Your search keyword '"Kallio-Kokko H"' showing total 108 results

1. Laboratory-based surveillance of COVID-19 in the Greater Helsinki area, Finland, February–June 2020

Author

Jarva, H., Lappalainen, M., Luomala, O., Jokela, P., Jääskeläinen, A.E., Jääskeläinen, A.J., Kallio-Kokko, H., Kekäläinen, E., Mannonen, L., Soini, H., Suuronen, S., Toivonen, A., Savolainen-Kopra, C., Loginov, R., and Kurkela, S.

Published

2021

2. Performance of six SARS-CoV-2 immunoassays in comparison with microneutralisation

Author

Jääskeläinen, AJ, Kuivanen, S, Kekäläinen, E, Ahava, MJ, Loginov, R, Kallio-Kokko, H, Vapalahti, O, Jarva, H, Kurkela, S, and Lappalainen, M

Published

2020

3. Hantavirus and Arenavirus Antibody Prevalence in Rodents and Humans in Trentino, Northern Italy

Author

Kallio-Kokko, H., Laakkonen, J., Rizzoli, A., Tagliapietra, V., Cattadori, I., Perkins, S. E., Hudson, P. J., Cristofolini, A., Versini, W., Vapalahti, O., Vaheri, A., and Henttonen, H.

Published

2006

4. Serological survey in the Finnish human population implies human-to-human transmission of Ljungan virus or antigenically related viruses

Author

JÄÄSKELÄINEN, A. J., VOUTILAINEN, L., LEHMUSTO, R., HENTTONEN, H., LAPPALAINEN, M., KALLIO-KOKKO, H., VAHERI, A., and VAPALAHTI, O.

Published

2016

5. Chikungunya virus infections in Finnish travellers 2009-2019 : Infection Ecology & Epidemiology

Author

Jääskeläinen, A. J., Kareinen, L., Smura, T., Kallio-Kokko, H., Vapalahti, O., Medicum, HUSLAB, Viral Zoonosis Research Unit, Department of Virology, University of Helsinki, Helsinki University Hospital Area, Faculty of Medicine, Doctoral Programme in Microbiology and Biotechnology, Helsinki One Health (HOH), Veterinary Microbiology and Epidemiology, and Veterinary Biosciences

Subjects

11832 Microbiology and virology, virus diseases, 3111 Biomedicine

Abstract

The mosquito-borne chikungunya virus (CHIKV) causes an acute febrile illness with rash, joint and muscle pain.A realtime RT-PCR assay for CHIKV detecting non-structural protein (nsP2; CHIKV nsP2-RT-qPCR) was set up. All the serodiagnosed CHIKV cases detected during 2009-2019 in Finland were screened with the assay, followed by isolations attempts and sequencing using Sanger and next generation sequencing (NGS). To validate the assay external and in-house quality control samples were used and all were correctly identified. Specificity of the assay was 100%. Assay was sensitive to detect CHIKV RNA in dilution of 10-8.During years 2009-2019 34 patients were diagnosed for acute CHIKV infection. Twelve out of 34 cases were positive by CHIKV nsP2-RT-qPCR.Two CHIKV isolations succeeded from two individuals infected originally in Thailand, 2019. From 12 CHIKV nsP2-RT-qPCR positive samples, five (42%) CHIKVs were successfully sequenced. In this study, CHIKVs from year 2019 clustered with CHIKV ECSA-lineage forming sub-cluster with strains from ones detected in Bangladesh 2017, and the ones from Jamaica (2014) within Asian lineage showing highest similarity to strains detected in Caribbean outbreak 2013-15. Majority of the CHIKV infections detected in Finland originates from Asia and virus lineages reflect the global circulation of the pathogen.

Published

2020

6. Corticosteroids combined with continuous veno-venous hemodiafiltration for treatment of hantavirus pulmonary syndrome caused by Puumala virus infection

Author

Seitsonen, E., Hynninen, M., Kolho, E., Kallio-Kokko, H., and Pettilä, V.

Published

2006

7. Laboratory-based surveillance of COVID-19 in the Greater Helsinki area, Finland, February-June 2020

Author

Jarva, H, primary, Lappalainen, M, additional, Luomala, O, additional, Jokela, P, additional, Jääskeläinen, AE, additional, Jääskeläinen, AJ, additional, Kallio-Kokko, H, additional, Kekäläinen, E, additional, Mannonen, L, additional, Soini, H, additional, Suuronen, S, additional, Toivonen, A, additional, Savolainen-Kopra, C, additional, Loginov, R, additional, and Kurkela, S, additional

Published

2020

8. Chikungunya virus infections in Finnish travellers 2009-2019

Author

Jääskeläinen, A. J., primary, Kareinen, L., additional, Smura, T., additional, Kallio-Kokko, H., additional, and Vapalahti, O., additional

Published

2020

9. Is there an association of Pneumocystis infection with the presence of arena-, hanta-, and poxvirus antibodies in wild mice and shrews in Finland?

Author

LAAKKONEN, J., KALLIO, E. R., KALLIO-KOKKO, H., VAPALAHTI, O., VAHERI, A., and HENTTONEN, H.

Published

2006

10. No association between Ljungan virus seropositivity and the beta-cell damaging process in the Finnish Type 1 Diabetes Prediction and Prevention Study cohort

Author

Jääskeläinen, A. J. (Anne J.), Nurminen, N. (Noora), Kolehmainen, P. (Pekka), Smura, T. (Teemu), Tauriainen, S. (Sisko), Toppari, J. (Jorma), Ilonen, J. (Jorma), Veijola, R. (Riitta), Knip, M. (Mikael), Hyöty, H. (Heikki), Vapalahti, O. (Olli), Kallio-Kokko, H. (Hannimari), Jääskeläinen, A. J. (Anne J.), Nurminen, N. (Noora), Kolehmainen, P. (Pekka), Smura, T. (Teemu), Tauriainen, S. (Sisko), Toppari, J. (Jorma), Ilonen, J. (Jorma), Veijola, R. (Riitta), Knip, M. (Mikael), Hyöty, H. (Heikki), Vapalahti, O. (Olli), and Kallio-Kokko, H. (Hannimari)

Abstract

Background: Ljungan virus (LV) has not confirmed to associate with any human disease, but a possible connection with type 1 diabetes has been suggested. LV is a rodent-borne picornavirus that induces a diabetes-like condition in rodents. Approximately 30% of adults and 60% of children are seropositive in Finland. The Finnish Type 1 Diabetes Prediction and Prevention study enabled the use of very well characterized sample panels from children seroconverted to positivity for multiple islet autoantibodies during their prospective observation from birth; in addition, samples from age, sex, human leukocyte antigen (HLA), and residence area matched control children. Methods: We analyzed LV IgG seroprevalence in 102 case children (65 had also developed type 1 diabetes), in addition to nondiabetic control children. LV and human parechovirus (HPeV) immunofluorescence assays were used to analyze LV and HPeV-specific IgG from 102 plasma samples taken at the time of islet autoantibody appearance and from 204 samples from the matched control children. Results: Altogether 46.1% of the case and 50.7% of the control children were positive for LV IgG (odds ratio 0.8; 95% confidence interval, 0.47–1.36; P = 0.416) and 67.6% versus 79.8% were positive for HPeV IgG, respectively (odds ratio 0.49, 0.27–0.9, P = 0.023). Conclusions: Thus, no risk associations between LV or HPeV-specific IgG and islet autoimmunity were observed. However, a trend for significantly higher prevalence of HPeV antibodies in control children (P = 0.023) suggests a possible protective association of this virus with islet autoimmunity.

