A Rare Human Helminth Infection in Russia

Currently, more than 500,000 cases of various helminthes in humans are reported annually in the Russian Federation. This figure may not reflect the true incidence of helminthes, as only nine separate nosological forms are compulsory notifiable. The rest of the species of detected helminthes are included in a separate category of "other helminthes" or "rare helminthes". The bulk of the latter is represented by the helminthes with a rate of incidence that does not exceed one case per 100,000 people. This review is based on data derived from publications in the Russian language, both from the Russian Federation and international, as well as data available from various health treatment facilities in Russia. These data largely cover the period of the 1990s-2010s. A total of 15 species of "rare helminthes" are described in this review: anisakiosis, capillariosis, clonorchosis, dioctophymosis, dipylidiosis, echinochasmosis, fasciolosis, gastrodiscoidosis (amphistomiosis), metagonimosis, metorchiosis, nanophyetosis, pseudamphistomosis, sparganosis (spirometrosis), strongyloidosis and trichostrongylosis. Details of their geographical distribution, clinical and epidemiological peculiarities, and the difficulties they pose in diagnosis are provided. The public health importance of "rare helminthes" in Russia at present and in the forthcoming years is stressed.

Global Climate Change and Human Dirofilariasis in Russia

Human dirofilariasis is a vector-borne helminth disease caused by two species of Dirofilaria: D. repens and D. immitis. The vectors of the helminth are mosquitoes in the family Culicidae. The definitive hosts of Dirofilaria are dogs and, to a lesser extent, cats. Humans are accidental hosts. Dirofilariasis has been reported in the territory of Russia since 1915. Sporadic cases of the disease have been reported occasionally, but the number of cases showed a distinct increasing trend in the late 1980s–early 1990s, when the number of cases reached several hundred in the southern territories of Russia, with geographic coordinates of 43° N–45° N. A comparison of the timing of the global trend of climate warming during the 1990s with the temporal pattern of the incidence of dirofilariasis in the territory of Russia indicated a close association between the two phenomena. At present, the northern range of Dirofilaria includes latitudes higher than 58° in both the European and Asian parts of the country. The phenomenon of climate warming in the territory of Russia has shaped the contemporary epidemiology of the disease. The emerging public health problem of dirofilariasis in Russia warrants the establishment of a comprehensive epidemiological monitoring system.

Toxoplasmosis and mental disorders in the Russian Federation (with special reference to schizophrenia)

The association of latent toxoplasmosis with mental disorders in general and with schizophrenia in particular was noticed in the mid-1950s. In subsequent years, the role of Toxoplasma gondii was established based on its ability to survive for long periods of time in the nerve cells of the brain. The acute manifestations of the infection include psychopathic symptoms resembling those of schizophrenia. In the former USSR, and in other parts of the world, a number of studies were performed with respect to the association of latent toxoplasmosis and schizophrenia. However, with the dissolution of the USSR at the beginning of the 1990s, studies on the subject were halted due to financial problems and have resumed only recently. The reasons for the resumption of such studies in contemporary Russia are related to the progressively increasing incidence of schizophrenia over the last 25-30 years in the country. According to official data, approximately 550 000 persons reported suffering from the disease in 2014. There are reasons to believe that this is only a fraction of the real burden of the disease. Economically, it cost the state no less than approximately US $10 billion. The purpose of the study was to identify the level of toxoplasmosis seroprevalence in patients with verified diagnoses of schizophrenia in comparison to healthy people in Moscow City and in the Moscow region. A total of 155 persons constituted the patients group and 152 healthy people were in the control group. An integrated approach to the diagnosis and comparison of data from the entire spectrum of serological markers of infection was used, including the detection of specific IgM and the determination of IgG concentrations. It was found that among persons with neuropsychiatric disorders, the incidence of cases with latent toxoplasmosis was higher than in the control group. The effect of toxoplasmosis was significant and similar for men and women. Further statistical analyses revealed that among patients with a diagnosis of schizophrenia, the incidence of latent toxoplasmosis was significantly higher than in the control group. These data are in agreement with the results of similar studies in other countries.

