Dezdelo prodaja 

disinf-want
 
 
Disinfection affairs № 3 / 2017


CONTENTS


Life of National Organization of Disinfectionists (NOD)

p. 7
Congratulation new members of NOD

pp. 7-8
Resolurion of scientific and practical conference and General meeting NOD' members (September 7-8, 2017, Sochi)

 

DISINFECTION

pp. 9-18

N.B. Roganova1, R.L. Guterman1, A.I. Komarova1, V.N. Gerasimov2, N.V. Kiseleva2, E.V. Bystrova2, Yu.V. Gerasimova2, S.A. Kotov2

1LLC "MK VITA-PUL": 16-1 Vyborgskaya str., Moscow, 125212, Russian Federation;

2Government Research Centre of Biotechnology and Applied Microbiology: Settlement Obolensk in Serpukhov district, Moscow region, 142279, Russian Federation.

Сhanges of ultrastructure of cells of Escherichia coli and Pseudomonas aeruginosa at disinfectant influence on the basis of composition of salt of the alkyldiamine and quaternary ammonium compound

Antimicrobial activity comparative studies of a disinfectant containing alkyldyamine acetate (5,5 %) and alkyldimetylbenzylammonium chloride (5,0 %) in respects to the test cultures Escherichia coli K-12 and Pseudomonas aeruginosa ATCC 10145 by microbiological, physicochemical and submicroscopic methods. It’s been determined that the disinfectant’s activity mechanism is linked to bacteria cytoplasmatic membrane penetration of the product. E. coli K-12 destruction starts in 15 minutes after treatment with the disinfectant (working solution 0,05 %). Cells viability depression is registered in 45 minutes after beginning of the exposition (microbiological method), whereas the culture complete lysing takes place in 60 minutes (physicochemical method) and total absence of intact cells is recorded in 60 ÷120 minutes (submicroscopic study). P. aeruginosa ATCC 10145 shows more resistance to the disinfectant. It’s recorded that the culture succumbs to 0,3 % disinfectant solution treatment in 45 minutes. Bacteria suspension being treated during 15÷60 minutes detects 63÷1 % of intact cells. Destructive and injuring effect with 100 % of cells is observed at 120 minutes exposition. These results allow to develop in-doors surface disinfection regimens against bacterial infections (except T.B.): disinfectant working solution 0,075÷0,5 %, exposition 60÷5 minutes depending on the concentration.
Key words: disinfectant; microbiological, physicochemical, submicroscopic methods; cells metastructure, disinfection regimens.

AUTHORS
Roganova Natalya Borisovna – Candidate of Chemistry Science, Chief Chemist Expert of LLC "MK VITA-PUL"; служеб. тел.: (495) 514-19-07, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Komarova Aleksandra Igorevna – Leading Chemist Expert of LLC "MK VITA-PUL"
Guterman Raisa Lazarevna – Candidate of Medical Science, научный консультант of LLC "MK VITA-PUL"
Gerasimov Vladimir Nikolaevich – Doctor of Science in Biology, Head of Department of Disinfectology of Government Research Centre of Biotechnology and Applied Microbiology
Kiseleva Nataliya Vladimirovna – Candidate of Chemistry Science, ведущий инженер of Government Research Centre of Biotechnology and Applied Microbiology
Bystrova Elena Vladimirovna – Research Associate of Government Research Centre of Biotechnology and Applied Microbiology
Gerasimova Yuliya Vladimirovna – Engineer of 2th Categories of Government Research Centre of Biotechnology and Applied Microbiology
Kotov Sergey Anatolevich – Engineer of 2th Categories of Government Research Centre of Biotechnology and Applied Microbiology

 

DISINSECTION

pp. 18-28

M.N. Kostina

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.

Insect growth regulators are effective larvicides in the control of mosquito vectors of arboviruses – causative agents of various fevers

This review presents the analysis of foreign scientific articles focused on the studies and practical use of formulations based on compounds having hormonal activity (IGRs) as larvicides in the control of mosquito vectors of arboviruses that are causative agents of different fevers. Also results of our experiments on the evaluation of most frequently used compounds from this group in different formulations and recommendations for their practical use are shown.
Key words: synthetic analogues of juvenile hormone, chitin synthesis inhibitors, methoprene, pyriproxyfen, diflubenzuron, triflumuron, novaluron, mosquitoes, larvicides.

AUTHORS
Kostina Marina Nikolaevna – Doctor of Science in Biology; Head of Biogenous Insecticide Laboratory in Scientific Research Disinfectology Institute; tel.: (495) 332-01-47, e-mail:Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.