Published

2019

11. Evidence for Ljungan virus specific antibodies in humans and rodents, Finland

Author

Jääskeläinen, A., Kolehmainen, P., Voutilainen, L., Hauffe, H.C., Kallio Kokko, H., Tolf, C., Lindberg, M., Henttonen, H., Vaheri, A., Tauriainen, S., and Vapalahti, O.

Published

2012

12. Serological survey in the Finnish human population implies human-to-human transmission of Ljungan virus or antigenically related viruses

Author

JÄÄSKELÄINEN, A. J., primary, VOUTILAINEN, L., additional, LEHMUSTO, R., additional, HENTTONEN, H., additional, LAPPALAINEN, M., additional, KALLIO-KOKKO, H., additional, VAHERI, A., additional, and VAPALAHTI, O., additional

Published

2015

13. Human parechovirus type 4 sequences from infants with sepsis-like disease indicates intertypic recombination

Author

Kolehmainen, P., primary, Siponen, A., additional, Smura, T., additional, Kallio-Kokko, H., additional, Vapalahti, O., additional, Jääskeläinen, A., additional, and Tauriainen, Sisko, additional

Published

2015

14. Zika virus infection in a traveller returning from the Maldives, June 2015.

Author

Korhonen, E. M., Huhtamo, E., Smura, T., Kallio-Kokko, H., Raassina, M., and Vapalahti, O.

Published

2016

15. Serological Survey for Viral Pathogens in Turkish Rodents

Author

Laakkonen, J., primary, Kallio-Kokko, H., additional, Öktem, M. A., additional, Blasdell, K., additional, Plyusnina, A., additional, Niemimaa, J., additional, Karataş, A., additional, Plyusnin, A., additional, Vaheri, A., additional, and Henttonen, H., additional

Published

2006

16. Is there an association ofPneumocystisinfection with the presence of arena-, hanta-, and poxvirus antibodies in wild mice and shrews in Finland?

Author

LAAKKONEN, J., primary, KALLIO, E. R., additional, KALLIO-KOKKO, H., additional, VAPALAHTI, O., additional, VAHERI, A., additional, and HENTTONEN, H., additional

Published

2005

17. Hantavirus and arenavirus antibody prevalence in rodents and humans in Trentino, Northern Italy

Author

KALLIO-KOKKO, H., primary, LAAKKONEN, J., additional, RIZZOLI, A., additional, TAGLIAPIETRA, V., additional, CATTADORI, I., additional, PERKINS, S. E., additional, HUDSON, P. J., additional, CRISTOFOLINI, A., additional, VERSINI, W., additional, VAPALAHTI, O., additional, VAHERI, A., additional, and HENTTONEN, H., additional

Published

2005

18. Evaluation of serological methods for diagnosis of Puumala hantavirus infection (nephropathia epidemica).

Author

Sjölander, K B, Elgh, Fredrik, Kallio-Kokko, H, Vapalahti, O, Hägglund, M, Palmcrantz, V, Juto, P, Vaheri, A, Niklasson, B, Lundkvist, A, Sjölander, K B, Elgh, Fredrik, Kallio-Kokko, H, Vapalahti, O, Hägglund, M, Palmcrantz, V, Juto, P, Vaheri, A, Niklasson, B, and Lundkvist, A

Abstract

Nephropathia epidemica (NE), Puumala (PUU) virus infection, is a febrile disease which is commonly associated with acute renal impairment. To differentiate NE from other acute febrile illnesses, a rapid and reliable serological diagnosis is important, and a number of different protocols have recently been introduced. In the present report we describe a comparative evaluation of six PUU virus immunoglobulin M (IgM) and seven IgG enzyme-linked immunosorbent assay (ELISA) protocols based on native, Escherichia coli-expressed, or baculovirus-expressed nucleocapsid protein (N). Neutralization and immunofluorescence assays were included for comparison. Equally high sensitivities and specificities were obtained with three mu-capture-based IgM ELISAs using native, baculovirus-expressed, and E. coli-expressed N antigens, respectively, and by an ELISA based on purified E. coli-expressed full-length N adsorbed to solid phase. The assays based on truncated amino-terminal N proteins, including a commercially available PUU virus IgM ELISA, all showed lower sensitivities. For detection of PUU virus-specific IgG, ELISAs based on monoclonal antibody-captured native or baculovirus-expressed N antigens showed optimal sensitivities and specificities, while the assays based on E. coli-expressed N did not detect all PUU virus IgG-positive serum samples. A commercially available PUU virus IgG ELISA based on E. coli-expressed amino-terminal N showed a significantly lower sensitivity than those of all other IgG assays.

Published

1997

19. Human recombinant Puumala virus antibodies: cross-reaction with other hantaviruses and use in diagnostics.

Author

Salonen, E M, primary, Burton, D R, additional, Graus, Y F, additional, Vapalahti, O, additional, Lundkvist, A, additional, Kallio-Kokko, H, additional, Vaheri, A, additional, Fisicaro, P, additional, and Parren, P W, additional

Published

1998

20. Evaluation of serological methods for diagnosis of Puumala hantavirus infection (nephropathia epidemica)

Author

Sjölander, K B, primary, Elgh, F, additional, Kallio-Kokko, H, additional, Vapalahti, O, additional, Hägglund, M, additional, Palmcrantz, V, additional, Juto, P, additional, Vaheri, A, additional, Niklasson, B, additional, and Lundkvist, A, additional

Published

1997

21. Antigenic properties and diagnostic potential of puumala virus nucleocapsid protein expressed in insect cells

Author

Vapalahti, O, primary, Lundkvist, A, additional, Kallio-Kokko, H, additional, Paukku, K, additional, Julkunen, I, additional, Lankinen, H, additional, and Vaheri, A, additional

Published

1996

22. Tula virus: a newly detected hantavirus carried by European common voles

Author

Plyusnin, A, primary, Vapalahti, O, additional, Lankinen, H, additional, Lehväslaiho, H, additional, Apekina, N, additional, Myasnikov, Y, additional, Kallio-Kokko, H, additional, Henttonen, H, additional, Lundkvist, A, additional, and Brummer-Korvenkontio, M, additional

Published

1994

23. Puumala virus antibody and immunoglobulin G avidity assays based on a recombinant nucleocapsid antigen

Author

Kallio-Kokko, H, primary, Vapalahti, O, additional, Hedman, K, additional, Brummer-Korvenkontio, M, additional, and Vaheri, A, additional

Published

1993

24. Cloning and sequencing of Puumala virus Sotkamo strain S and M RNA segments: evidence for strain variation in hantaviruses and expression of the nucleocapsid protein