Role of malaria partners in malaria elimination in Armenia

Malaria control and preventive activities in the countries of the World Health Organization Region for Europe (WHO/EUR) were strengthened within the framework of the Regional Roll Back Malaria strategy adopted by the member-states at the beginning of the 2000s. A political document "From control to malaria elimination" known as the "Tashkent Declaration" was unanimously endorsed by the member-states of the WHO/EUR with malaria problems in 2005. Since then, considerable progress has been achieved in the countries of the region, signified by the dramatic reduction of malaria incidence in conjunction with the prevention of re-establishment of infection on the territories where malaria was eliminated earlier. Several countries of the region had been certified by the WHO as free of local malaria transmission as a result of the activities of their National Malaria Elimination Programme, Armenia being one of the first in 2011. One of the main lessons learnt during the implementation of the activities by the National Malaria Elimination Programme in Armenia was that the development of an operational plan for malaria elimination required a comprehensive national effort. Full support, both political and financial, from the highest levels of government to smooth coordination between different government ministries, such as Agriculture, Defense, Finance, Health and Policy and Planning and others, was a prerequisite for operational success. The role and place of various partners in the achievement of malaria elimination in the country is discussed in this review.

On the epidemiology of Plasmodium vivax malaria: past and present with special reference to the former USSR

Presently, many malaria-endemic countries in the world are transitioning towards malaria elimination. Out of the 105 countries with ongoing malaria transmission, 10 countries are classified as being in the pre-elimination phase of malaria control, and 9 countries are in the malaria elimination stage, whereas 7 countries are classified as being in the prevention of introduction phase. Between 2000 and 2015, 17 countries eliminated malaria (i.e., attained zero indigenous cases for 3 years or more). Seven countries were certified by the WHO as having successfully eliminated malaria. The purpose of this review was to analyse the epidemiological characteristics of vivax malaria during the various stages of malaria eradication (elimination) programmes in different countries in the past and present. Experiences of the republics of the former USSR with malaria are interesting, particularly since the data overwhelmingly were published in Russian and might not be known to western readers. Among the most important characteristics of Plasmodium vivax epidemiology at present are changes in the ratio of the short-incubation P. vivax to long-incubation P. vivax, the incidence of severe P. vivax cases, the increased numbers of asymptomatic P. vivax cases, the reduced response to anti-malarials and a few others. Various factors contributing towards the peculiarities of P. vivax epidemiology are discussed.

Significance of chronic toxoplasmosis in epidemiology of road traffic accidents in Russian Federation

Studies carried out in Moscow residents have revealed that the prevalence of chronic toxoplasmosis is very close to those in countries of Eastern and Central Europe. Our findings also demonstrated a statistically significant relationship between the rate of traffic accidents and the seroprevalence of chronic toxoplasmosis in drivers who were held responsible for accidents. The latter was 2.37 times higher in drivers who were involved in road accidents compared with control groups. These results suggest that the consequences of chronic toxoplasmosis (particularly a slower reaction time and decreased concentration) might contribute to the peculiarities of the epidemiology of road traffic accidents in the Russian Federation and might interfere with the successful implementation of the Federal Programme named "Increase road traffic safety". Suggestions for how to address overcome this problem are discussed in this paper.

