Outbreak of West Nile Virus Infection, Volgograd Region, Russia, 1999.From July 25 to October 1, 1999, 826 patients were admitted to Volgograd Region, Russia, hospitals with acute aseptic meningoencephalitis meningoencephalitis /me·nin·go·en·ceph·a·li·tis/ (me-ning?go-en-sef?ah-li´tis) inflammation of the brain and meninges. toxoplasmic meningoencephalitis , meningitis, or fever consistent with arboviral infection. Of 84 cases of meningoencephalitis, 40 were fatal. Fourteen brain specimens were positive in reverse transcriptase-polymerase chain reaction assays, confirming the presence of West Nile/Kunjin virus. West Nile (WN) virus is a member of the Japanese encephalitis (JE) antigenic complex of the genus Flavivirus, family Flaviviridae. Mosquito-borne WN virus fever is endemic in Africa, the Middle East, and Southwest Asia. The antigenically and genetically related Kunjin virus is a WN virus counterpart in Australia and Southeast Asia and has recently been taxonomically classified as a subtype of WN virus. Until recently, WN virus infection in humans was considered a relatively mild, influenzalike disease with full recovery, although occasionally ([is less than] 15% of cases) acute aseptic meningitis or encephalitis occurred (1). No large outbreak of WN virus fever was reported in Europe until August and September 1996, when more than 500 clinical cases were observed in Romania (Bucharest region), with high rates of neurologic disorders and death (up to 10%) (2). WN virus had never been detected in the Western Hemisphere until August 1999, when an outbreak of human WN encephalitis in New York City New York City: see New York, city. New York City City (pop., 2000: 8,008,278), southeastern New York, at the mouth of the Hudson River. The largest city in the U.S. (56 confirmed cases, 7 deaths) coincided with unusual deaths in crows and exotic birds (3-5). The Study In August and September 1999, an outbreak of acute viral infection consistent with arboviral infection occurred in the Volgograd Region, Russia. Epidemiologic and clinical data were collected and analyzed in the Center of Sanitary and Epidemic Control for the Volgograd Region in collaboration with the Commission of the Russian Ministry of Public Health. From July 25 to October 1,826 patients were admitted to area hospitals with the clinical diagnosis of acute aseptic meningoencephalitis (code A86, ICD-10; 84 patients), acute aseptic meningitis (code A87.9; 308 patients), or acute viral infection with fever (code B34.9; 347 patients). Serum samples from 318 patients were tested for WN virus antibody by immunoglobulin (Ig)M-capture enzyme-linked immunosorbent assay enzyme-linked immunosorbent assay n. ELISA. Enzyme-linked immunosorbent assay (ELISA) A diagnostic blood test used to screen patients for AIDS or other viruses. (ELISA ELISA (e-li´sah) Enzyme-Linked Immuno-Sorbent Assay; any enzyme immunoassay using an enzyme-labeled immunoreactant and an immunosorbent. ELISA n. ) and indirect IgG ELISA (2,6); 183 (58%) samples demonstrated a level of anti-WN virus IgM indicative of acute infection. This proportion was approximately the same in patients with aseptic meningoencephalitis, aseptic meningitis, and acute fever. These 183 cases were considered serologically confirmed WN virus cases; all 826 cases were considered clinically compatible WN virus cases. The total number of suspected overt human WN virus cases was estimated to be 480. Volgograd City (population 1 million) is located on the west bank of the Great Volga River (latitude 48 [degrees] N, longitude 44 [degrees] E) in the Russian steppe steppe (stĕp), temperate grassland of Eurasia, consisting of level, generally treeless plains. It extends over the lower regions of the Danube and in a broad belt over S and SE European and Central Asian Russia, stretching E to the Altai and S to ; Volzskii City (population 300,000) is on the opposite bank. Approximately 65% and 30% of WN virus cases were from Volgograd and Volzskii, respectively; the rest occurred in the rural region around Volgograd, near the Volga River or its