Author

Vapalahti, O., primary, Kallio-Kokko, H., additional, Salonen, E.-M., additional, Brummer-Korvenkontio, M., additional, and Vaheri, A., additional

Published

1992

25. Geographical and temporal distribution of SARS-CoV-2 clades in the WHO European Region, January to June 2020

Author

Alm E., Broberg E.K., Connor T., Hodcroft E.B., Komissarov A.B., Maurer-Stroh S., Melidou A., Neher R.A., O'Toole A., Pereyaslov D., Beerenwinkel N., Posada-Cespedes S., Jablonski K.P., Ferreira P.F., Topolsky I., Avsic-Zupanc T., Korva M., Poljak M., Zakotnik S., Zorec T.M., Bragstad K., Hungnes O., Stene-Johansen K., Reusken C., Meijer A., Vennema H., Ruiz-Roldan L., Bracho M.A., Garcia-Gonzalez N., Chiner-Oms A., Cancino-Munoz I., Comas I., Goig G.A., Torres-Puente M., Lopez M.G., Martinez-Priego L., D'Auria G., Ruiz-Hueso P., Ferrus-Abad L., de Marco G., Galan-Vendrell I., Carbo-Ramirez S., Ruiz-Rodriguez P., Coscolla M., Polackova K., Kramna L., Cinek O., Richter J., Krashias G., Tryfonos C., Bashiardes S., Koptides D., Christodoulou C., Bartolini B., Gruber C.E., Di Caro A., Castilletti C., Stefani F., Rimoldi S.G., Romeri F., Salerno F., Polesello S., Nagy A., Jirincova H., Vecerova J., Novakova L., Cordey S., Murtskhvaladze M., Kotaria N., Schar T., Beisel C., Vugrek O., Rokic F., Trgovec-Greif L., Jurak I., Rukavina T., Sucic N., Schonning K., Karst S.M., Kirkegaard R.H., Michaelsen T.Y., Sorensen E.A., Knutson S., Brandt J., Le-Quy V., Sorensen T., Petersen C., Pedersen M.S., Larsen S.L., Skov M.N., Rasmussen M., Fonager J., Fomsgaard A., Maksyutov R.A., Gavrilova E.V., Pyankov O.V., Bodnev S.A., Tregubchak T.V., Shvalov A.N., Antonets D.V., Resende P.C., Goya S., Perrin A., Lee R.T., Yadahalli S., Han A.X., Russell C.A., Schmutz S., Zaheri M., Kufner V., Huber M., Trkola A., Antwerpen M., Walter M.C., van der Werf S., Gambaro F., Behillil S., Enouf V., Donati F., Ustinova M., Rovite V., Klovins J., Savicka O., Wienecke-Baldacchino A.K., Ragimbeau C., Fournier G., Mossong J., Aberle S.W., Haukland M., Enkirch T., Advani A., Karlberg M.L., Lindsjo O.K., Broddesson S., Slavikova M., Lickova M., Klempa B., Staronova E., Ticha E., Szemes T., Rusnakova D., Stadler T., Quer J., Anton A., Andres C., Pinana M., Garcia-Cehic D., Pumarola T., Izopet J., Gioula G., Exindari M., Papa A., Chatzidimitriou D., Metallidis S., Pappa S., Macek M., Geryk J., Broz P., Briksi A., Hubacek P., Drevinek P., Zajac M., Kvapil P., Holub M., Kvapilova K., Novotny A., Kasny M., Klempt P., Vapalahti O., Smura T., Sironen T., Selhorst P., Anthony C., Arien K., Simon-Loriere E., Rabalski L., Bienkowska-Szewczyk K., Borges V., Isidro J., Gomes J.P., Guiomar R., Pechirra P., Costa I., Duarte S., Vieira L., Pyrc K., Zuckerman N.S., Turdikulova S., Abdullaev A., Dalimova D., Abdurakhimov A., Tagliabracci A., Alessandrini F., Melchionda F., Onofri V., Turchi C., Bagnarelli P., Menzo S., Caucci S., Di Sante L., Popa A., Genger J.-W., Agerer B., Lercher A., Endler L., Smyth M., Penz T., Schuster M., Senekowitsch M., Laine J., Bock C., Bergthaler A., Shevtsov A., Kalendar R., Ramanculov Y., Graf A., Muenchhoff M., Keppler O.T., Krebs S., Blum H., Marcello A., Licastro D., D'Agaro P., Laubscher F., Vidanovic D., Tesovic B., Volkening J., Clementi N., Mancini N., Rupnik M., Mahnic A., Walker A., Houwaart T., Wienemann T., Vasconcelos M.K., Strelow D., Jensen B.-E.O., Senff T., Hulse L., Adams O., Andree M., Hauka S., Feldt T., Keitel V., Kindgen-Milles D., Timm J., Pfeffer K., Dilthey A.T., Moore C., Ozdarendeli A., Pavel S.T.I., Yetiskin H., Aydin G., Holyavkin C., Uygut M.A., Cevik C., Shchetinin A., Gushchin V., Dinler-Doganay G., Doganay L., Kizilboga-Akgun T., Karacan I., Pancer K., Maes P., Marti-Carreras J., Wawina-Bokalanga T., Vanmechelen B., Thurmer A., Wedde M., Durrwald R., von Kleist M., Drechsel O., Wolff T., Fuchs S., Kmiecinski R., Michel J., Nitsche A., Casas I., Caballero M.I., Zaballos A., Jimenez P., Jimenez M., Fernandez S.M., Fernandez S.V., de la Plaza I.C., Fadeev A., Ivanova A., Sergeeva M., Stefanelli P., Estee Torok M., Hall G., da Silva Filipe A., Turtle L., Afifi S., McCluggage K., Beer R., Ledesma J., Maksimovic J., Spellman K., Hamilton W.L., Marchbank A., Southgate J.A., Underwood A., Taylor B., Yeats C., Abudahab K., Gemmell M.R., Eccles R., Lucaci A., Nelson C.A., Rainbow L., Whitehead M., Gregory R., Haldenby S., Paterson S., Hughes M.A., Curran M.D., Baker D., Tucker R., Green L.R., Feltwell T., Halstead F.D., Wyles M., Jahun A.S., Ahmad S.S.Y., Georgana I., Goodfellow I., Yakovleva A., Meredith L.W., Gavriil A., Awan A.R., Fisher C., Edgeworth J., Lynch J., Moore N., Williams R., Kidd S.P., Cortes N., Brunker K., McCrone J.T., Quick J., Duckworth N., Walsh S., Sloan T., Ludden C., George R.P., Eltringham G., Brown J.R., Aranday-Cortes E., Shepherd J.G., Hughes J., Li K.K., Williams T.C., Johnson N., Jesudason N., Mair D., Thomson E., Shah R., Parr Y.A., Carmichael S., Robertson D.L., Nomikou K., Broos A., Niebel M., Smollett K., Tong L., Miah S., Wittner A., Phillips N., Payne B., Dewar R., Holmes A., Bolt F., Price J.R., Mookerjee S., Sethi D.K., Potter W., Stanley R., Prakash R., Dervisevic S., Graham J.C., Nelson A., Smith D., Young G.R., Yew W.C., Todd J.A., Trebes A., Andersson M., Bull M., Watkins J., Birchley A., Gatica-Wilcox B., Gilbert L., Kumziene-Summerhayes S., Rey S., Chauhan A., Butcher E., Bicknell K., Elliott S., Glaysher S., Lackenby A., Bibby D., Platt S., Mohamed H., Machin N.W., Mbisa J.L., Evans J., Perry M., Pacchiarini N., Corden S., Adams A.G., Gaskin A., Coombs J., Graham L.J., Cottrell S., Morgan M., Gifford L., Kolyva A., Rudder S.J., Trotter A.J., Mather A.E., Aydin A., Page A.J., Kay G.L., de Oliveira Martins L., Yasir M., Alikhan N.