|
original article |
Journal |
Date |
Title |
Authors All Authors |
1 |
[GO] |
Health Risk Analysis |
2024―Oct―14 |
Measuring Risk Perception and Risk Compensation among Local Residents toward COVID-19 in the Tourism Sandbox Islands: Comparative Evidence from the Phuket Sandbox and Samui Plus Model in Thailand |
P. Pholphirul |
2 |
[GO] |
Health Risk Analysis |
2024―Oct―14 |
Measuring Risk Perception and Risk Compensation among Local Residents toward COVID-19 in the Tourism Sandbox Islands: Comparative Evidence from the Phuket Sandbox and Samui Plus Model in Thailand |
P. Pholphirul |
3 |
[GO] |
Health Risk Analysis |
2024―Jul―03 |
Using inductive machine learning to identify risk factors for healthcare workers to get infected with highly contagious viruses (based on COVID-19 model) |
I.A. Egorov, S.S. Smirnova, A.V. Semenov |
4 |
[GO] |
Health Risk Analysis |
2024―Jul―03 |
COVID-19 pandemic: the role of risk factors related to urban space (Analytical review) |
B.A. Revich |
5 |
[GO] |
Health Risk Analysis |
2024―Jul―01 |
Using inductive machine learning to identify risk factors for healthcare workers to get infected with highly contagious viruses (based on COVID-19 model) |
I.A. Egorov, S.S. Smirnova, A.V. Semenov |
6 |
[GO] |
Health Risk Analysis |
2024―Jul―01 |
COVID-19 pandemic: the role of risk factors related to urban space (Analytical review) |
B.A. Revich |
7 |
[GO] |
Health Risk Analysis |
2023―Oct―17 |
Subjective assessment of occupational risk factors for health and psychoemotional state of health care workers under changed working conditions during the COVID-19 pandemic |
K.A. Hutsich, G.E. Kosiachenko, S.I. Sychik, Е.A. Nikalayeva, I.V. Madeksha |
8 |
[GO] |
Health Risk Analysis |
2023―Oct―16 |
SUBJECTIVE ASSESSMENT OF OCCUPATIONAL RISK FACTORS FOR HEALTH AND PSYCHOEMOTIONAL STATE OF HEALTH CARE WORKERS UNDER CHANGED WORKING CONDITIONS DURING THE COVID-19 PANDEMIC |
K.A. Hutsich, G.E. Kosiachenko, S.I. Sychik, E.A. Nikalayeva, I.V. Madeksha |
9 |
[GO] |
Health Risk Analysis |
2023―Jul―12 |
Spatial-dynamic heterogeneity of the COVID-19 epidemic process in the Russian Federation regions (2020-2023) |
N.V. Zaitseva, S.V. Kleyn, M.V. Glukhikh |
10 |
[GO] |
Health Risk Analysis |
2023―Jul―12 |
Predicting risks of prothrombotic readiness under COVID-19 using genetic testing |
N.A. Vorobyeva, A.I. Vorobyeva, A.S. Vorontsova |
11 |
[GO] |
Health Risk Analysis |
2023―May―25 |
Hygienic aspects of anti COVID-19 measures |
T.S. Isiutina-Fedotkova, Y.V. Zhernov, V.V. Makarova, D.V. Shcherbakov, N.N. Zabroda, N.A. Ermakova, et al. (+3) V.A. Sukhov, A.A. Klimova, D.A. Kraskevich |
12 |
[GO] |
Health Risk Analysis |
2023―May―25 |
The risk of developing severe clinical forms of covid-19 in healthcare workers in the initial period of the pandemic: Non-occupational factors and laboratory prognostic indicators |
T.A. Platonova, A.A. Golubkova, M.S. Sklyar, E.A. Karbovnichaya, S.S. Smirnova, K.V. Varchenko, et al. (+3) A.A. Ivanova, A.B. Komissarov, D.A. Lioznov |
13 |
[GO] |
Health Risk Analysis |
2023―May―22 |
Hygienic aspects of anti COVID-19 measures |
T.S. Isiutina-Fedotkova, Y.V. Zhernov, V.V. Makarova, D.V. Shcherbakov, N.N. Zabroda, N.A. Ermakova, et al. (+3) V.A. Sukhov, A.A. Klimova, D.A. Kraskevich |
14 |
[GO] |
Health Risk Analysis |
2023―May―22 |
The risk of developing severe clinical forms of covid-19 in healthcare workers in the initial period of the pandemic: Non-occupational factors and laboratory prognostic indicators |