tributaries. The male:female infection ratio was 1:1. The incidence of infection was age specific; more than 50% of patients were [is greater than or equal to] 50 years of age and less than 15% were [is less than or equal to] 15 years. The epidemic peaked between August 21 and August 25, waning with the onset of cooler temperatures in late September. Figures were similar for serologically confirmed and clinically probable WN virus cases. The clinical characteristics of the Volgograd WN virus epidemic differed somewhat from those of previous outbreaks (1). In Volgograd, the disease was generally more severe, with a higher than normal case-fatality rate. The central nervous system was usually involved, and acute aseptic meningitis or encephalitis was frequently observed. Rash and conjunctivitis conjunctivitis (kənjəngtəvī`təs), inflammation or infection of the mucosal membrane that covers the eyeball and lines the eyelid, usually acute, caused by a virus or, less often, by a bacillus, an allergic reaction, or an were rarely observed. Abdominal pain, diarrhea, respiratory symptoms, and lymphadenopathy lymphadenopathy /lym·phad·e·nop·a·thy/ (-op´ah-the) disease of the lymph nodes. angioimmunoblastic lymphadenopathy , angioimmunoblastic lymphadenopathy with dysproteinemia were rare or absent. As in other WN virus epidemics, clinical features included abrupt onset of disease, asthenia, high fever (up to 39 [degrees] C-40 degrees] C), headache, and vomiting. Of the 84 cases of acute aseptic meningoencephalitis, 40 were fatal (7). Autopsies of laboratory-confirmed WN meningoencephalitis cases revealed perivascular perivascular /peri·vas·cu·lar/ (-vas´ku-lar) near or around a vessel. perivascular around a vessel. perivascular cellulitis hemorrhages, ectasis of ventriculi of the brain, foci of encephalomalacia, dislocation of the brain trunk (30% of cases), and hydropericarditis with flabbiness of the cardiac muscle. Microscopy findings included signs of focal encephalitis and vasculitis Vasculitis Definition Vasculitis refers to a varied group of disorders which all share a common underlying problem of inflammation of a blood vessel or blood vessels. The inflammation may affect any size blood vessel, anywhere in the body. , lymphocytic perivascular inflammatory infiltration, profound degenerative and necrobiotic nec·ro·bi·o·sis n. The natural death of cells or tissues through aging, as distinguished from necrosis or pathological death. nec changes of ganglion cells in the cerebral cortex, and signs of brain edema, as well as parenchymal pa·ren·chy·ma n. 1. Anatomy The tissue characteristic of an organ, as distinguished from associated connective or supporting tissues. 2. myocarditis Myocarditis Definition Myocarditis is an inflammatory disease of the heart muscle (myocardium) that can result from a variety of causes. While most cases are produced by a viral infection, an inflammation of the heart muscle may also be instigated by (stromal Stromal A type of tissue that is associated with the support of an organ. Mentioned in: Wilms' Tumor edema, degeneration of myocytes, foci of myolysis, and fragmentation of myofibrils). Thirty (75%) of the patients who died were [is greater than] 60 years of age. We have developed reverse transcriptasepolymerase chain reaction (RT-PCR RT-PCR reverse transcriptase-polymerase chain reaction. See PCR1. ) assays specific for WN/Kunjin genome and a consensus assay for the detection of all flavivirus genomes (5,8, 9). Two pairs of oligonucleotide primers (WN11/WN2, WN1/WN2) were designed to hybridize hy·brid·ize intr. & tr.v. hy·brid·ized, hy·brid·iz·ing, hy·brid·iz·es 1. To produce or cause to produce hybrids; crossbreed. 