-F., Thomson N.M., Gilroy R., Kingsley R.A., O'Grady J., Gutierrez A.V., Diaz M., Viet T.L., Tedim A.P., Adriaenssens E.M., Patrick Mcclure C., Sang F., Clark G., Howson-Wells H.C., Debebe J., Ball J., Chappell J., Khakh M., Carlile M., Loose M., Lister M.M., Holmes N., Tsoleridis T., Fleming V.M., Wright V., Smith W., Gallagher M.D., Parker M., Partridge D.G., Evans C., Baker P., Essex S., Liggett S., Keeley A.J., Bashton M., Rooke S., Dervisavic S., Meader E.J., Lopez C.E.B., Angyal A., Kristiansen M., Tutill H.J., Findlay J., Mestek-Boukhibar L., Forrest L., Dyal P., Williams R.J., Panchbhaya Y., Williams C.A., Roy S., Pandey S., Stockton J., Loman N.J., Poplawski R., Nicholls S., Rowe W.P.M., Khokhar F., Pinckert M.L., Hosmillo M., Chaudhry Y., Caller L.G., Davidson R.K., Griffith L., Rambaut A., Jackson B., Colquhoun R., Hill V., Nichols J., Asamaphan P., Darby A., Jackson K.A., Iturriza-Gomara M., Vamos E.E., Green A., Aanensen D., Bonsall D., Buck D., Macintyre-Cockett G., de Cesare M., Pybus O., Golubchik T., Scarlett G., Loveson K.F., Robson S.C., Beckett A., Lindsey B., Groves D.C., Parsons P.J., McHugh M.P., Barnes J.D., Manso C.F., Grammatopoulos D., Menger K.E., Harrison E., Gunson R., Peacock S.J., Gonzalez G., Carr M., Mihaela L., Popovici O., Brytting M., Bresner C., Fuller W., Workman T., Mentis A.F., Kossyvakis A., Karamitros T., Pogka V., Kalliaropoulos A., Horefti E., Kontou A., Martinez-Gonzalez B., Labropoulou V., Voulgari-Kokota A., Evangelidou M., Bizta P., Belimezi M., Lambrechts L., Doymaz M.Z., Yazici M.K., Cetin N.S., Karaaslan E., Kallio-Kokko H., Virtanen J., Suvanto M., Nguyen P.T., Ellonen P., Hannula S., Kangas H., Sreenu V.B., Burian K., Terhes G., Gombos K., Gyenesei A., Urban P., Herczeg R., Jakab F., Kemenesi G., Toth G.E., Somogyi B., Zana B., Zeghbib S., Kuczmog A., Foldes F., Lanszki Z., Madai M., Papp H., Pereszlenyi C.I., Babinszky G.C., Dudas G., Csoma E., Abou Tayoun A.N., Alsheikh-Ali A.A., Loney T., Nowotny N., Abdul-Wahab O., Gonzalez-Candelas F., Andersen M.H., Taylor S., MARTI CARRERAS, Joan, Vanmechelen, Bert, Wawina, Tony, Medical Microbiology and Infection Prevention, AII - Infectious diseases, WHO European Region Sequencing Lab, GISAID EpiCoV Grp, Erik, Alm, Eeva K, Broberg, Thomas, Connor, Emma B, Hodcroft, Andrey B, Komissarov, Sebastian, Maurer-Stroh, Angeliki, Melidou, Richard A, Neher, Áine, O’Toole, Dmitriy, Pereyaslov, WHO European Region sequencing laboratories and GISAID EpiCoV group (Niko Beerenwinkel, The, Posada-Céspedes, Susana, Philipp, Kim, Jablonski, Falé Ferreira, Pedro, Topolsky, Ivan, Avšičžupanc, Tatjana, Korva, Miša, Poljak, Mario, Zakotnik, Samo, Tomaž, Zorec, Mark, Bragstad, Karoline, Hungnes, Olav, Stene-Johansen, Kathrine, Reusken, Chantal, Meijer, Adam, Vennema, Harry, Ruiz-Roldán, Lidia, Alma Bracho, María, García-González, Neri, Chiner-Oms, Álvaro, Cancino-Muñoz, Irving, Comas, Iñaki, A Goig, Galo, Torres-Puente, Manuela, G López, Mariana, Martínez-Priego, Llúcia, D’Auria, Giuseppe, LoretoFerrús-Abad, de Marco, Griselda, Galan-Vendrell, Inmaculada, Carbó-Ramirez, Sandra, Ruíz-Hueso, Paula, Coscollá, Mireia, Polackova, Katerina, Kramna, Lenka, Cinek, Ondrej, Richter, Jan, Krashias, George, Tryfonos, Christina, Bashiardes, Stavro, Koptides, Dana, Christodoulou, Christina, Bartolini, Barbara, Em Gruber, Cesare, Di Caro, Antonino, Castilletti, Concetta, Stefani, Fabrizio, Giordana Rimoldi, Sara, Romeri, Francesca, Salerno, Franco, Polesello, Stefano, Nagy, Alexander, Jirincova, Helena, Vecerova, Jaromira, Novakova, Ludmila, Cordey, Samuel, Murtskhvaladze, Marine, Kotaria, Nato, Schär, Tobia, Beisel, Christian, Vugrek, Oliver, Rokić, Filip, Trgovecgreif, Lovro, Jurak, Igor, Rukavina, Tomislav, Sučić, Neven, Schønning, Kristian, M Karst, Søren, H Kirkegaard, Rasmu, Y Michaelsen, Thoma, Aa Sørensen, Emil, Knutson, Simon, Brandt, Jakob, Le-Quy, Vang, Sørensen, Trine, Petersen, Celine, Schou Pedersen, Martin, Løkkegaard Larsen, Sanne, Nielsine Skov, Marianne, Rasmussen, Morten, Fonager, Jannik, Fomsgaard, Ander, Amirovich Maksyutov, Rinat, Vasil’Evna Gavrilova, Elena, Victorovich Pyankov, Oleg, Alexandrovich Bodnev, Sergey, Vladimirovna Tregubchak, Tatyana, Nikolayevich Shvalov, Alexander, Victorovich Antonets, Deni, Cristina Resende, Paola, Goya, Stephanie, Perrin, Amandine, Tc