Dezdelo prodaja 

disinf-want
 
 
Disinfection affairs № 1 / 2018


CONTENTS


Life of National Organization of Disinfectionists (NOD)

pp. 7

Information report about rewards of NOD


pp. 8

Congratulation new members of NOD

 

DISINFECTION BUSINESS MANAGEMENT

pp. 8-12

N.V. Shestopalov1,3, I.A. Khrapunova1,2

1Scientific Research Disinfectology Institute of Federal Service in Supervision of Protection of Rights of Consumers and Prosperity of a Man: 18 Nauchniy proezd, Moscow, 117246, Russian Federation;
2Federal Budget Institution of Science "Central Research Institute of Epidemiology" of The Federal Service on Customers’ Rights Protection and Human Well-being Surveillance: 3а Novogireevskaya str., Moscow, 111123, Russian Federation;
3Russian Medical Academy of Postdegree Education: 2/1 Barrikadnaya str., Moscow, 125993, Russian Federation.

The need for additional professional education on disinfectology

Training system imposes new requirements on the qualifications of the professionals working in the field of the prevention of infectious diseases in the health, municipal, educational, industrial, shopping sites, as well as in the territory. New advances in medicine, microbiology, epidemiology, disinfectology, widespread sustainability microorganisms to disinfection means, changes of methodical approaches to the use of these funds, the emergence of new infectious diseases, the rapid growth of the normative base on disinfectology – all this causes the need for regular training in the field of disinfectology on an ongoing basis. Disinfectology Institute offers additional professional education and training in this field. Keywords: disinfectology, professional retraining, training, non-specific prevention, infectious disease, resistance.

AUTHORS
Shestopalov Nikolay Vladimirovich – Doctor of Medical Science, Professor; Director of Scientific Research Disinfectology Institute of Federal Service in Supervision of Protection of Rights of Consumers and Prosperity of a Man; Tel.: +7 (495) 332-01-01, e-mail:Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Khrapunova Izabella Aleksandrovna  – Doctor of Medical Science; Head of Scientific and Educational Department of Scientific Research Disinfectology Institute of Federal Service in Supervision of Protection of Rights of Consumers and Prosperity of a Man

 

DISINFECTION

pp. 13-17

D.N. Luchinin1, V.A. Spiridonov 1, E.A. Snatenkov1, K.A. Rotov1, D.V. Viktorov1,2

1Federal Government Health Institution "Volgograd Plague Control Research Institute" of the Federal Service for Surveillance in the Sphere of Consumers Rights Protection and Human Welfare: 7 Golubinskaya st., Volgograd, 400131, Russian Federation;
2Volgograd State Medical University: 1 Pavshikh Bortsov Square, Volgograd, 400131, Russian Federation.

The efficiency of new disinfectants for inactivation objects contaminated with agents of plague, tularemia and anthrax

The study evaluated the efficiency of five disinfectants ("Forex-chlor Disolid", "Forex-chlor Komplit", "Triosept-Endo", "Tetramin" and "Lizoformin 3000") for inactivation of agents of plague, tularemia and anthrax on test-surfaces (tile, ceramic, linoleum, painted wood, lining oilcloth, linen contaminated with excretions, dishes with leftover food, medical products from glass, plastic, rubber, silicone and metal). The study has shown that the all disinfectants have a high activity against the causative agents of plague and tularemia. However, only "Forex-chlor Disolid" and "Triosept-Endo" were effective against anthrax spores. Keywords: plague, tularemia, anthrax, spores, disinfectant, the efficiency of disinfection

AUTHORS
Luchinin Dmitrii Nikolaevich – Research Associate at the Biological Safety Laboratory of Federal Government Health Institution "Volgograd Plague Control Research Institute" of the Federal Service for Surveillance in the Sphere of Consumers Rights Protection and Human Welfare (VPCRI); Tel.: +7-(88442)-37-37-74, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Spiridonov Vladimir Aleksandrovich  – Candidate of Medical Sciences, Associate Professor, Senior Research Associate at the Biological Safety Laboratory of VPCRI
Snatenkov Evgenii Aleksandrovich – Candidate of Medical Sciences, Senior Research Associate at the Biological Safety Laboratory of VPCRI
Rotov Konstantin Aleksandrovich – Candidate of Medical Sciences, Associate Professor, Head of the Biological Safety Laboratory of VPCRI
Viktorov Dmitrii Viktorovich – Doctor of Biological Sciences, Associate Professor, Deputy Director for Scientific and Experimental Work of VPCRI; Professor at the Department for molecular biology and genetic of The Volgograd State Medical University