2. to a relatively conserved region within the envelope (E) gene of WN/Kunjin viruses. The expected amplification product was 222 base pairs long (WN1, 5'- AGG AGG Aggregate AGG Allgemeines Gleichbehandlungsgesetz AGG African Gold Group, Inc. AGG Arnall Golden Gregory LLP (Atlanta, GA) AGG Aggravated AGG Asociación de Gerentes de Guatemala , GGC GGC Girl Guides of Canada GGC Greenwood Genetic Center (South Carolina) GGC Gwasanaeth Gwaed Cymru (Welsh Blood Service) GGC Generalized Goppa Code GGC Grosvenor Gallery Company , CAC See Consumer Advisory Council. , CCA (1) (Common Cryptographic Architecture) Cryptography software from IBM for MVS and DOS applications. (2) (Compatible Communications A , GGC, TGG, AAG, ATT ATT ammonia tolerance test. , CA- 3'; WN11, 5'-TGG, GGC, CAC, TCA TCA 1. trichloroacetic acid. 2. tricarboxylic acid cycle (Krebs cycle). TCA Tricyclic antidepressant, see there , GGC, AGG, GAG, ATT, CA-3'; WN2, 5'-CAC, GTG, GTG, CTT, CCA, GCA, CTG, CTC, CA-3'). Another pair of primers, FLV1/FLV2, was designed to hybridize to conserved regions within the RNA replicase (NS5) gene of a wide variety of flaviviruses, amplifying nearly a 220-bp fragment (FLV1, 5'-GGI, AGC, AGI (Artificial General Intelligence) A machine intelligence that resembles that of a human being. Considered impossible by many, most artificial intelligence (AI) research, projects and products deal with specific applications such as industrial robots, playing chess, , GCC, ATI, TGG, T(A/T)C, ATG ATG antithymocyte globulin. lymphocyte immune globulin (antithymocyte globulin equine, ATG, ATG equine, LIG) Atgam Pharmacologic class: Immunoglobulin Therapeutic class: Immunosuppressant , TGG - 3'; FLV-2, 5'-C(G/T)I, GTG, TCC, CAI, CCI, GCI, GTG, TCA, TC-3'). Brain tissue samples taken at autopsy from 14 patients with meningoencephalitis were subjected to RT-PCR with primer pairs WN11/ WN2, WN1/WN2, and FLV1/FLV2. The samples and corresponding viral RNA/cDNA preparations are designated below as Volgograd-1999-1, Volgograd-1999-2, and the like. Two WN virus strains isolated in 1967-1970 in the Republic of Azerbaijan (former Soviet Union) and the prototype JE strain isolated in Tokyo were used as control templates in the RT-PCR assay. All 14 brain samples were strongly positive in the RTPCR RTPCR Reverse Transcriptase Polymerase Chain Reaction assays with WN11/WN2, WN1/WN2, and FLV1/FLV2, confirming the presence of WN/ Kunjin sequences. The WN-Azerbaijan-1967 and WN-Azerbaijan-1970 control RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic preparations were positive only with WN11/WN2 and FLV1/ FLV2 primer pairs, indicating that some differences in the corresponding region of the E gene from the old and new "Russian" WN virus strains were likely. As expected, the JE-Tokyo-1935 RNA preparation was negative in the WN-specific RT-PCR assay, but positive with FLV1/ FLV2 primers. The amplification products obtained from the E and NS5 genes from seven patients (#1, 3, 7, 11, 12, 13, 14) and from the reference WN-Azerbaijan-1967 and WN-Azerbaijan-1970 strains were subjected to DNA sequencing. The sequences obtained from the Volgograd patients were identical, suggesting infection with a single WN virus strain. The E sequences of the Volgograd and Azerbaijan WN viruses were aligned with each other and with 38 other WN/Kunjin strains, by using CLUSTAL W alignment software. The NS5 sequences of the Volgograd and Azerbaijan WN viruses were aligned with 16 other flavivirus strains by CLUSTAL W. The high level of sequence similarity confirmed the WN virus source of the Volgograd cases (Table). Phylogenetic trees of WN/Kunjin viruses and all flaviviruses derived from E and NS5 gene sequences (5,8-10) have been previously described. We used smaller gene fragments, 165 bases of E gene and 147 bases of NS5 gene; however, the deduced phylogenetic trees were practically the same. Therefore, we limited the analysis to the most similar strains, including the epidemiologically important WN-New-York-1999 and WN-Romania-1996 strains, and some representatives of other taxonomic subdivisions. For comparison, the designation of strains coincides with the designation in publications where the additional details of strain history are given (5,10). [TABULAR DATA NOT REPRODUCIBLE IN ASCII ASCII or American Standard Code for Information Interchange, a set of codes used to represent letters, numbers, a few symbols, and control characters. Originally designed for teletype