Elimination of Plasmodium falciparum malaria in Tajikistan

Malaria was eliminated in Tajikistan by the beginning of the 1960s. However, sporadic introduced cases of malaria occurred subsequently probably as a result of transmission from infected mosquito Anopheles flying over river the Punj from the border areas of Afghanistan. During the 1970s and 1980s local outbreaks of malaria were reported in the southern districts bordering Afghanistan. The malaria situation dramatically changed during the 1990s following armed conflict and civil unrest in the newly independent Tajikistan, which paralyzed health services including the malaria control activities and a large-scale malaria epidemic occurred with more than 400,000 malaria cases. The malaria epidemic was contained by 1999 as a result of considerable financial input from the Government and the international community. Although Plasmodium falciparum constituted only about 5% of total malaria cases, reduction of its incidence was slower than that of Plasmodium vivax. To prevent increase in P. falciparum malaria both in terms of incidence and territory, a P. falciparum elimination programme in the Republic was launched in 200, jointly supported by the Government and the Global Fund for control of AIDS, tuberculosis and malaria. The main activities included the use of pyrethroids for the IRS with determined periodicity, deployment of mosquito nets, impregnated with insecticides, use of larvivorous fishes as a biological larvicide, implementation of small-scale environmental management, and use of personal protection methods by population under malaria risk. The malaria surveillance system was strengthened by the use of ACD, PCD, RCD and selective use of mass blood surveys. All detected cases were timely epidemiologically investigated and treated based on the results of laboratory diagnosis. As a result, by 2009, P. falciparum malaria was eliminated from all of Tajikistan, one year ahead of the originally targeted date. Elimination of P. falciparum also contributed towards speedy reduction of P. vivax incidence in Tajikistan.

[(HUMAN DIROFILARIASIS: CLINICAL DIAGNOSTIC FEATURES ASSOCIATED WITH DIFFERENT DEVELOPMENTAL STAGES OF THE PATHOGEN)]

To seek medical advice is due to the time when a person has become infected during the infection transmission season (July-August) and the duration of development of the pathogen Dirofilaria (N.) repens in his/her body Clinical manifes- tations occurred in 61% of the patients 6-10 months after infection, as confirmed by the maximum body sizes (125-160 mm) of removed females which have reached puberty. PCR-based diagnosis in conjunction with microscopic studies improves the efficiency of identifying the patients and the species of the pathogens D.repens and D.immitis. The use of these methods for the first time in 2016 could confirm D.immitis infestation in a 14-month-old infant living in the Solnechnogorsk District, Moscow Region.

[(INDUCED MALARIA)]

Induced malaria continues to be one of the most pressing public health problems in malaria-endemic countries. Ma- laria parasites remain viable in stored blood at a temperature of 2-6°C for 3 weeks. The paper presents current problems associated with transfusion-induced malaria. In the USSR and then in the Russian Federation, sporadic cases of induced malaria (Plasniodium vivax, P.malariae, rarely P.falciparum) were notified (230 cases in 1958 to 1990 and only 5 in 1991 to 2016). Current (immunological and molecular) methods for the laboratory diagnosis of malaria do not provide a 100% detection rMfteor its pathogens; therefore, it is necessary to search for highly efficient, rapid, and low-cost diagnostic methods to ensure the biological safety of donation.

[(ASSESSMENT OF RISK FOR ARBOVIRUS INFECTIONS IN RUSSIA)]

The sharply increased incidence and geographical expansion of arbovirus diseases in recent years suggest that some Russian areas are vulnerable to vector-borne diseases and that it is important to elaborate control programs to ensure bio- logical safety in our country. Moreover, the main vectors of the pathogens of arbovirus infections (Zika fever, dengue fever, chikungunya fevers), such as Aedes aegypti and Ae.albopictus, have been registered on the Black Sea coast of the Caucasus. The programs must be effective, by taking into account the biological features of each kind of a vector.

[(EXPERIENCE WITH GEOGRAPHIC INFORRMATION SYSTEMS USED IN EPIDEMIOLOGICAL STUDIES (AS AN EXAMPLE OF MALARIA AND DIROFILARIASIS)]

The effective application of GIS against parasitic diseases requires the patterns of spread of parasitic diseases in certain natural, climatic, and socioeconomic conditions of different regions where there are epidemically effective carriers. The epidemiological parameters defining a high risk of an epidemiological process after P.vivax importation into Russia were calculated using the developed HealthMapper controlled module with a database. Analysis of the average long-term air temperatures in the administrative territories of Russia over 78 years, namely July, the warmest month of the year when there are the largest numbers of all types of mosquito vectors and high levels of microfilaria in the peripheral blood of in- fected dogs (definitive hosts), has shown that the northern border of the maximum possible area of dirofilariasis in Russia is most fully described by the +14C July isotherm.