T.A. Platonova, A.A. Golubkova, M.S. Sklyar, E.A. Karbovnichaya, S.S Smirnova, K.V. Varchenko, et al. (+3) A.A. Ivanova, A.B. Komissarov, D.A. Lioznov |
15 |
[GO] |
Health Risk Analysis |
2023―Mar―13 |
Immune status and cytokine spectrum as predictors of the risk of severe disease and performance indicators of intensive therapy in patients with coronavirus infection COVID-19 |
V.F. Sadykov, R.A. Poltavtseva, A.V. Chaplygina, N.V. Bobkova |
16 |
[GO] |
Health Risk Analysis |
2023―Jan―12 |
Immune status and cytokine spectrum as predictors of the risk of severe disease and performance indicators of intensive therapy in patients with coronavirus infection covid-19 |
V.F. Sadykov, R.A. Poltavtseva, A.V. Chaplygina, N.V. Bobkova |
17 |
[GO] |
Health Risk Analysis |
2022―Oct―18 |
Problematic internet use as youth’s risky behavior under distance learning during the Covid-19 pandemic |
V.R. Kuchma, A.Yu. Makarova, E.V. Naryshkina, N.L. Yamschikova, A.Yu. Brazhnikov, A.A. Fedorinin, et al. (+2) E.D. Laponova, N.N. Demina |
18 |
[GO] |
Health Risk Analysis |
2022―Oct―17 |
Problematic internet use as youth’s risky behavior under distance learning during the Covid-19 pandemic |
V.R. Kuchma, A.Yu. Makarova, E.V. Naryshkina, N.L. Yamschikova, A.Yu. Brazhnikov, A.A. Fedorinin, et al. (+2) E.D. Laponova, N.N. Demina |
19 |
[GO] |
Health Risk Analysis |
2022―Oct―17 |
Assessment of bacterial filtration and air permeability of face masks used by people duirng the COVID-19 pandemic |
E.A. Shashina, E.V. Belova, O.A. Gruzdeva, A.Y. Skopin, S.V. Andreev, Y.V. Zhernov, et al. (+4) A.V. Zhukova, T.S. Isiutina-Fedotkova, V.V. Makarova, O.V. Mitrokhin |
20 |
[GO] |
Health Risk Analysis |
2022―Oct―17 |
Young students’ lifestyle as a health risk factor during the COVID-19 pandemic under various anti-epidemic strategies |
A.I. Shpakou, L.G. Klimatckaia, Yu.Yu. Bocharova, A.A. Dyachuk, O.Yu. Shik |
21 |
[GO] |
Health Risk Analysis |
2022―Oct―17 |
Young students’ lifestyle as a health risk factor during the COVID-19 pandemic under various anti-epidemic strategies |
A.I. Shpakou, L.G. Klimatckaia, Yu.Yu. Bocharova, A.A. Dyachuk, O.Yu. Shik |
22 |
[GO] |
Health Risk Analysis |
2022―Oct―17 |
Risks of becoming infected with SARS-CoV-2 for medical personnel in a large industrial city during the pandemic: comparative assessment |
S.S. Smirnova, I.А. Egorov, N.N. Zhuikov, L.G. Vyatkina, А.N. Kharitonov, А.V. Semenov, О.V. Morova |
23 |
[GO] |
Health Risk Analysis |
2022―Oct―17 |
Risks of becoming infected with SARS-CoV-2 for medical personnel in a large industrial city during the pandemic: comparative assessment |
S.S. Smirnova, I.А. Egorov, N.N. Zhuikov, L.G. Vyatkina, А.N. Kharitonov, А.V. Semenov, О.V. Morova |
24 |
[GO] |
Health Risk Analysis |
2022―Jun―27 |
Epidemiologic aspects in prevention of the new coronavirus infection (COVID-19) (Literature review) |
T.M. Butaev, A.S. Tsirikhova, D.V. Kabaloeva, D.O. Kudukhova |
25 |
[GO] |
Health Risk Analysis |
2022―Jun―27 |
Assessment of bacterial filtration and air permeability of face masks used by people duirng the COVID-19 pandemic |
E.A. Shashina, E.V. Belova, O.A. Gruzdeva, A.Y. Skopin, S.V. Andreev, Y.V. Zhernov, et al. (+4) A.V. Zhukova, T.S. Isiutina-Fedotkova, V.V. Makarova, O.V. Mitrokhin |
26 |
[GO] |
Health Risk Analysis |
2022―Jan―19 |