 

pp. 17-21

A.O. Ivanova, A.D. Merkulieva

Scientific Research Disinfectology Institute of Federal Service in Supervision of Protection of Rights of Consumers and Prosperity of a Man: 18 Nauchniy proezd, Moscow, 117246, Russian Federation

Disinfectants solutions quality control

Approaches to quality control of working solutions of disinfectants are considered. A criterion of a qualitative working solution is proposed. It is shown that chromatographic methods must be used to obtain reliable results of working solutions analysis. Express methods can only be used when they are included in the product application instruction. Keywords: disinfectant, disinfectants solutions, express methods.

AUTHORS
Ivanova Anna Olegovna – engineer of the chemical laboratory of the Sсiеntifiс Rеsеarсh Disinfесtology Institute; Tel.: (495) 332-01-24; e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Merkuleva Anna Dmitrievna – engineer of the chemical laboratory of the Sсiеntifiс Rеsеarсh Disinfесtology Institute

 

pp. 22-31

A.S. Tumanov1, K.I. Gurin1, I.P. Pogorelsky1, I.A. Lundovskikh2, S.G. Kalinin1, V.S. Lobastov1, E.V. Zheludkova1, A.V. Mironin1, K.E. Gavrilov1, A.S. Gorshkov1, G.A. Frolov3, G.M. Rychkov2

1Branch of the Federal State Budgetary Establishment "48 Central Scientific Research Institute" of the Ministry of Defense of the Russian Federation: 121 Oktyabr’sky Ave, Kirov, 610017, Russian Federation;
2Vyatka State University: 36 Moskovskaya St., Kirov, 610000, Russian Federation;
3National University of Science and Technology "MISIS" (MISIS): 4 Leninsky Ave, Moscow, 119991, Russian Federation.

Antibacterial activity of disinfecting composition dicchlor in experiments in vitro and in vivo at experimantal acinetobacteriosis

The results of theoretical and experimental substantiation of the possibility of creating a disinfecting composition that meets the requirements of high efficiency, safety with minimum exposure and concentration of ingredients are presented. The composition, called Dicchlor, includes an aqueous solution of Clorcept-25, an aqueous solution of cetylpyridinium chloride with iron oxide nanoparticles, dimethylsulfoxide. The high bactericidal and sporicidal activity of the Dicchlor composition is proved by the results of electron microscopy. The safety and protective efficacy of the Dicchlor composition is demonstrated in the experimental acinetobacteriosis of conventional white mice. Oral administration of bacteria Acinetobacter haemolyticus KR and the Dicchlor composition to test animals inhibits the development of acinetobacteriosis and the death of animals. Histological studies of organs of the control group of animals that died from acinetobacteriosis, indicate the presence of pronounced pathological changes and the absence of such changes in animals with arresting the development of the pathological process. A conclusion is done on the potentiating effect of iron oxide nanoparticles, which is manifested in the enhancement of the biocidal activity of the disinfectant composition Dicchlor, and the possibility of creating an effective and safe disinfecting composition that is appropriate in terms of its objectives, tasks and tactics for disinfection. Keywords: microorganisms, Acinetobacter, antibiotics, resistance, disinfectant.