Lee, Raphael, Yadahalli, Shilpa, X Han, Alvin, A Russell, Colin, Schmutz, Stefan, Zaheri, Maryam, Kufner, Verena, Huber, Michael, Trkola, Alexandra, Antwerpen, Marku, C Walter, Mathia, van der Werf, Sylvie, Gambaro, Fabiana, Behillil, Sylvie, Enouf, Vincent, Donati, Flora, Ustinova, Monta, Rovite, Vita, Klovins, Jani, Savicka, Oksana, K Wienecke-Baldacchino, Anke, Ragimbeau, Catherine, Fournier, Guillaume, Mossong, Joël, W Aberle, Stephan, Haukland, Mattia, Enkirch, Theresa, Advani, Abdolreza, Lind Karlberg, Maria, Karlsson Lindsjö, Oskar, Broddesson, Sandra, Sláviková, Monika, Ličková, Martina, Klempa, Bori, Staroňová, Edita, Tichá, Elena, Szemes, Tomáš, Rusňáková, Diana, Stadler, Tanja, Quer, Josep, Anton, Andre, Andres, Cristina, Piñana, Maria, Garcia-Cehic, Damir, Pumarola, Toma, Izopet, Jacque, Gioula, Georgia, Exindari, Maria, Papa, Anna, Chatzidimitriou, Dimitrio, Metallidis, Symeon, Pappa, Stella, Macek Jr, Milan, Geryk, Jan, Brož, Petr, Briksí, Aleš, Hubáček, Petr, Dřevínek, Pavel, Zajac, Miroslav, Kvapil, Petr, Holub, Michal, Kvapilová, Kateřina, Novotný, Adam, Kašný, Martin, Klempt, Petr, Vapalahti, Olli, Smura, Teemu, Sironen, Tarja, Selhorst, Philippe, Anthony, Colin, Ariën, Kevin, Simon-Loriere, Etienne, Rabalski, Lukasz, Bienkowska-Szewczyk, Krystyna, Borges, Vítor, Isidro, Joana, Paulo Gomes, João, Guiomar, Raquel, Pechirra, Pedro, Costa, Inê, Duarte, Sílvia, Vieira, Luí, Pyrc, Krzysztof, S Zuckerman, Neta, Turdikulova, Shahlo, Abdullaev, Alisher, Dalimova, Dilbar, Abdurakhimov, Abror, Tagliabracci, Adriano, Alessandrini, Federica, Melchionda, Filomena, Onofri, Valerio, Turchi, Chiara, Bagnarelli, Patrizia, Menzo, Stefano, Caucci, Sara, Di Sante, Laura, Popa, Alexandra, Genger, Jakob-Wendelin, Agerer, Benedikt, Lercher, Alexander, Endler, Luka, Smyth, Mark, Penz, Thoma, Schuster, Michael, Senekowitsch, Martin, Laine, Jan, Bock, Christoph, Bergthaler, Andrea, Shevtsov, Alexandr, Kalendar, Ruslan, Ramanculov, Yerlan, Graf, Alexander, Muenchhoff, Maximilian, T Keppler, Oliver, Krebs, Stefan, Blum, Helmut, Marcello, Alessandro, Licastro, Danilo, D’Agaro, Pierlanfranco, Laubscher, Florian, Vidanovic, Dejan, Tesovic, Bojana, Volkening, Jeremy, Clementi, Nicola, Mancini, Nicasio, Rupnik, Maja, Mahnic, Aleksander, Walker, Andrea, Houwaart, Torsten, Wienemann, Tobia, Kohns Vasconcelos, Malte, Strelow, Daniel, Ole Jensen, Björn-Erik, Senff, Tina, Hülse, Lisanna, Adams, Ortwin, Andree, Marcel, Hauka, Sandra, Feldt, Torsten, Keitel, Verena, Kindgen-Milles, Detlef, Timm, Jörg, Pfeffer, Klau, T Dilthey, Alexander, Moore, Catherine, Ozdarendeli, Aykut, Terkis Islam Pavel, Shaikh, Yetiskin, Hazel, Aydin, Gunsu, Holyavkin, Can, Ali Uygut, Muhammet, Cevik, Ceren, Shchetinin, Alexey, Gushchin, Vladimir, Dinler-Doganay, Gizem, Doganay, Levent, Kizilboga-Akgun, Tugba, Karacan, Ilker, Pancer, Katarzyna, Maes, Piet, Martí-Carreras, Joan, Wawina-Bokalanga, Tony, Thürmer, Andrea, Wedde, Marianne, Dürrwald, Ralf, Von Kleist, Max, Drechsel, Oliver, Wolff, Thorsten, Fuchs, Stephan, Kmiecinski, Rene, Michel, Janine, Nitsche, Andrea, Casas, Inmaculada, Iglesias Caballero, María, Zaballos, Ángel, Jiménez, Pilar, Jiménez, Mercede, Monzón Fernández, Sara, Varona Fernández, Sarai, Cuesta De La Plaza, Isabel, Fadeev, Artem, Ivanova, Anna, Sergeeva, Mariia, Stefanelli, Paola, Estee Torok, M, Hall, Grant, da Silva Filipe, Ana, Turtle, Lance, Afifi, Safiah, Mccluggage, Kathryn, Beer, Robert, Ledesma, Juan, Maksimovic, Joshua, Spellman, Karla, L Hamilton, William, Marchbank, Angela, Alexander Southgate, Joel, Underwood, Anthony, Taylor, Ben, Yeats, Corin, Abudahab, Khalil, R Gemmell, Matthew, Eccles, Richard, Lucaci, Anita, Abigail Nelson, Charlotte, Rainbow, Lucille, Whitehead, Mark, Gregory, Richard, Haldenby, Sam, Paterson, Steve, A Hughes, Margaret, D Curran, Martin, Baker, David, Tucker, Rachel, R Green, Luke, Feltwell, Theresa, D Halstead, Fenella, Wyles, Matthew, S Jahun, Aminu, Y Ahmad, Shazaad S, Georgana, Iliana, Goodfellow, Ian, Yakovleva, Anna, W Meredith, Luke, Gavriil, Artemi, Raza Awan, Ali, Fisher, Chloe, Jonathan, European Centre for Disease Prevention and Control [Stockholm, Sweden] (ECDC), Cardiff University, Public Health Wales [Cardiff, Royaume uni], University of Basel (Unibas), Research Institute of Influenza, St. Petersburg, Russia, Agency for science, technology and research [Singapore] (A*STAR), National University of Singapore (NUS), University of Edinburgh, WHO Regional Office for Europe [Copenhagen], We gratefully acknowledge the authors, originating and submitting laboratories of the sequences from GISAID’s EpiCoV Database used in the phylogenetic analysis. We gratefully acknowledge all the staff working with sample collection, sample preparation, sequencing, data analysis and data sharing in all laboratories in the WHO European Region for making this work possible, The WHO European Region sequencing laboratories and GISAID EpiCoV group*: Niko Beerenwinkel, Susana Posada-Céspedes, Kim Philipp Jablonski, Pedro Falé Ferreira, Ivan Topolsky, Tatjana Avšič-Županc, Miša