On revealing risk groups regarding emotional burn-out syndrome among medical workers during the covid-19 pandemic |
T.A. Platonova, A.A. Golubkova, S.S. Smirnova, E.V. Dyachenko, K.V. Shahova, A.D. Nikitskaya |
27 |
[GO] |
Health Risk Analysis |
2022―Jan―19 |
Questioning the early events leading to the COVID-19 pandemic |
J. Reis, R. Frutos, A. Buguet, A. Le Faou, G. Sandner, G.C. Román, P.S. Spencer |
28 |
[GO] |
Health Risk Analysis |
2022―Jan―19 |
SCORE ESTIMATE OF COVID-19 RISKS AS PER SOCIO-HYGIENIC AND BEHAVIORAL INDICATORS |
T.S. Isiutina-Fedotkova, D.Yu. Kazieva, V.A. Sukhov, O.V. Mitrokhin |
29 |
[GO] |
Health Risk Analysis |
2022―Jan―14 |
On revealing risk groups regarding emotional burn-out syndrome among medical workers during the covid-19 pandemic |
T.A. Platonova, A.A. Golubkova, S.S. Smirnova, E.V. Dyachenko, K.V. Shahova, A.D. Nikitskaya |
30 |
[GO] |
Health Risk Analysis |
2022―Jan―14 |
Questioning the early events leading to the COVID-19 pandemic |
J. Reis, R. Frutos, A. Buguet, A. Le Faou, G. Sandner, G.C. Román, P.S. Spence |
31 |
[GO] |
Health Risk Analysis |
2022―Jan―14 |
Score estimate of covid-19 risks as per socio-hygienic and behavioral indicators |
T.S. Isiutina-Fedotkova, D.Yu. Kazieva, V.A. Sukhov, O.V. Mitrokhin |
32 |
[GO] |
Health Risk Analysis |
2021―Oct―19 |
EPIDEMIOLOGIC ASPECTS IN PREVENTION OF THE NEW CORONAVIRUS INFECTION (COVID-19): LITERATURE REVIEW |
T.M. Butaev, A.S. Tsirikhova, D.V. Kabaloeva, D.O. Kudukhova |
33 |
[GO] |
Health Risk Analysis |
2021―Oct―19 |
ON ESTIMATING THE ADDITIONAL INCIDENCE OF COVID-19 AMONG POPULATIONS EXPOSED TO POLLUTED AMBIENT AIR: METHODICAL APPROACHES AND SOME PRACTICAL RESULTS |
N.V. Zaitseva, I.V. May, J. Reis, P.S. Spenser, D.A. Kiryanov, M.R. Kamaltdinov |
34 |
[GO] |
Health Risk Analysis |
2021―Oct―19 |
ADHERENCE TO VACCINATION AND PERCEPTION OF COVID-19 RISK AMONG POPULAITON IN THE REPUBLIC OF BELARUS |
E.A. Hutsich, S.I. Sychyk, S.L. Itpayeva-Liudchyk |
35 |
[GO] |
Health Risk Analysis |
2021―Oct―19 |
THE RISK OF COVID-19 SEVERITY IN PATIENTS WITH MS APPEARS TO BE ASSOCIATED WITH IMMUNOTHERAPY |
E. Iacobaeus, I. Boström, Ch. Zhukovsky, Sh.G. Berntsson, A.-M. Landtblom |
36 |
[GO] |
Health Risk Analysis |
2021―Oct―18 |
EPIDEMIOLOGIC ASPECTS IN PREVENTION OF THE NEW CORONAVIRUS INFECTION (COVID-19): LITERATURE REVIEW |
T.M. Butaev, A.S. Tsirikhova, D.V. Kabaloeva, D.O. Kudukhova |
37 |
[GO] |
Health Risk Analysis |
2021―Oct―18 |
ON ESTIMATING THE ADDITIONAL INCIDENCE OF COVID-19 AMONG POPULATIONS EXPOSED TO POLLUTED AMBIENT AIR: METHODICAL APPROACHES AND SOME PRACTICAL RESULTS |
N.V. Zaitseva, I.V. May, J. Reis, P.S. Spenser, D.A. Kiryanov, M.R. Kamaltdinov |
38 |
[GO] |
Health Risk Analysis |
2021―Oct―18 |
ADHERENCE TO VACCINATION AND PERCEPTION OF COVID-19 RISK AMONG POPULAITON IN THE REPUBLIC OF BELARUS |
E.A. Hutsich, S.I. Sychyk, S.L. Itpayeva-Liudchyk |
39 |
[GO] |
Health Risk Analysis |
2021―Oct―18 |
THE RISK OF COVID-19 SEVERITY IN PATIENTS WITH MS APPEARS TO BE ASSOCIATED WITH IMMUNOTHERAPY |
E. Iacobaeus, I. Boström, Ch. Zhukovsky, Sh.G. Berntsson, A.-M. Landtblom |
40 |
[GO] |
Health Risk Analysis |
2021―Jul―30 |
Suicides during the COVID-19 pandemic: comparing frequencies in three population groups, 9.2 million people overall |
V.A. Rozanov, N.V. Semenova, Yu.G. Kamenshchikov, A.Ya. Vuks, V.V. Freize, L.V. Malyshko, et al. (+6) S.E. Zakharov, A.Yu. Kamenshchikov, V.D. Isakov, G.F. Krivda, O.D. Yagmurov, N.G. Neznanov |