AUTHORS
Tumanov Aleksandr Sergeevich – Candidate of Medical Science, Chief of the Research Center of "48 Central Scientific Research Institute" of the Ministry of Defense of the Russian Federation (RC 48 CSRI)
Gurin Konstantin Igorevich – Candidate of Medical Science, Deputy Chief of the Research Center of RC 48 CSRI, служеб. тел.: (8332) 64-18-13, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Pogorelskiy Ivan Petrovich – Doctor of Medical Science, Professor, Leading Researcher of RC 48 CSRI
Lundovskikh Irina Aleksandrovna – Candidate of Chemical Science, Associate Professor of Microbiology of Vyatka State University
Kalinin Stanislav Gennadevich – Junior Researcher of RC 48 CSRI
Lobastov Vladimir Sergeevich – Candidate of Technical Sciences, Senior Research Associate of RC 48 CSRI
Zheludkova Elena Vasilevna – Candidate of Biology Sciences, Junior Researcher of RC 48 CSRI
Mironin Aleksandr Viktorovich – Doctor of Medical Science, Professor, Leading Researcher of RC 48 CSRI
Gavrilov Konstantin Evgenevich – Candidate of Biology Sciences, Senior Research Associate of RC 48 CSRI
Gorshkov Anton Sergeevich – Candidate of Medical Science, Research Associate of RC 48 CSRI
Frolov Georgiy Aleksandrovich – Candidate of Chemical Science, Associate Professor of Physical Chemistry of National University of Science and Technology "MISiS"
Rychkov Georgiy Mikhaylovich – Bachelor of Department of Microbiology of Vyatka State University

 

pp. 31-37

N.V. Tsybulya1, T.D. Fershalova1, Yu.L. Yakimova2

1Central Siberian Botanical Garden of Siberian office of RAS: 101 Zolotodolinskaya str., Novosibirsk, 630090, Russian Federation;
2State Scientific Center of Virology and Biotechnology "Vector" of Federal Service in Supervision of Protection of Rights of Consumers and Prosperity of a Man: work settlement Koltsovo, Novosibirsk region, 630559, Russian Federation.

Role of medical and ecological phytodesign in the restoration of indoor air guality in children’s institutions

The results of practical implementation of the biological method of sanitation of indoor air – medical and ecological phytodesign, i.e. use of air improving properties of plants for decrease microbial air contamination are presented. The assortment of plants with high antimicrobial activity against microbial test objects was selected and the plants as phytomodules were tested in children’s institutions. During phytoncidal plants setting, general bacterial contamination of indoor air in children’s institutions decreased significantly. Reduction in the total bacteria count in indoor air was up to 50 % and in staphylococcus bacteria count – up to 70–80 %. Distinguishing features of this method are permanent effect of plants and multi-functionality (preventive and curative effects) in combination with ease, availability and money expenditure. Keywords: phytoncidal tropical plants, staphylococcus, air microflora, antimicrobic activity, volatile emissions, total bacterial count.

AUTHORS
Tsybulya Natalya Vladimirovna – Candidate of Science in Biology, Senior Research Associate of Laboratory of Phytochemistry of Central Siberian Botanical Garden, Associate Professor of Town Planning of Novosibirsk State University of Architecture, Design and Arts; служеб. тел. (382) 3399812, е-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Fershalova Tatyana Dmitrievna – Candidate of Science in Biology, Research Associate of Group of Landscape Architecture and Phytodesign of Central Siberian Botanical Garden, Associate Professor of Cartography and Geoinformatics of The Siberian State University of Geosystems and Technologies
Yakimova Yuliya Leonidovna – Senior Research Associate of Department of Biological and Technological Control of State Scientific Center of Virology and Biotechnology "Vector"

 

DISINSECTION

pp. 37-45

E.N. Bogdanova1,2

1I.M. Sechenov First Moscow State Medical University: 5a Maly Kazenny Lane, Moscow, 105064, Russian Federation;2Institute of Professional Education: 5 building 3 Vavilova str., Moscow, 119334, Russian Federation.

Modern problems of medical disinsection

The article is prepared on the basis of the report which was heard at a scientific and practical conference in Sochi on September 7–8, 2017. Modern actual problems facing the medical disinsection in the whole world and in our country are reviewed. Causes for appearance of these problems are analyzed and ways for their solving, both used in foreign countries and specific for disinsection measures in the Russian Federation, are proposed.
Key words: arthropods, synanthropization, invasive species, resistance, insecticides, acaricides.

AUTHORS
Bogdanova Elena Nikolayevna – Grand PhD in biological sciences, Professor of Epidemiology Chair of the I.M. Sechenov First Moscow State Medical University; Professor of Epidemiology Chair of the Institute of Professional Education; Tel.: (495) 916-22-03, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.