ON THE EPIDEMIOLOGY OF COMPLICATED VIVAX MALRIA

A larger number of publications on cases of. complicated vivax malaria in the world literature can be. explained by a set of diffeetit faciors'. There has been unification of the definition of complicated tertian malaria allowing ihe clinical nianagement of a patient and the reporting of complicated cases of P.vivax to be improved. The, epidemiological characteristics of complicated vivax malaria are determined by a diversity of geographical, races, variants, gentyies and phenotypes of tertian malaia due to intensive internal and external migration. Chloroquine resistance and primaquine refractoriness contribute to increased local malaria transmission due to a rise in cases of reinfection during-epidemics of vivax malaria. From an epidemiological point of view, the increasing number of complicated vivax malaria cases indicates the untimely detection and treatment of malaria patients, the low level of medical personnel training and a negative attitude of the local population towards the recommendations of national malaria programs for prevention measures. Unsolved problems can substantially retard the time to achieve malaria elimination.

[THE CLINICAL AND EPIDEMIOLOGICAL CHARACTERISTICS OF MALARIA CONCURRENT WITH OTHER INFECTIONS AND INVASIONS]

The present review considers malaria infection concurrent with different species of helminths, bacterial and viral infections, as well as mixed malaria pathogens in the subtropical and tropical countries of the world, causing the clinical picture and epidemiological situation to be different. Malaria co-infections with different pathogenic micro-organisms, such as HIV, tuberculosis, viral hepatitides, and others, affect almost one third of the planet's population. It is known that people who are at risk for malaria may be also at risk for other parasitic and infectious diseases, most commonly helminthisms.

[CURRENT IDEAS ON OBLIGATE AND FACULTATIVE RELATIONSHIPS BETWEEN MAN AND THE DIROFILARIASIS PATHOGEN DIROFILARIA (N.) REPENS]

The ability of D. repens to complete its ontogenesis in man points to their obligate, rather than facultative rela- tionships. The fact that microfilariae are rarely found in human blood or are absent there may be associated with the removal of developing dirofilariae from humans in earlier than they achieve sexual maturity. Facultative ecological relationships to mosquitoes may be one of the reasons for limitation of human invasion cases. However, in long-standing microfilaremia in man (an obligate host), D.repens may take part in the epidemiological chain of dirofilariasis as a source of invasion.

[COMPLEX LABORATORY DIAGNOSIS OF MALARIA PATHOGENS IN THE PRE ELIMINATION PERIOD]

An immunological survey of 8,000 dwellers from 4 districts of Tajikistan failed to detect malaria pathogens by CareStartMalariaHPR2/PLDH (P. falciparum/P. vivax) COMBOGO161 AccessBio tests and showed the possibility of their further use under the Republic's conditions, particularly in the mountain villages and the human settlements bordering on Afghanistan. The results of examining 750 blood samples from the dwellers of sanitized foci in Tajikistan's areas, by applying molecular diagnosis via polymerase chain reaction, indicated no signs of parasites. A set ofthree methods, such as microscopic, immunological, and molecular diagnostic ones, was used to prove the absence of reliable malaria infection and local transmission sources.