 

pp. 25-33

S.A. Roslavtseva1, A.I. Zhulev2, D.O. Sokolov2, V.S. Smirnov2, A.I. Pozdnyakov2, I.S. Gevorkyan1

1Scientific Research Disinfectology Institute of Federal Service for Surveillance on Consumer Rights Protection and Human Well-being: 18 Nauchniy proezd, Moscow, 117246, Russian Federation;

2LLC "Gigiyena plus": 111B Mayakovskogo str., Anapa, 353440, Russian Federation.

Use of the unmanned aerial vehicle "ODONATA AGRO" in medical disinsection

In is shown that the use of avia using unmanned aerial vehicle "Odonatа Agro" is extremely effective in Krasnodar region for controlling mosquito larvaes of the geneus Aedes, Culex and Anopheles and controlling Ixodes ricinus . with insektoakaricidе Medilis-ciper. Key word: treatments, unmanned aerial vehicle, larvicides, Medilis-ciper, mosquitoes, ticks.

AUTHORS
Roslavtseva Svetlana Aleksandrovna – Doctor of Science in Biology, Professor; Head of Laboratory of Problems of Disinsection of SRDI; Tel.: (495) 332-01-76, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Zhulev Anatoliy Ivanovich – Director of "Gigiyena plus"
Sokolov Dmitriy Olegovich – Disinfectologist of "Gigiyena plus"
Smirnov Viktor Sergeevich – Engineer-Operator of the Unmanned Aerial Vehicle of "Gigiyena plus"
Pozdnyakov Aleksandr Igorevich – Instructor-Disinfector of "Gigiyena plus"
Gevorkyan Irina Sergeevna – Junior Researcher of Laboratory of Problems of Disinsection of SRDI

 

DERATIZATION

pp. 33-40

 D.Yu. Mokhirev1, S.V. Ryabov1, A.V. Limantsev1, A.I. Sapozhnikova2

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 state-funded educational institution of the higher education "The Moscow state academy of veterinary medicine and biotechnology – MVA of K.I. Scryabin": Academician Scriabin str., Moscow, 109472, Russian Federation.

The use of ultrasonic emitters in the system of deratization measures: analysis and problems

On the basis of analysis of national and foreign literature, a problem related to quality and evaluation of repellent action of ultrasonic emitters to rodents has appeared. Despite advertising of these devices, their target effectiveness does not always answer to expectations of consumers and specialists who are professionally engaged in disinfection activity. This is due to the fact that the outcome of ultrasonic repellent effect on rodents is still evaluated only by technical parameters – frequency (kHz) and sound power (dB) of ultrasonic emitters. Herewith these devices do not pass professional biological testing in accredited laboratories and have no documents confirming their repellent activity against rodents. The disadvantage of this approach is obvious, because it is not possible to confirm the effectiveness of the repellent effect of these devices against rodents objectively and to determine the regimes and ways of their rational use. In turn, the development of methods and criteria for evaluating the effectiveness of ultrasonic deratization emitters and also their modes and technologies of application will actually solve not only the problem under study. Efficient devices can be used in places of detection of rodents resistant to rodenticides, as well as to optimize the protective and preventive technical measures of deratization.
Key words: ultrasonic deratization emitters, protective deratization system (PDS), preventive deratization, rodent control, consumer quality of products.

AUTHORS
Mokhirev Denis Yurevich – Junior Researcher of the Laboratory of Deratization Problems of the Scientific Research Disinfectology Institute of Rospotrebnadzor; Tel.: (985) 432-64-80, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Ryabov Sergey Vasilevich – PhD in Biological Sciences, Head of the Laboratory of Deratization Problems of the Scientific Research Disinfectology Institute of Rospotrebnadzor
Limantsev Anatoliy Vladimirovich – PhD in Biological Sciences, Leading Researcher of the Laboratory of Toxicology of Disinfection Agents of the Scientific Research Disinfectology Institute of Rospotrebnadzor
Sapozhnikova Alla Ionovna – Grand PhD in Technical Sciences, Professor, Head of S.A. Kasparyanz Department of Commodity Research of the Technology of Raw Materials and Products of Animal and Vegetable Origin of the Moscow State Academy of Veterinary Medicine and Biotechnology named after K.I. Skryabin

 

pp. 40-46

A.V. Limantsev1, D.Yu. Mokhirev1, S.V. Ryabov1, M.V. Bidevkina1, A.I. Sapozhnikova2

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 state-funded educational institution of the higher education "The Moscow state academy of veterinary medicine and biotechnology – MVA of K.I. Scryabin": 23 Academician Scriabin str., Moscow, 109472, Russian Federation.

