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ISDS 2018 Conference Abstracts

Application of PCR for Surveillance of Natural Foci of 
Especial Dangerous Pathogens
Oksana Semenyshyn*, Oksana Velychko, Liliya Vasiunets, Lesya Hatsiy, Iryna Kulish 
and Oleh Kogut
laboratury of EDP, State Institution Lviv Oblast Laboratory Center of Ukraine of the Ministry of Health of Ukraine, Lviv, Ukraine

Objective
Study the advantages of using the PCR method for monitoring of 

natural foci within the EDP surveillance system.

Introduction
Natural foci of especially dangerous pathogens (EDP) (tularemia, 

leptospirosis, anthrax, tick-borne infections) are known in Lviv 
oblast for more than 50 years. An integral part of the epidemiological 
surveillance of these infections is the monitoring of environmental 
objects that can detect the circulation of pathogens in natural biotopes. 
Identification and studying of the activity of natural foci of EDP in 
the territory of Lviv oblast in previous years was conducted using 
classical laboratory and epidemiological methods

Methods
Since 2015 in the EDP laboratory are conducted investigations of 

field materials (mouse-like rodents, ixodic ticks, gray rats, surface 
water bodies, wild birds dungs, soil) during the monitoring process of 
the EDP natural foci. From 2015 to 2017 samples of field materials 
were investigated in order to identify specific DNA regions of 
causative agents of tularemia, anthrax, leptospirosis, Q-fever, Lyme 
borreliosis, etc., using the «Primer designTM genesig», «GENEKAM 
Biotechnology AG», «MO BIO Laboratories, Inc», «Analytic Jena 
AG» kits, which were provided within the Cooperative Biological 
Engagement Program (CBEP), and «Amplisens» kits. During this 
period samples were analyzed from 299 mouse-like rodents, 7325 
ixodic ticks, 128 open water reservoirs, 51 wild birds dung, 92 soil 
samples and 17 gray rats.

In addition, enzyme-linked immunosorbent assay (ELISA) was 
used. For immunoserological monitoring selected serum samples of 
80 people living in enzootic territories were used. Currently, 40 human 
samples were investigated for the presence of IgM and IgG antibodies 
using the “Serion ELISA classic Francisella tularensis IgG/IgM”.

Results
According to the results of the research that was conducted in 

previous years it was revealed that in the territory of Lviv oblast 
there are stable natural foci of tularemia, leptospirosis, tick-borne 
infections (Lyme borreliosis, tick-borne encephalitis) present. The 
main reservoirs of pathogens are 5-6 species of small mouse-like 
rodents and gray rats who are carriers of two dominant species of 
ixodic ticks. Live cultures of tularemia and leptospirosis were isolated 
from these types of reservoirs and carriers and positive results of 
immunoserological analysis were found. Tularemia antigen was 
detected in 29.2% of ticks samples (D. reticulatus mainly), causative 
agents of Lyme borreliosis D. reticulatus was detected in 17.3% of ticks 
and I.ricinusin was present in 8.0% of ticks. During the serological 
investigation of mouse-like rodents antibodies against F.tularensis 
were detected in 6.5% of samples, antibodies against leptospira 
in 6.7%, and antibodies against borrelia from 14.6% to 27.7%.

During the monitoring period of burial places of animals killed 
from anthrax on the territory of the oblast where classical laboratory 
methods were used, B.anthracis was not detected. However, due to the 

ability of the pathogen to maintain its pathogenic properties for a long 
time, monitoring of such areas will be relevant in the future.

According to analysis of mouse-like rodents, ticks, samples of 
surface water bodies, wild birds dung, soil and gray rats were received 
3.18% positive samples that confirmed the presence of F.tularensis, 
9.74% positive samples of pathogenic Leptospira spp, 20.75% 
positive samples of B. burgdorferi s.l.. Results of DNA detection 
of tularemia, leptospirosis and Lyme borreliosis were obtained on 
already known enzootic territories as well as on new ones. During the 
investigation of soil samples collected from burial places of animals, 
DNA of B.anthracis were not detected. Also, results of PCR-tested 
samples of ticks and rodents were negative and did not confirm the 
presence of C. burnetii. Based on data received from PCR analysis, 
anti-epidemic measures were carried out in places where positive 
results were found: additional acaricidal treatment of areas of ticks 
breeding, deratization measures and educational work with the 
population. The investigation of 40 serum samples collected from 
people living in the enzootic territory gave negative results, but the 
work continues.

Conclusions
PCR methodology provides a possibility to monitor the natural foci 

of EDP at a fundamentally new level. Its requires less time for getting 
results if compared to classical methods, the level of biorisks during 
the work is lower, and it is possible to conduct samples at the same 
time to detect several pathogens.

Keywords
epidemiological surveillance; natural foci; tularemia; leptospirosis; 
Lyme borreliosis

Acknowledgments
Authors would like to express their gratitude to the Biological Threat 
Reduction Program, Cooperative Biological Engagement Program 
(Defense Treat Reduction Agency, USA) for their support in conducting 
this research.

References
1. Practical Guide for Laboratory Diagnosis of Infectious Diseases,

Moscow, Meditsina Shiko Publishing House, 2009.
2. UCDCM Information Sheet as of 07/21/2010 No. 04.4-31/40/868 On

Epidemic and Epizootic Situation with Zoonotic Infections Common
for Humans and Animals (Tularemia, Anthrax, Brucellosis, Ornithosis,
Listeriosis) and Methods of their Prevention in Ukraine.

3. Methodical recommendations “Application of polymerase chain
reaction for the detection of pathogens of human infectious diseases”
- Kyiv, 2003 (approved by the Ministry of Health of Ukraine).

*Oksana Semenyshyn
E-mail: lab.oni.lviv@gmail.com

Online Journal of Public Health Informatics * ISSN 1947-2579 * http://ojphi.org * 10(1):e95, 2018