A narrative review of visceral leishmaniasis in Armenia, Azerbaijan, Georgia, Kazakhstan, Kyrgyzstan, Tajikistan, Turkmenistan, Uzbekistan, the Crimean Peninsula and Southern Russia

There is an extensive body of medical and scientific research literature on visceral leishmaniasis (VL) in the Caucasus, Central Asia, the Crimean Peninsula and the southern part of The Russian Federation that is written in Russian, making it inaccessible to the majority of people who are interested in the leishmaniases in general and VL in particular. This review and summary in English of VL in what was Imperial Russia, which then became the Soviet Union and later a number of different independent states intends to give access to that majority. There are numerous publications in Russian on VL and, mostly, those published in books and the main scientific journals have been included here. The vast geographical area encompassed has been subdivided into four main parts: the southern Caucasus, covering Armenia, Azerbaijan and Georgia; Central Asia, covering Kazakhstan, Kyrgyzstan, Tajikistan, Turkmenistan and Uzbekistan; the Crimean Peninsula and the northern Caucasus, which is part of The Russian Federation. Only rare cases of VL have been recorded in the northern Caucasus and Crimean Peninsula. In the other countries mentioned, human VL has been more intense but epidemics like those associated with L. donovani in India and East Africa have not occurred. For most of the countries, there are sections on the distribution, clinical aspects, the causative agent, the reservoirs and the vectors. Serological surveys and research into therapy are also covered. Recent studies on VL in Uzbekistan covered the application of serological, biochemical and molecular biological methods to diagnose human and canine VL, to identify the leishmanial parasites causing them in Uzbekistan and neighbouring Tajikistan and the epidemiology of VL in the Namangan Region of the Pap District, Eastern Uzbekistan. More recently, two studies were carried out in Georgia investigating the prevalence of human and canine VL, and the species composition of phlebotomine sand flies and their rates of infection with what was probably L. infantum in Tbilisi, eastern Georgia and Kutaisi, a new focus, in western Georgia. Though published in English, summaries of this information have been included where relevant to update the parts on VL in Uzbekistan and Georgia.

[Results of studies of human dirofilariasis in Russia]

Human dirofilariasis is a pressing health problem in Russia. By 2014, there have been as many as 850 Dirofilaria repens-infested people living in 42 subjects of the Russian Federation. One of the favorable factors for circulation and spread of invasion is a temperature of above +20-24 degrees C; when the latter is maintained during at least 20 days there may be 1.-1.5 circulations of invasion in the carrier and a 2.8-fold increase in transmission intensity. The border ofa dirofilariasis area with a temperate climate is southward to 58 degrees N in European Russia and West Siberia and southward to 50 degrees N in the Far East. The conditions in the human body have been found to be more favorable for the development of Dirofilaria than considered before and allow the helminth to achieve sexual maturity and to propagate. If man has microfilaremia, he may be a source of invasion. It is necessary to examine venous blood by the enrichment method and, if possible, polymerase chain reaction and enzyme immunoassay, which make it possible to establish a diagnosis in occult invasion and to identify a pathogen species.

[The current status of the resistance of malaria pathogens to antimalarials]

The review presents the results of trials of the clinical efficacy of a test antimalarial drug for each malarial parasite species, which were published in 2000-2013 and supplemented by the data of in vitro studies or investigations using the molecular markers of resistance. There are data on the resistance of each medicament since many of the drugs are used in combination with artermisinin derivatives.

[Human dirofilariasis: clinical and diagnostic signs and diagnostic methods]

The clinical and diagnostic signs caused by the tissue location and migration of adult Dirofilaria in the human body determine the use of different methods for the diagnosis of dirofilariasis. During their investigations, the authors modified polymerase chain reaction (PCR): they chose and synthesized primers and selected amplification regimens for them and obtained agarose gel bands that corresponded to PCR fragment length nucleotide sequences that were equal to 245 bp for D. (N.) repens and 656 bp for D. immitis. There was 100% agreement in the results of PCR and microscopic examination of sera from 32 dogs and 1 female patient with low parasitemia and in the blood nucleotide sequence characteristic of D. repens.

