiol Epidemiol Immunobiol. 1980 Oct;(10):14-7
Date
Oct-1980
Language
Russian
Publication Type
Article
Keywords
Comparative Study
English Abstract
Epidemiologic Methods
History, 20th Century
Humans
Mathematics
Typhoid Fever - epidemiology - history
USSR
Abstract
The relationship linearity criterion and its derivatives were used in processing the mass of official statistical data on typhoid morbidity throughout the whole territory of the USSR and in the union republics during the period 1950-1976. In the majority of the union republics (the RSFSR, the Ukrainian, Byelorussian, Georgian, Armenian, Moldavian, Lithuanian, Latvian and Estonian SSR) the time course of typhoid morbidity was found to have a linear character and could be adequately described by the exponential function. The calculation of the average rate of annual decrease in typhoid morbidity in the above-mentioned union republics and the extrapolation of the tendencies of morbidity decrease for the last 20 years indicated that the morbidity level in the USSR would decrease by 6.14%, varying from 3.09% to 9.89% in individual union republics. The authors believe that similar rates of decrease in typhoid morbidity in different regions of the country can be attributed to reduced circulation of the causative agent of this infection and to the constant radical improvement of the sanitary and hygienic conditions of the Soviet people.
PubMed ID
7003992 View in PubMed
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[Characteristics of the seasonal distribution of typhoid fever cases in different areas of the USSR]

https://arctichealth.org/en/permalink/ahliterature70370
Source
Zh Mikrobiol Epidemiol Immunobiol. 1979 Dec;(12):16-21
Publication Type
Article
Date
Dec-1979
Author
V P Sergiev
V A Nikonova
Source
Zh Mikrobiol Epidemiol Immunobiol. 1979 Dec;(12):16-21
Date
Dec-1979
Language
Russian
Publication Type
Article
Keywords
Disease Outbreaks - epidemiology - prevention & control
English Abstract
Humans
Seasons
Typhoid Fever - epidemiology - prevention & control
USSR
Abstract
The results of the monthly registration of typhoid cases in all union republics and in the USSR as a whole for the period of 1970--1976 were analyzed. The mathematical parameters of the monthyly distribution of morbidity rate under the influence of long-term factors for each union republic were determined. In analyzing actual morbidity rates for definite years these data may help determine to what extent such rates are influenced by incidental factors. Mathematical analysis allowed to divide the territory of the USSR into 5 groups of areas with different patterns of the seasonal distribution of typhoid cases: the RSFSR, the Ukrainian SSR and the Moldavian SSR, the Byelorussian SSR and the Soviet Baltic republics, the Transcaucasian republics, the republics of Central Asia and the Kazakh SSR. April was found to be the optimum time for the immunoprophylaxis of typhoid fever throughout the whole territory of the USSR in the presence of epidemiological indications.
PubMed ID
516957 View in PubMed
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[Classification of human diseases and prophylaxis of morbidity among the population].

https://arctichealth.org/en/permalink/ahliterature185699
Source
Zh Mikrobiol Epidemiol Immunobiol. 2000 Jul-Aug;(4 Suppl):106-9
Publication Type
Article
Author
I D Drynov
V P Sergiev
N A Malyshev
Author Affiliation
Gamaleya Research Institute of Epidemiology and Microbiology, Institute of Parasitology and Tropical Medicine, Clinical Infectious Hospital No. 1, Moscow, Russia.
Source
Zh Mikrobiol Epidemiol Immunobiol. 2000 Jul-Aug;(4 Suppl):106-9
Language
Russian
Publication Type
Article
Keywords
Communicable Disease Control - methods - trends
Communicable Diseases - classification - diagnosis - epidemiology - microbiology - mortality
Cross Infection - microbiology
Diagnosis, Differential
Disease Outbreaks - prevention & control
Humans
Infection - epidemiology
International Cooperation
Morbidity - trends
Population Surveillance
Prevalence
Russia - epidemiology
Systems Analysis
USSR - epidemiology
Abstract
The existing approaches to the classification of diseases, based on the determination of their nosological forms, are mainly oriented on the clinical requirements. Within the only approach to the classification of diseases, it is difficult to combine the requirements of diagnostics and those of the epidemiological generalization of the data on morbidity for the development of the prophylactic system for the prevention of the mass spread of diseases, which is of particular importance for infectious diseases. It is necessary to form the specialized classification of epidemiological situations, based on the International Classification of Diseases and capable of ensuring the assessment of the epidemic spread of infectious diseases and the development of adequate measures for decreasing mass morbidity among the population.
PubMed ID
12712530 View in PubMed
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[Diagnosis of parasitic diseases in the Russian Federation: state-of-the-art].

https://arctichealth.org/en/permalink/ahliterature127300
Source
Med Parazitol (Mosk). 2011 Oct-Dec;(4):43-5
Publication Type
Article

[Entomological monitoring of an area to assess Dirofilaria transmission risk].

https://arctichealth.org/en/permalink/ahliterature257508
Source
Med Parazitol (Mosk). 2014 Jul-Sep;(3):9-12
Publication Type
Article
Author
L A Ganushkina
V M Rakova
I B Ivanova
V G Supriaga
V P Sergiev
Source
Med Parazitol (Mosk). 2014 Jul-Sep;(3):9-12
Language
Russian
Publication Type
Article
Keywords
Animals
Culicidae - classification - parasitology
DNA, Helminth - isolation & purification
Dirofilaria - classification - physiology
Dirofilariasis - epidemiology - parasitology - transmission
Epidemiological Monitoring
Female
Humans
Insect Vectors - parasitology
Male
Models, Statistical
Molecular Typing
Risk
Russia - epidemiology
Seasons
Temperature
Abstract
As the basis for entomological monitoring, the authors first propose to investigate the structure of a season of D. repens invasion transmission in the carrier in relation to the ambient temperature, such as onset of a transmission season, terminaton of mosquito infection, the number of invasion circulations. A calculating procedure has been developed. It is shown that there is a need for entomological monitoring of each specific area irrespective of the latitude to study a risk for local dirofilariasis cases.
PubMed ID
25286542 View in PubMed
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40 records – page 1 of 4.