The method of assessment of impact of ultrasonic emitters for rodent control on rats

The method of assessment of impact of ultrasonic emitters for rodent control on laboratory rats by means of graphic registration of their external respiration is offered. During the experiments it was shown that respiratory rhythm and respiration rate of laboratory rats were changed at impact on them of ultrasound of different intensity. The minimum level of ultrasonic influence at which the first changes of parameters of respiration appeared was used as criterion of sensitivity of rats to ultrasound. The study on respiration indexes of rats and features of their change in the zone of ultrasonic radiation of different intensity significantly expands the scientific and methodical base for assessment of target effectiveness of ultrasonic emitters for rodent control.
Key words: white rats, ultrasound, ultrasonic emitters for rodent control, sensibility.

AUTHORS
Limantsev Anatoliy Vladimirovich – PhD in Biological Sciences, Leading Researcher of the Laboratory of Toxicology of Disinfection Agents of the Scientific Research Disinfectology Institute of Rospotrebnadzor; Tel.: (495) 332-01-25, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Mokhirev Denis Yurevich – Junior Researcher of the Laboratory of Deratization Problems of the Scientific Research Disinfectology Institute of Rospotrebnadzor
Ryabov Sergey Vasilevich – PhD in Biological Sciences, Head of the Laboratory of Deratization Problems of the Scientific Research Disinfectology Institute of Rospotrebnadzor
Bidevkina MarinaVasilevna – Сandidate of Medical Sciences, Head of the Laboratory of Toxicology of Disinfectants of SRDI
Sapozhnikova Alla Ionovna – Grand PhD in Technical Sciences, Professor, Head of S.A. Kasparyanz Department of Commodity Research of the Technology of Raw Materials and Products of Animal and Vegetable Origin of the Moscow State Academy of Veterinary Medicine and Biotechnology named after K.I. Skryabin

 

pp. 46-59

V.A. Korzikov1, O.L. Vasileva1, L.V. Ovsyannikova1, O.N. Vinnikova1, O.L. Silaeva2

1Federal Hygienic and Epidemiological Center in Kaluga Region of Rospotrebnadzor: 181 Barrikad str., Kaluga, 248018, Russian Federation;

2Severtsov Institute of Ecology and Evolution: 33 Leninsky prospekt, Moscow, 119071, Russian Federation.

Small mammals’ population structure and their epizootic value in open grassland habitats in the south of central non-black earth region and surroundings in 1993–2016

This paper analyzes the data of monitoring carried out by zoologists of Sanitary and Epidemiological Service in Kaluga region for three geographic provinces. The population of small mammals consisted of Rodents (Rodentia) and Insectivores (Eulipotyphla) inhabiting open and wooded habitats. Dominant mammals in all provinces were common voles (Microtus) and striped field mouse (Apodemus agrarius). The highest percentage of common voles was found in Smolensk-Moscow and Dniepr-Desna provinces, the highest percentage of striped field mouse was in Central Russian Upland. High percentages of small mammals belonged everywhere to small pygmy wood mouse (Sylvaemus uralensis Pallas, 1811), common bank vole (Myodes glareolus Shreber, 1780) and common shrews (Sorex). These small mammals can participate in epizootic process of such dangerous to human zoonotic infections as tularemia, leptospirosis and hemorrhagic fever with renal syndrome caused by Dobrava and Puumala Hantaviruses. Against the background of arable lands colonization by tree vegetation, the monito­ring of populations of small mammals become especially significant to medical zoologists of Sanitary and Epidemiological Service.
Key words: grassland habitats, small mammals, percentage, epizootic investigation, planning, prophylactics, Hantaviruses, natural focal infectious diseases, Hantavirus hemorrhagic fever with renal syndrome, tularemia, leptospirosis, common voles, striped field mouse.

AUTHORS
Korzikov Vjacheslav Aleksandrovich – Candidate of Science in Biology, Zoologist Federal Hygienic and Epidemiological Center in Kaluga Region of Rospotrebnadzor; Tel.: +7 (4842) 72-05-49, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Vasileva Olga Leonidovna – Entomologist of Federal Hygienic and Epidemiological Center in Kaluga Region of Rospotrebnadzor
Ovsyannikova Lyudmila Viktorovna – Chief Doctor of Federal Hygienic and Epidemiological Center in Kaluga Region of Rospotrebnadzor
Vinnikova Olga Nikolaevna – Head of Laboratory of department Federal Hygienic and Epidemiological Center in Kaluga Region of Rospotrebnadzor
Silaeva Olga Leonidovna – Doctor of Science in Biology, Head of Laboratory in Severtsov-Institute of Ecology and Evolution.