[The epidemiological features of visceral leishmaniasis, revealed on examination of children by polymerase chain reaction, in the Papsky District, Namangan Region, Uzbekistan]

Patients with visceral leishmaniasis (VL) have been registered in the Papsky District, Namangan Region, Uzbekistan, over the past 23 years. A total of 95 patients were notified in 1987 to 2009. In 2007-2008, a mass survey using the polymerase chain reaction (PCR) within the international INTAS project 05-100006-8043 was conducted in 5 population aggregates of the Papsky District, Namangan Region, Uzbekistan, where VL cases had been regularly registered in the last years. Bone marrow and venous and peripheral blood smears were used as a test material. A total of 234 samples, including 3 bone marrow biopsy specimens, 9 venous blood samples and 222 peripheral blood ones, were tested. All the samples were on the glass slides. Three groups were identified among the examinees. Group 1 consisted of 13 subjects who had been ill at different times. Group 2 comprised 27 children treated at hospital for various diagnoses. Group 3 (the largest one, n=190) included apparently healthy children. All the children of this group felt well and had no symptoms of any illnesses at the examination. In this group, 85 (44.7%) subjects were PCR-positive. Twenty-four (55.8%) of 43 children in the age group of 0-3 years were PCR-positive; the 4-7-year age group comprised 66 subjects and 33 (50%) of them were PCR-positive. Group over 7 years of age included 81 subjects; 45 (55.5%) were PCR-positive. The results of the mass survey with PCR, which covered the 5 population aggregates in the Papsky District, Namangan Region, Uzbekistan, suggest the epidemic activity of a synathropic focus of VL and make us look at many fixed notions of its epidemiology in new contexts.

[Human and canine visceral leishmaniasis in the Papsky District, Namangan Region, Uzbekistan: seroepidemiological and seroepizootological surveys]

In 2007 - 2008, four (Chodak, Oltinkan, Gulistan, and Chorkesar) of 9 population aggregates in the Papsky District, Namangan Region, Uzbekistan, where visceral leishmaniasis (VL) cases had been registered in the last years were selected to make seroepidemiological and seroepizootological surveys within the international project funded by INTAS grant 05-100006-8043. The surveys of the populations were conducted visiting their homesteads. These additionally included children's and health care facilities where all children aged less than 14 years were examined. On examining the children, their peripheral blood (approximately 0.1 ml) was taken on filter paper for serological assays. Canine blood was sampled from the vein. Enzyme-linked immunosorbent assay (ELISA) was carried out to detect antibodies to VL pathogens. A total of 521 children were examined for two years, by applying ELISA. Five hundred and fourteen blood samples from children younger than 14 years, 162 dogs, 4 foxes, and 1 cat were tested. Testing 514 children's blood samples for VL pathogen antigen ascertained that in the 4 population aggregates there was an average of 10% VL-seropositive children, including those who were ill with VL at the moment of the examination and had been ill. The highest number of VL-seropositive samples (14.9%) was found in the settlement of Chodak. VL pathogen antibodies were detected in 26 (61.9%) of 42 dogs with the clinical signs of VL. VL-positive tests were found in 26 (21.6%) of 120 apparently healthy dogs. The samples from 4 foxes and 1 cat were negative. Immunological findings indicated that 0-3-year-old children were a group that is most susceptible to VL in the study focus of this disease. The high proportion of dogs with VL may account for the rise in infant morbidity and suggests the epizootic strain in the focus of VL in the Papsky District.

[Monitoring delagil (chloroquine) efficacy against imported Plasmodium vivax strains]