Korva, Mario Poljak, Samo Zakotnik, Tomaž Mark Zorec, Karoline Bragstad, Olav Hungnes, Kathrine Stene-Johansen, Chantal Reusken, Adam Meijer, Harry Vennema, Lidia Ruiz-Roldán, María Alma Bracho, Neris García-González, Álvaro Chiner-Oms, Irving Cancino-Muñoz, Iñaki Comas, Galo A Goig, Manuela Torres-Puente, Mariana G López, Llúcia Martínez-Priego, Giuseppe D'Auria, Paula Ruíz-Hueso, Loreto Ferrús-Abad, Griselda de Marco, Inmaculada Galan-Vendrell, Sandra Carbó-Ramirez, Paula Ruiz-Rodriguez, Mireia Coscollá, Katerina Polackova, Lenka Kramna, Ondrej Cinek, Jan Richter, George Krashias, Christina Tryfonos, Stavros Bashiardes, Dana Koptides, Christina Christodoulou, Barbara Bartolini, Cesare Em Gruber, Antonino Di Caro, Concetta Castilletti, Fabrizio Stefani, Sara Giordana Rimoldi, Francesca Romeri, Franco Salerno, Stefano Polesello, Alexander Nagy, Helena Jirincova, Jaromira Vecerova, Ludmila Novakova, Samuel Cordey, Marine Murtskhvaladze, Nato Kotaria, Tobias Schär, Christian Beisel, Oliver Vugrek, Filip Rokić, Lovro Trgovec-Greif, Igor Jurak, Tomislav Rukavina, Neven Sučić, Kristian Schønning, Søren M Karst, Rasmus H Kirkegaard, Thomas Y Michaelsen, Emil Aa Sørensen, Simon Knutson, Jakob Brandt, Vang Le-Quy, Trine Sørensen, Celine Petersen, Martin Schou Pedersen, Sanne Løkkegaard Larsen, Marianne Nielsine Skov, Morten Rasmussen, Jannik Fonager, Anders Fomsgaard, Rinat Amirovich Maksyutov, Elena Vasil'Evna Gavrilova, Oleg Victorovich Pyankov, Sergey Alexandrovich Bodnev, Tatyana Vladimirovna Tregubchak, Alexander Nikolayevich Shvalov, Denis Victorovich Antonets, Paola Cristina Resende, Stephanie Goya, Amandine Perrin, Raphael Tc Lee, Shilpa Yadahalli, Alvin X Han, Colin A Russell, Stefan Schmutz, Maryam Zaheri, Verena Kufner, Michael Huber, Alexandra Trkola, Markus Antwerpen, Mathias C Walter, Sylvie van der Werf, Fabiana Gambaro, Sylvie Behillil, Vincent Enouf, Flora Donati, Monta Ustinova, Vita Rovite, Janis Klovins, Oksana Savicka, Anke K Wienecke-Baldacchino, Catherine Ragimbeau, Guillaume Fournier, Joël Mossong, Stephan W Aberle, Mattias Haukland, Theresa Enkirch, Abdolreza Advani, Maria Lind Karlberg, Oskar Karlsson Lindsjö, Sandra Broddesson, Monika Sláviková, Martina Ličková, Boris Klempa, Edita Staroňová, Elena Tichá, Tomáš Szemes, Diana Rusňáková, Tanja Stadler, Josep Quer, Andres Anton, Cristina Andres, Maria Piñana, Damir Garcia-Cehic, Tomas Pumarola, Jacques Izopet, Georgia Gioula, Maria Exindari, Anna Papa, Dimitrios Chatzidimitriou, Symeon Metallidis, Stella Pappa, Milan Macek Jr, Jan Geryk, Petr Brož, Aleš Briksí, Petr Hubáček, Pavel Dřevínek, Miroslav Zajac, Petr Kvapil, Michal Holub, Kateřina Kvapilová, Adam Novotný, Martin Kašný, Petr Klempt, Olli Vapalahti, Teemu Smura, Tarja Sironen, Philippe Selhorst, Colin Anthony, Kevin Ariën, Etienne Simon-Loriere, Lukasz Rabalski, Krystyna Bienkowska-Szewczyk, Vítor Borges, Joana Isidro, João Paulo Gomes, Raquel Guiomar, Pedro Pechirra, Inês Costa, Sílvia Duarte, Luís Vieira, Krzysztof Pyrc, Neta S Zuckerman, Shahlo Turdikulova, Alisher Abdullaev, Dilbar Dalimova, Abror Abdurakhimov, Adriano Tagliabracci, Federica Alessandrini, Filomena Melchionda, Valerio Onofri, Chiara Turchi, Patrizia Bagnarelli, Stefano Menzo, Sara Caucci, Laura Di Sante, Alexandra Popa, Jakob-Wendelin Genger, Benedikt Agerer, Alexander Lercher, Lukas Endler, Mark Smyth, Thomas Penz, Michael Schuster, Martin Senekowitsch, Jan Laine, Christoph Bock, Andreas Bergthaler, Alexandr Shevtsov, Ruslan Kalendar, Yerlan Ramanculov, Alexander Graf, Maximilian Muenchhoff, Oliver T Keppler, Stefan Krebs, Helmut Blum, Alessandro Marcello, Danilo Licastro, Pierlanfranco D'Agaro, Florian Laubscher, Dejan Vidanovic, Bojana Tesovic, Jeremy Volkening, Nicola Clementi, Nicasio Mancini, Maja Rupnik, Aleksander Mahnic, Andreas Walker, Torsten Houwaart, Tobias Wienemann, Malte Kohns Vasconcelos, Daniel Strelow, Björn-Erik Ole Jensen, Tina Senff, Lisanna Hülse, Ortwin Adams, Marcel Andree, Sandra Hauka, Torsten Feldt, Verena Keitel, Detlef Kindgen-Milles, Jörg Timm, Klaus Pfeffer, Alexander T Dilthey, Catherine Moore, Aykut Ozdarendeli, Shaikh Terkis Islam Pavel, Hazel Yetiskin, Gunsu Aydin, Can Holyavkin, Muhammet Ali Uygut, Ceren Cevik, Alexey Shchetinin, Vladimir Gushchin, Gizem Dinler-Doganay, Levent Doganay, Tugba Kizilboga-Akgun, Ilker Karacan, Katarzyna Pancer, Piet Maes, Joan Martí-Carreras, Tony Wawina-Bokalanga, Bert Vanmechelen, Andrea Thürmer, Marianne Wedde, Ralf Dürrwald, Max Von Kleist, Oliver Drechsel, Thorsten Wolff, Stephan Fuchs, Rene Kmiecinski, Janine Michel, Andreas Nitsche, Inmaculada Casas, María Iglesias Caballero, Ángel Zaballos, Pilar Jiménez, Mercedes Jiménez, Sara Monzón Fernández, Sarai Varona Fernández, Isabel Cuesta De La Plaza, Artem Fadeev, Anna Ivanova, Mariia Sergeeva, Paola Stefanelli, M Estee Torok, Grant Hall, Ana da Silva Filipe, Lance Turtle, Safiah Afifi, Kathryn Mccluggage, Robert Beer, Juan Ledesma, Joshua Maksimovic, Karla Spellman, William L Hamilton, Angela Marchbank, Joel Alexander Southgate, Anthony