 

EPIDEMIOLOGY

pp. 59-66

A.G. Dragomeretskaya1, T.V. Mzhelskaya1, O.E. Trotsenko1, T.A. Zaitseva1,2, O.P. Kurganova3, D.V. Maslov4, P.V. Kopilov5, O.A. Funtusova6, T.N. Karavyanskaya1,2

1FBIS "Khabarovsk research institute of epidemiology and microbiology" of Federal service for surveillance on customer rights protection and human wellbeing (Rospotrebnadzor): 2 Shevchenko str., Khabarovsk, 680000, Russian Federation;

2Administration of Federal service for surveillance on customer rights protection and human wellbeing (Rospotrebnadzor) in the Khabarovsk region: 109b Karl-Marks str., Khabarovsk, 680009, Russian Federation;

3Administration of Federal service for surveillance on customer rights protection and human wellbeing (Rospotrebnadzor) in the Amur region: 30 Pervomaiskaya str., Blagoveshchensk, 675002, Russian Federation;

4Administration of Federal service for surveillance on customer rights protection and human wellbeing (Rospotrebnadzor) in the Primorskiy region: 3 Selskaya str., Vladivostok, 690095, Russian Federation;

5Administration of Federal service for surveillance on customer rights protection and human wellbeing (Rospotrebnadzor) in the Jewish autonomous region: 17 Sholom-Aleikhem str., Birobidzhan, 679016, Russian Federation;

6Administration of Federal service for surveillance on customer rights protection and human wellbeing (Rospotrebnadzor) in the Sakhalin region: 30a, Chekhov str., Yuzhno-Sakhalinsk, 693020, Russian Federation.

On tick-borne encephalitis and ixodic tick-borne borreliosis Analysis of epidemiological situation in constituent territories of the Far Eastern Federal District during 2012–2016

The article presents retrospective analysis of epidemiologic situation on tick-borne encephalitis and ixodic tick-borne borreliosis in constituent territories of the Far Eastern Federal District during 2012–2016. Data on incidence of the mentioned diseases, outpatient visits due to tick bites, ticks’ infection rate, as well as measures of specific prophylaxis against tick-borne encephalitis and range of acaricide poisoning treatment of grounds are presented.
Key words: incidence, tick-borne encephalitis, ixodic tick-borne borreliosism ixodic ticks, acaricide poisoning treatment.

AUTHORS
Dragomeretskaya Anna Gennadevna – Candidate of Science in Biology, Head of Department of Natural and Focal Infections of Khabarovsk Research Institute of Epidemiology and Microbiology; Tеl.: (4212) 46-18-62, e-mail: Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Mzhelskaya Tamara Vladimirovna – Candidate of Medical Science, Head of Laboratory of Tick-Borne Encephalitis and Other Natural and Focal Infections of Khabarovsk Research Institute of Epidemiology and Microbiology
Trotsenko Olga Evgenevna – Doctor of Medical Science, Director of Khabarovsk Research Institute of Epidemiology and Microbiology
Zaytseva Tatyana Anatolevna – Head of Administration of Rospotrebnadzor in the Khabarovsk Region
Kurganova Olga Petrovna – Candidate of Medical Science, Head of Administration of Rospotrebnadzor in the Amur Region
Maslov Dmitriy Valentinovich – Head of Administration of Rospotrebnadzor in the Primorskiy Region
Kopylov Pavel Viktorovich – Head of Administration of Rospotrebnadzor in the Jewish Autonomous Region
Funtusova Olga Alekseevna – Head of Administration of Rospotrebnadzor in the Sakhalin Region
Karavyanskaya Tatyana Nikolaevna – Head of Department of Epidemiological Surveillance of Administration of Rospotrebnadzor in the Khabarovsk Region

 

DOCUMENTS

pp. 66-69

List of the disinfection, disinsection, deratisation means, registered in June – August 2017

 

OUR CONGRATULATIONS

p. 70

S.A. Roslavtseva (to her 85th anniversary)

 

INFORMATION

pp. 71-73

O.Yu. Eremina, M.A. Alekseev

IX International conference on city wreckers of ICUP 2017

 

pp. 73-74

O.Yu. Eremina, M.A. Alekseev

About the XV congress of the Russian entomological society

 

pp. 74-75

About carrying out professional retraining on specialties "Disinfectology"

 

p. 75

About carrying out vocational education on specialties "Disinfector", "Medical Disinfector"