operations, it has found wide application in computers. ] The Volgograd and old Azerbaijan WN virus strains clearly belonged to "lineage 1" of WN virus isolates (5,9-10). Within lineage 1, the Volgograd patient strains were most closely related to the current Kenya and Senegal strains and the Romanian mosquito isolate (the identical E gene fragment of 165 nucleotides [nt]). The Azerbaijan isolates were more closely related to WN-Egypt-1951 strain and the Romanian human isolate (Figure). The New York-1999 isolate differed from the Volgograd isolates in 3 nt positions and from the Azerbaijan isolates in 7 nt positions. All 10 polymorphic sites in sequences of Volgograd, New York, Azerbaijan, and Romania strains were in the third codon position, producing silent mutations. WN-Volgograd-1 differed from WN-Egypt-1951 in 1 amino acid (aa) (Leu Leu leucine. Leu abbr. leucine Leu leucine. vs. Trp), from Kunjin in 1 aa (Asn vs. Ser) and from WN-Nigeria in 5 aa within the E fragment of 55 aa. [Figure ILLUSTRATION OMITTED] Although a few sequences of WN virus NS5 gene were available, the data confirmed that the WN virus strains of lineage 1 were more close to each other (the differences in 0-11 nt of 147) than to Kunjin, and especially distant from WN-Nigeria (Wangler wan·gle v. wan·gled, wan·gling, wan·gles Informal v.tr. 1. To make, achieve, or get by contrivance: wangled a job for which she had no training. 2. ) strain (Table). Again, all 10 polymorphic sites in sequences of lineage 1 strains corresponded to the silent mutations only. WN-Volgograd-1 differed from Kunjin in 1 aa (Lys vs. Arg) and from WN-Nigeria in 3 aa (Arg vs. Lys, Arg vs. Lys, and Ile vs. Val) but differed, for example, from Saint Louis (AF013416) in 11 aa within the NS5 fragment of 48 aa. The isolation of WN virus from one of our clinical brain samples, Volgograd-1999-4, will make complete genome sequencing and further virologic investigations possible (11). Conclusions Our data, together with those of previous publications, document several outbreaks of emerging WN virus infection in regions where this disease was not found or was rarely found. (There were a few isolations of WN virus in Romania and the former Soviet Union before 1996-99.) Some isolates demonstrate a high degree of similarity (New York-1999 and Israel-1998; Volgograd-1999, Romania-1996-mosquito isolate, Kenya-1998, and Senegal-1993; Azerbaijan- 1967 and Romania-1996-human isolate). Moreover, the last three large outbreaks were caused by genetically similar strains (WN-Romania-1996, WN-New York-1999, and WN-Volgograd-1999), indicating the wide circulation and emergence of potentially epidemic strains of WN virus. All three cities, Bucharest, New York, and Volgograd, are located near large bodies of water and on bird migration pathways and all had unusually dry summers the year of the outbreak (12). Some clinical characteristics of the recent WN virus epidemics were unexpected, such as the high rate of neurologic disorders and death. These unusual characteristics may be due to the expansion of new pathogenic WN virus strain(s) or to the peculiarities of the human host response. Acknowledgments We thank DK Lvov, VL Gromashevskii, AM Butenko, S. Ya. Gaidamovitch, O Vyshemirskii, and VF Larichev for providing the reference WN virus strains and helpful discussions; DJ Gubler, J LeDuc, and P Henry for arranging research collaboration between the Central Institute of Epidemiology, Moscow, and the Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. ; and NV Rusakova, EM Krasnova, VA Petrov, and AM Alyushin for providing human specimens for testing, and epidemiologic and clinical information for analysis. Dr. Platonov is head of a laboratory at the Central Institute of Epidemiology, Russia. His scientific interests include the epidemiology, diagnosis, and pathogenesis of bacterial and viral meningitis. References (1.) Hubalek Z, Halouzka J. West Nile fever--a reemerging mosquito-borne viral disease in Europe. Emerg Infect Dis 1999;5:643-50. (2.) Tsai TF, Popovici F, Cernescu C, Campbell GL, Nedelcu NI. West Nile