The efficiency of P. vivax malaria treatment with delagil (chloroquine) was evaluated in 122 patients, including 82 cases in Moscow and the Moscow region. The origin of the cases was malaria endemic areas in Asia, Africa, the Pacific Region, South America, and Transcaucasia. Forty other cases were imported malaria cases (secondary to imported ones), detected in Moscow and the Moscow region. Standard treatment with delagil (2.5 g) resulted in clinical improvement during 3 days in the majority of cases. Initial signs of degradation of asexual stages of P. vivax--kernels of nucleus, refinement of cytoplasm and its vacuolization, aggregation of pigment in isolated instances, its pushing out from cytoplasm--were observed after 1-2 hours after administration of delagil. Thereafter, parasite degradation was increasing, and it disappeared within 48 hours. Disappearance of fever slowed down in a few cases. However, degradation of parasites occurred during the same period among the rest of cases. It can not be excluded that fever was determined by the pyrogenic effect of remnants of degraded parasites and by the products of destroyed infected erythrocytes. It is probable that the findings of gametocytes, not completely degraded after disappearance of asexual forms in conjunction with prolonged fever, could result in a wrong conclusion of drug resistance. Negative results of microscopy and nested PCR on the last day of treatment, as well as in the following 10 days and absence of complains during 45 days, suggest the absence of resistance to delagil in P. vivax strains imported from different regions of the world. It is also probable that the literature on P. vivax resistance to chloroquine is limited to sporadic cases.

[Human dirofilariasis: diagnosis and the pattern of pathogen-host relations]

Until recently, there has been no consensus of opinion as to that D.repens females can develop in the accidental host (man). The role of man is regarded as a biological dead end for Dirofilaria that are unable to develop the adult stage; human Dirofilaria migration is considered to be larval by the type of larva migrans. Studying these matters on a specific material of 140 cases of invasion by Dirofilaria that had been eliminated in patients in different seasons and the length of their bodies measured showed that the maximum number (51.4%) was mature females, 120 to 190 mm in size; 35.7 and 12.85% had a length of 70-115 and 40-65 mm, respectively, which corresponds to immature young and juvenile specimens. This suggests that Dirofilaria normally develop and achieve the adult stage in the accidental host. A correlation was found in the sizes of the body and the time of D. repens development. Thus, the human organism is not a biological dead end for Dirofllaria. The migration of adult Dirofilaria should be appraised as the imago-migrans phenomenon: As the particular diagnostic sign, it will aid a physician to establish a correct parasitiological diagnosis at the early stages of the disease. In recent years, there has been new evidence in the diagnosis of dirofilariasis that microfilaria have been detected in the skin tumor puncture specimen and blood of the patients. In this connection, it is conceivable that man may be an actual source of mosquito infection even in the presence and paucity of mature males and females.

[Prevalence of human dirofilariasis in Russia]

The nature of regional zoning of the prevalence of dirofilariasis in Russia was first established and a map reflecting the structure of an area with the identification of three zones (low, moderate, and stable transmission risks) was drawn up. In Russia, natural and climatic conditions are favorable for the development of transmitting mosquitoes and larvae of Dirofilaria to the invasion stage in the body of the transmitter to the south of the latitude of 58 degrees north in the European part and Western Siberia and to the south of the latitude of 50 degrees north in the Far East. The region of dirofilariasis covers 53 subjects of the Russian Federation, in 39 subjects (including 29 in the European part and 10 in the Asian part) of which 564 cases of dirofilariasis were notified in 1915-2008. 68.44% of dirofilariasis cases were registered in the endemic area in 11 subjects of the Russian Federation in the stable transmission risk zone while in the moderate and low transmission risk zones these amounted to 31.55% in 28 subjects. Information on the area of dirofilariasis is needed to estimate its incidence in man in different regions of Russia, which will assist in diagnosing this zoogenous transmissible helminthiasis.

[Efficiency of KAT-quick P.f. test (KAT medical, SAR) among the populations of drug-resistant parasites]