Underwood, Ben Taylor, Corin Yeats, Khalil Abudahab, Matthew R Gemmell, Richard Eccles, Anita Lucaci, Charlotte Abigail Nelson, Lucille Rainbow, Mark Whitehead, Richard Gregory, Sam Haldenby, Steve Paterson, Margaret A Hughes, Martin D Curran, David Baker, Rachel Tucker, Luke R Green, Theresa Feltwell, Fenella D Halstead, Matthew Wyles, Aminu S Jahun, Shazaad S Y Ahmad, Iliana Georgana, Ian Goodfellow, Anna Yakovleva, Luke W Meredith, Artemis Gavriil, Ali Raza Awan, Chloe Fisher, Jonathan Edgeworth, Jessica Lynch, Nathan Moore, Rebecca Williams, Stephen P Kidd, Nicholas Cortes, Kirstyn Brunker, John T Mccrone, Joshua Quick, Nichola Duckworth, Sarah Walsh, Tim Sloan, Catherine Ludden, Ryan P George, Gary Eltringham, Julianne R Brown, Elihu Aranday-Cortes, James G Shepherd, Joseph Hughes, Kathy K Li, Thomas C Williams, Natasha Johnson, Natasha Jesudason, Daniel Mair, Emma Thomson, Rajiv Shah, Yasmin A Parr, Stephen Carmichael, David L Robertson, Kyriaki Nomikou, Alice Broos, Marc Niebel, Katherine Smollett, Lily Tong, Shahjahan Miah, Anita Wittner, Nicole Phillips, Brendan Payne, Rebecca Dewar, Alison Holmes, Frances Bolt, James R Price, Siddharth Mookerjee, Dheeraj K Sethi, Will Potter, Rachael Stanley, Reenesh Prakash, Samir Dervisevic, Jonathan Clive Graham, Andrew Nelson, Darren Smith, Gregory R Young, Wen Chyin Yew, John A Todd, Amy Trebes, Monique Andersson, Matthew Bull, Joanne Watkins, Alec Birchley, Bree Gatica-Wilcox, Lauren Gilbert, Sara Kumžiene-Summerhayes, Sara Rey, Anoop Chauhan, Ethan Butcher, Kelly Bicknell, Scott Elliott, Sharon Glaysher, Angie Lackenby, David Bibby, Steven Platt, Hodan Mohamed, Nicholas William Machin, Jean Lutamyo Mbisa, Jonathan Evans, Malorie Perry, Nicole Pacchiarini, Sally Corden, Alexander Geraint Adams, Amy Gaskin, Jason Coombs, Lee John Graham, Simon Cottrell, Mari Morgan, Laura Gifford, Anastasia Kolyva, Steven John Rudder, Alexander J Trotter, Alison E Mather, Alp Aydin, Andrew J Page, Gemma L Kay, Leonardo de Oliveira Martins, Muhammad Yasir, Nabil-Fareed Alikhan, Nicholas M Thomson, Rachel Gilroy, Robert A Kingsley, Justin O'Grady, Ana Victoria Gutierrez, Maria Diaz, Thanh Le Viet, Ana P Tedim, Evelien M Adriaenssens, C Patrick Mcclure, Christopher Moore, Fei Sang, Gemma Clark, Hannah C Howson-Wells, Johnny Debebe, Jonathan Ball, Joseph Chappell, Manjinder Khakh, Matthew Carlile, Matthew Loose, Michelle M Lister, Nadine Holmes, Theocharis Tsoleridis, Vicki M Fleming, Victoria Wright, Wendy Smith, Michael D Gallagher, Matthew Parker, David G Partridge, Cariad Evans, Paul Baker, Sarah Essex, Steven Liggett, Alexander J Keeley, Matthew Bashton, Stefan Rooke, Samir Dervisevic, Emma Jane Meader, Carlos Enrique Balcazar Lopez, Adrienn Angyal, Mark Kristiansen, Helena J Tutill, Jacqueline Findlay, Lamia Mestek-Boukhibar, Leysa Forrest, Patricia Dyal, Rachel J Williams, Yasmin Panchbhaya, Charlotte A Williams, Sunando Roy, Sarojini Pandey, Jo Stockton, Nicholas J Loman, Radoslaw Poplawski, Samuel Nicholls, W P M Rowe, Fahad Khokhar, Malte Lars Pinckert, Myra Hosmillo, Yasmin Chaudhry, Laura G Caller, Rose K Davidson, Luke Griffith, Andrew Rambaut, Ben Jackson, Rachel Colquhoun, Verity Hill, Jenna Nichols, Patawee Asamaphan, Alistair Darby, Kathryn A Jackson, Miren Iturriza-Gomara, Ecaterina Edith Vamos, Angie Green, David Aanensen, David Bonsall, David Buck, George Macintyre-Cockett, Mariateresa de Cesare, Oliver Pybus, Tanya Golubchik, Garry Scarlett, Katie F Loveson, Samuel C Robson, Angela Beckett, Benjamin 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K., Connor, T., Hodcroft, E. B., Komissarov, A. B., Maurer-Stroh, S., Melidou, A., Neher, R. A., O'Toole, A., Pereyaslov, D., Beerenwinkel, N., Posada-Cespedes, S., Jablonski, K. P., Ferreira, P. F., Topolsky, I., Avsic-Zupanc, T., Korva, M., Poljak, M., Zakotnik, S., Zorec, T. M., Bragstad, K., Hungnes, O., Stene-Johansen, K., Reusken, C., Meijer, A., Vennema, H., Ruiz-Roldan, L., Bracho, M. A., Garcia-Gonzalez, N., Chiner-Oms, A., Cancino-Munoz, I., Comas, I., Goig, G. A., Torres-Puente, M., Lopez, M. G., Martinez-Priego, L., D'Auria, G., Ruiz-Hueso, P., Ferrus-Abad, L., de Marco, G., Galan-Vendrell, I., Carbo-Ramirez, S., Ruiz-Rodriguez, P., Coscolla, M., Polackova, K., Kramna, L., Cinek, O., Richter, J., Krashias, G., Tryfonos, C., Bashiardes, S., Koptides, D., Christodoulou, C., Bartolini, B., Gruber, C. E., Di Caro, A., Castilletti, C., Stefani, F., Rimoldi, S. 