encephalitis epidemic in southeastern Romania. Lancet 1998;352:767-71. (3.) CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation . Update: West Nile virus West Nile virus, microorganism and the infection resulting from it, which typically produces no symptoms or a flulike condition. The virus is a flavivirus and is related to a number of viruses that cause encephalitis. encephalitis--New York, 1999. Morb Mortal Wkly Rep 1999;48:944-6. (4.) Anderson JF, Andreadis TG, Vossbrinck CR, Tirrell S, Wakem EM, French RA, et al. Isolation of West Nile virus from mosquitoes, crows, and a Cooper's hawk in Connecticut. Science 1999;286:2331-3. (5.) Lanciotti RS, Roehrig JT, Deubel V, Smith J, Parker M, Steele K, et al. Origin of the West Nile virus responsible for an outbreak of encephalitis in the northeastern U.S. Science 1999;286:2333-7. (6.) Lvov DR, Butenko AM, Gaidamovitch SY, Larichev VPh, Leschinskaya EV, Zhukov AN, et al. Epidemic outbreak of meningitis and meningoencephalitis in Krasnodar territory and Volgograd region provoked by of West Nile fever West Nile fever West Nile meningoencephalitis Infectious disease An acute, mosquito-borne flaviviral infection endemic–rarely, epidemic–in the Near East, Africa, former Soviet Union, India Clinical After a 3-6 day incubation, children present with a virus. Vopr Virusol 2000;45:37-8.(In Russian). (7.) Vengerov YuYa, Frolochkina TI, Zhukov AN, Shipulin GA, Shipulina OYu, et al. West Nile virus infection as clinical and epidemiological problem. Epidemiology and Infectious Diseases 2000;4:27-31.(In Russian). (8.) Kuno G, Chang GJ, Tsuchiya KR, Karabatsos N, Cropp CB. Phylogeny of the genus Flavivirus. J Virol 1998;72:73-83. (9.) Berthet FX, Zeller HG, Drouet MT, Rauzier J, Digoutte JP, Deubel V. Extensive nucleotide changes and deletions within the envelope glycoprotein gene of Euro-African West Nile viruses. J Gen Virol 1997;8(Pt 9):2293-7. (10.) Savage HM, Ceianu C, Nicolescu G, Karabatsos N, Lanciotti R, Vladimirescu A, et al. Entomologic and avian investigations of an epidemic of West Nile fever in Romania in 1996, with serologic and molecular characterization of a virus isolate from mosquitoes. Am J Trop Mad Hyg 1999;61:600-11. (11.) Lvov DR, Butenko AM, Gromashevsky VI, Larichev VPh, Gaidamovitch SYa, Vyshemirsky OI, et al. Isolation of two strains of West Nile virus during an outbreak in Southern Russia, 1999. Emerg Infect Dis 2000;6:373-6. (12.) Hun LL, Popovici F, Alexander Jr JP, Laurentia V, Tengelsen LA, Cernescu C, et al. Risk factors for West Nile virus infection and meningoencephalitis, Romania, 1996. J Infect Dis 1999;179:230-3. Alexander E. Platonov,(*) German A. Shipulin,(*) Olga Yu. Shipulina,(*) Elena N. Tyutyunnik,([dagger]) Tatyana I. Frolochkina,([double dagger]) Robert S. Lanciotti,([sections]) Svetlana Yazyshina,([paragraph]) Olga V. Platonova,(*) Igor L. Obukhov,([paragraph]) Alexander N. Zhukov,(**) Yury Ya. Vengerov,([dagger]) and Valenin I. Pokrovskii(*) (*) Central Institute of Epidemiology, Moscow, Russia; ([dagger]) Moscow State University Moscow State University, at Moscow, Russia, officially M. V. Lomonosov Moscow State Univ.; founded 1755 as Moscow Univ. by the Russian scientist M. V. Lomonosov, renamed Moscow State Univ. after the Russian Revolution, and renamed after its founder in 1940. for Medicine and Dentistry, Russia; ([double dagger]) Ministry of Public Health, Moscow, Russia; ([sections]) Centers for Disease Control and Prevention, Fort Collins, Colorado The City of Fort Collins, a home rule municipality situated on the Cache la Poudre River along the Colorado Front Range, is the county seat and most populous city in Larimer County, Colorado. , USA; ([paragraph]) Russian State Institute for Control of Veterinary Products, Moscow, Russia; (**) Center of Sanitary and Epidemic Control for Volgograd Region, Volgograd, Russia Address for correspondence: A.E. Platonov, Central Institute of Epidemiology, Novogireevskaya Str. 3A, Moscow 111123, Russia; Fax: 7-095-305-5423; e-mail: plt@online.ru. |
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