 

pp. 45-56

S.A. Roslavtseva, M.A. Alekseev

Scientific Research Disinfectology Institute of Federal Service in Supervision of Protection of Rights of Consumers and Prosperity of a Man: 18 Nauchniy proezd, Moscow, 117246, Russian Federation

Use of formulations based on Bacillus thuringiensis israelensis for control of mosquitoes and midges

The possibility and advisability of using microbiologic domestic larvicides based on entomopathogenic bacterium Bacillus thuringiensis israelensis (Bti) are reviewed since resistance of mosquitoes and midges to this active ingredient has not developed yet. This fact has been confirmed by 30-year use of Bti-based formulations. There are mosquito populations resistant to formulations based on Bacillus sphaericus. Keywords: mosquitoes, midges, larvicides, entomopathogenic bacteria, Bacillus thuringiensis israelensis, Bacillus sphaericus, resistanсe.

AUTHORS
Roslavtseva Svetala Aleksandrovna – Doctor of Science in Biology, Professor; Head of Scientific Bacisc and Deratization Department of Scientific Research Disinfectology Institute; tel.: (495) 332-01-76, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Alekseev Mikhail Anatol’evich – Candidat of Biological Sciences, Head of Insectary, Senior Research Associate of Scientific Research Disinfectology Institute

 

pp. 56-60

A.A. Androsov1,2, A.S. Dovgalev1, T.V. Gololobova1,3

1Russian Medical Academy Continuous Professional Education of the Russian Ministry of Health: 19/38, Belomorskaya str., Moscow, 125445, Russian Federation;
2"Vostochniy Grot" LLC: 19 Krasnokazarmennaya str., Moscow, 111116, Russian Federation;
3Scientific Research Disinfectology Institute of Federal Service for Surveillance on Consumer Rights Protection and Human Well-being: 18 Nauchniy proezd, Moscow, 117246, Russian Federation.

Topical issues of the organization and carrying out antimosquito processings in the urbanized territories on the example of Moscow

For the purpose of improvement of the organization and carrying out antimosquito processings it is necessary to carry out on the basis of results of sanitary and epidemiologic and entomological inspections a complex of actions, including implementation of objective control of a sanitary condition of reservoirs and entomological researches of water of reservoirs. Low level of training of specialists of the organizations of a disinfection profile, and in some cases – the absence of such experts (entomologists, doctors of disinfectology) in the organization – is led to violations of technology and non-compliance with techniques of carrying out by the larvicidal of processings. The requirements stated in documentation of the customer of works on processing of reservoirs against larvae of blood-sicking mosquitoes often contradict the existing methodical documents and are incomparable to real conditions in which it is necessary to carry out this type of works. Keywords: organization and carrying out antimosquito and larvicidal of processings, sanitary and epidemiologic inspection, entomological inspection, preventive actions, control of efficiency, specification of the tender documentation.

AUTHORS
Androsov Andrey Anatolevich – Candidate of Medical Science, Associate Professor of the Department of Tropical, Parasitic Diseases and Disinfection Affairs of Russian Medical Academy Continuous Professional Education; служеб. тел. (916) 912-60-09, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Dovgalev Anatoliy Semenovich – Doctor of Medical Science, Professor, Head of the Department of Tropical, Parasitic Diseases and Disinfection Affairs of Russian Medical Academy Continuous Professional Education
Gololobova Tatyana Viktorovna – Doctor of Medical Science, Director Deputy of Scientific Research Disinfectology Institute, Professor of the Department of Tropical, Parasitic Diseases and Disinfection Affairs of Russian Medical Academy Continuous Professional Education

 

pp. 60-66

N.V. Shestopalov, N.I. Shashina, O.M. Germant, M.B. Akhmetshina, N.D. Pakskina, V.A. Tsarenko, E.V. Verigina, L.S. Boyko

Natural and focal infections, which agents are passed by ixodic ticks, and their nonspecific preventive measures in the Russian Federation (according to 01.01.2018)

 

DOCUMENTS

pp. 67-70

List of the disinfection, disinsection, deratisation means, registered in September – December 2017

 

OBITUARY

p. 71

Sokolova N.F. (1923–2018)

 

INFORMATION

pp. 71-72

Curriculum of department of epidemiology of Institute of professional education of I.M. Sechenov First Moscow State Medical University

 

pp. 73-76

List of materials published in magazine "Disinfection Affairs" in 2017

 

p. 78

Subscription of journal "Disinfection Affairs" in 2018 76