41 |
[GO] |
Health Risk Analysis |
2021―Jul―30 |
COVID-19: neurological sequelae |
P.S. Spencer, G. Román, A. Buguet, A. Guekht, J. Reis |
42 |
[GO] |
Health Risk Analysis |
2021―Jul―29 |
Suicides during the COVID-19 pandemic: comparing frequencies in three population groups, 9.2 million people overall |
V.A. Rozanov, N.V. Semenova, Yu.G. Kamenshchikov, A.Ya. Vuks, V.V. Freize, L.V. Malyshko, et al. (+6) S.E. Zakharov, A.Yu. Kamenshchikov, V.D. Isakov, G.F. Krivda, O.D. Yagmurov, N.G. Neznanov |
43 |
[GO] |
Health Risk Analysis |
2021―Jul―29 |
COVID-19: neurological sequelae |
P.S. Spencer, G. Román, A. Buguet, A. Guekht, J. Reis |
44 |
[GO] |
Health Risk Analysis |
2021―May―03 |
Spatio-temporal modeling of COVID-19 epidemic |
V.L. Sokolovsky, G.B. Furman, D.A. Polyanskaya, E.G. Furman |
45 |
[GO] |
Health Risk Analysis |
2021―May―03 |
Approaches to analyzing efficiency of respiratory protective equipment as a way to reduce health risks during COVID-19 pandemic |
E.A. Shashina, T.S. Isiutina-Fedotkova, V.V. Makarova, O.A. Gruzdeva, O.V. Mitrokhin |
46 |
[GO] |
Health Risk Analysis |
2021―Apr―09 |
Spatio-temporal modeling of COVID-19 epidemic |
V.L. Sokolovsky, G.B. Furman, D.A. Polyanskaya, E.G. Furman |
47 |
[GO] |
Health Risk Analysis |
2021―Apr―09 |
Approaches to analyzing efficiency of respiratory protective equipment as a way to reduce health risks during COVID-19 pandemic |
E.A. Shashina, T.S. Isiutina-Fedotkova, V.V. Makarova, O.A. Gruzdeva, O.V. Mitrokhin |
48 |
[GO] |
Health Risk Analysis |
2021―Jan―08 |
Prevalence of behavioral risk factors that cause contagion with COVID-19 among population in belarus: results obtained via cross-sectional study |
S.I. Sychik |
49 |
[GO] |
Health Risk Analysis |
2021―Jan―08 |
COVID-19: well-known drugs, new opportunities |
A.Kh. Ashirmetov, I.R. Mavlyanov, Z.I. Mavlyanov, G.Zh. Zharylkasynova |
50 |
[GO] |
Health Risk Analysis |
2021―Jan―08 |
Dependence between mortality in regions and prevalence of active SARS-COV2 carriers and resources available to public healthcare organizations |
V.S. Stepanov |
51 |
[GO] |
Health Risk Analysis |
2021―Jan―05 |
Prevalence of behavioral risk factors that cause contagion with COVID-19 among population in belarus: results obtained via cross-sectional study |
S.I. Sychik |
52 |
[GO] |
Health Risk Analysis |
2021―Jan―05 |
COVID-19: well-known drugs, new opportunities |
A.Kh. Ashirmetov, I.R. Mavlyanov, Z.I. Mavlyanov, G.Zh. Zharylkasynova |
53 |
[GO] |
Health Risk Analysis |
2021―Jan―05 |
Dependence between mortality in regions and prevalence of active SARS-COV2 carriers and resources available to public healthcare organizations |
V.S. Stepanov |
54 |
[GO] |
Health Risk Analysis |
2020―Dec―03 |
Understanding the perception and hierarchy of risks: an environmental medico-scientific perspective with COVID-19 in mind |
J. Reis, N.V. Zaitseva, P.S. Spencer |
55 |
[GO] |
Health Risk Analysis |
2020―Oct―16 |
Understanding the perception and hierarchy of risks: an environmental medico-scientific perspective with COVID-19 in mind |
J. Reis, N.V. Zaitseva, P.S. Spencer |
56 |
[GO] |
Health Risk Analysis |
2020―Aug―10 |
Dynamics of local epidemic COVID-19 outbreak through the prism of compartment modeling |
V.F. Obesnyuk |
57 |
[GO] |
Health Risk Analysis |
2020―Jul―14 |
Dynamics of local epidemic COVID-19 outbreak through the prism of compartment modeling |
V.F. Obesnyuk |