The KAT-Quick P.f. test (KAT Medical, South African Republic) is based on the detection of protein HPR II produced by trophozoites and young gametocytes of P. falciparum. This test was conducted by the authors in the distribution areas of P. falciparum strains differing in the spectrum of drug resistance. Five hundred and forty-nine blood samples from febrile patients in Vietnam (n=84), Sierra Leone (n=41), Nigeria (n=14), Tanzania (n=8), Kenya (n=5), and Tadjikistan (n=397) were tested. Microscopy served as a primary control. Detection of P. falciparum DNA, using polymerase chain reaction (PCR) with included primers (nested PCR) of the most sensitive modification of PCR was a final control. The efficiency of the KAT-Quick P.f. test was estimated as a ratio of the number of its positive results to those of PCR. It was equal to 98-95%. The KAT-Quick P.f. test revealed no false-positive case associated with the genome of the parasite. The specificity of the test was determined as a ratio of the number of its negative (no P. falciparum) results to those of PCR. The blood samples from patients with vivax malaria and from those with nonmalarial fever were investigated. There was no cross reaction of the KAT-Quick P.f. test system for P. falciparum with that for P. vivax. The KAT-Quick P.f. test yielded no positive reaction with the blood from patients with non-malarial fever. Drug resistance depending on the spectrum of specific drugs caused its emergence may be determined by one or several mechanisms that are ultimately determined by one, the key mechanism. Thus, the findings suggest that multidrug resistance of P. falciparum does not trigger the occurrence of changes in its surface antigen--HRPII that is responsible for the efficiency of the KAT-Quick P.f. test. These may be also extrapolated to other rapid tests patterned after the same principle.

[The first case of diagnosis of dirofilariasis from the microfilariae detected in the human subcutaneous tumor punctate]

The paper describes the first case of diagnosis of dirofilariasis from the microfilariae detected in the subcutaneous tumor punctate from a person who has the clinical manifestations of D. repens invasion and resides in the Saratov Region that is endemic in dirofilariasis. The fact of detection of microfilariae in the man undergone invasion is assessed not only as the first case in the lifetime diagnosis of the first case of diagnosis of subcutaneous dirofilariasis, but also as the first case of verification of that a female can achieve sexual maturity in the organism of an accidental host and its impregnation if there are even single specimens of both sexes, which is characteristic in human invasiveness. On this basis, the authors consider it wrong to refer this helminthiasis to as a group of diseases defined as "Larva migrans cutaneous" since this is inconsistent with the biology of a causative agent that accomplishes migration at the adult stage in the host's organism and does not orient a physician to establish a correct clinical and parasitological diagnosis.

[Efficiency and specificity of the KAT-test for rapid diagnosis of falciparum malaria]

A new rapid KAT Quick Malaria test for the diagnosis of falciparum malaria, which is based on the detection of a monoclonal antibody-antigen complex of malaria parasites, has been worked out by the KAT Medical CC in South Africa. The efficiency and specificity of the KAT test were compared with those of the microscopic method and with the ICT test for rapid diagnosis of P. falciparum and P. vivax. The polymerase chain reaction was used as a control test. Testing for malaria was performed on 98 blood samples from feverish patients in Vietnam and Tadjikistan and among the persons who had returned to Moscow from endemic regions. The efficiency of the KAT test for falciparum-malaria was found to be 100% versus 90.5% with ICT. The absence of cross-reactions with P. vivax and the presence of pseudopositive results of the KAT test for fever cases of non-malaria origin indicate its high specificity. There was no correlation between the rate of test line colouring and the level of parasitemia. The KAT test yielded positive results only when gametocytes were found in blood specimens.

[Culture of Plasmodium berghei with the short life span in mouse erythrocytes: evaluation of chloroquine resistance in three strains of the malaria parasite]

This comparative study was made to examine chroloquine inhibition of C14-hypoxanthine incorporation (preferably nucleic acid precursor for plasmodium) in the short-living red blood cell cultures in mice infected with P. berghei strains differently sensitive to the agent 24 hours after incubation. These included 1) chloroquine-sensitive H strain; 2) LNK-65 strain having a spontaneously 2-3-fold decreased sensitivity to the agent; 3) strain LNK-65 ChR selected for high resistance to chloroquine. IC50 (chloroquine concentrations that ensure 50% inhibition of the incorporation of nucleic acid precursor into the cells of the parasite) was estimated for 3 P. berghei strains that were differently sensitive to chloroquine. These in vitro values adequately reflect the sensitivity of these strains to the agent in vivo.