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W., Haukland, M., Enkirch, T., Advani, A., Karlberg, M. L., Lindsjo, O. K., Broddesson, S., Slavikova, M., Lickova, M., Klempa, B., Staronova, E., Ticha, E., Szemes, T., Rusnakova, D., Stadler, T., Quer, J., Anton, A., Andres, C., Pinana, M., Garcia-Cehic, D., Pumarola, T., Izopet, J., Gioula, G., Exindari, M., Papa, A., Chatzidimitriou, D., Metallidis, S., Pappa, S., Macek, M., Geryk, J., Broz, P., Briksi, A., Hubacek, P., Drevinek, P., Zajac, M., Kvapil, P., Holub, M., Kvapilova, K., Novotny, A., Kasny, M., Klempt, P., Vapalahti, O., Smura, T., Sironen, T., Selhorst, P., Anthony, C., Arien, K., Simon-Loriere, E., Rabalski, L., Bienkowska-Szewczyk, K., Borges, V., Isidro, J., Gomes, J. P., Guiomar, R., Pechirra, P., Costa, I., Duarte, S., Vieira, L., Pyrc, K., Zuckerman, N. S., Turdikulova, S., Abdullaev, A., Dalimova, D., Abdurakhimov, A., Tagliabracci, A., Alessandrini, F., Melchionda, F., Onofri, V., Turchi, C., Bagnarelli, P., Menzo, S., Caucci, S., Di Sante, L., Popa, A., Genger, J. -W., Agerer, B., Lercher, A., Endler, L., Smyth, M., Penz, T., Schuster, M., Senekowitsch, M., Laine, J., Bock, C., Bergthaler, A., Shevtsov, A., Kalendar, R., Ramanculov, Y., Graf, A., Muenchhoff, M., Keppler, O. T., Krebs, S., Blum, H., Marcello, A., Licastro, D., D'Agaro, P., Laubscher, F., Vidanovic, D., Tesovic, B., Volkening, J., Clementi, N., Mancini, N., Rupnik, M., Mahnic, A., Walker, A., Houwaart, T., Wienemann, T., Vasconcelos, M. K., Strelow, D., Jensen, B. -E. O., Senff, T., Hulse, L., Adams, O., Andree, M., Hauka, S., Feldt, T., Keitel, V., Kindgen-Milles, D., Timm, J., Pfeffer, K., Dilthey, A. T., Moore, C., Ozdarendeli, A., Pavel, S. T. I., Yetiskin, H., Aydin, G., Holyavkin, C., Uygut, M. A., Cevik, C., Shchetinin, A., Gushchin, V., Dinler-Doganay, G., Doganay, L., Kizilboga-Akgun, T., Karacan, I., Pancer, K., Maes, P., Marti-Carreras, J., Wawina-Bokalanga, T., Vanmechelen, B., Thurmer, A., Wedde, M., Durrwald, R., von Kleist, M., Drechsel, O., Wolff, T., Fuchs, S., Kmiecinski, R., Michel, J., Nitsche, A., Casas, I., Caballero, M. I., Zaballos, A., Jimenez, P., Jimenez, M., Fernandez, S. M., Fernandez, S. V., de la Plaza, I. C., Fadeev, A., Ivanova, A., Sergeeva, M., Stefanelli, P., Estee Torok, M., Hall, G., da Silva Filipe, A., Turtle, L., Afifi, S., Mccluggage, K., Beer, R., Ledesma, J., Maksimovic, J., Spellman, K., Hamilton, W. L., Marchbank, A., Southgate, J. A., Underwood, A., Taylor, B., Yeats, C., Abudahab, K., Gemmell, M. R., Eccles, R., Lucaci, A., Nelson, C. A., Rainbow, L., Whitehead, M., Gregory, R., Haldenby, S., Paterson, S., Hughes, M. A., Curran, M. D., Baker, D., Tucker, R., Green, L. R., Feltwell, T., Halstead, F. D., Wyles, M., Jahun, A. S., Ahmad, S. S. Y., Georgana, I., Goodfellow, I., Yakovleva, A., Meredith, L. W., Gavriil, A., Awan, A. R., Fisher, C., Edgeworth, J., Lynch, J., Moore, N., Williams, R., Kidd, S. P., Cortes, N., Brunker, K., Mccrone, J. T., Quick, J., Duckworth, N., Walsh, S., Sloan, T., Ludden, C., George, R. P., Eltringham, G., Brown, J. R., Aranday-Cortes, E., Shepherd, J. G., Hughes, J., Li, K. K., Williams, T. C., Johnson, N., Jesudason, N., Mair, D., Thomson, E., Shah, R., Parr, Y. A., Carmichael, S., Robertson, D. L., Nomikou, K., Broos, A., Niebel, M., Smollett, K., Tong, L., Miah, S., Wittner, A., Phillips, N., Payne, B., Dewar, R., Holmes, A., Bolt, F., Price, J. R., Mookerjee, S., Sethi, D. K., Potter, W., Stanley, R., Prakash, R., Dervisevic, S., Graham, J. C., Nelson, A., Smith, D., Young, G. R., Yew, W. C., Todd, J. A., Trebes, A., Andersson, M., Bull, M., Watkins, J., Birchley, A., Gatica-Wilcox, B., Gilbert, L., Kumziene-Summerhayes, S., Rey, S., Chauhan, A., Butcher, E., Bicknell, K., Elliott, S., Glaysher, S., Lackenby, A., Bibby, D., Platt, S., Mohamed, H., Machin, N. W., Mbisa, J. L., Evans, J., Perry, M., Pacchiarini, N., Corden, S., Adams, A. G., Gaskin, A., Coombs, J., Graham, L. J., Cottrell, S., Morgan, M., Gifford, L., Kolyva, A., Rudder, S. J., Trotter, A. J., Mather, A. E., Aydin, A., Page, A. J., Kay, G. L., de Oliveira Martins, L., Yasir, M., Alikhan, N. -F., Thomson, N. M., Gilroy, R., Kingsley, R. A., O'Grady, J., Gutierrez, A. V., Diaz, M., Viet, T. L., Tedim, A. P., Adriaenssens, E. M., Patrick Mcclure, C., Sang, F., Clark, G., Howson-Wells, H. C., Debebe, J., Ball, J., Chappell, J., Khakh, M., Carlile, M., Loose, M., Lister, M. M., Holmes, N., Tsoleridis, T., Fleming, V. M., Wright, V., Smith, W., Gallagher, M. D., Parker, M., Partridge, D. G., Evans, C., Baker, P., Essex, S., Liggett, S., Keeley, A. J., Bashton, M., Rooke, S., Dervisavic, S., Meader, E. J., Lopez, C. E. B., Angyal, A., Kristiansen, M., Tutill, H. J., Findlay, J., Mestek-Boukhibar, L., Forrest, L., Dyal, P., Williams, R. J., Panchbhaya, Y., Williams, C. A., Roy, S., Pandey, S., Stockton, J., Loman, N. J., Poplawski, R., Nicholls, S., Rowe, W. P. M., Khokhar, F., Pinckert, M. L., Hosmillo, M., Chaudhry, Y., Caller, L. G., Davidson, R. K., Griffith, L., Rambaut, A., Jackson, B., Colquhoun, R., Hill, V., Nichols, J., Asamaphan, P., Darby, A., Jackson, K. A., Iturriza-Gomara, M., Vamos, E. E., Green, A., Aanensen, D., Bonsall, D., Buck, D., Macintyre-Cockett, G., de Cesare, M., Pybus, O., Golubchik, T., Scarlett, G., Loveson, K. F., Robson, S. C., Beckett, A., Lindsey, B., Groves, D. C., Parsons, P. J., Mchugh, M. P., Barnes, J. D., Manso, C. F., Grammatopoulos, D., Menger, K. E., Harrison, E., Gunson, R., Peacock, S. J., Gonzalez, G., Carr, M., Mihaela, L., Popovici, O., Brytting, M., Bresner, C., Fuller, W., Workman, T., Mentis, A. F., Kossyvakis, A., Karamitros, T., Pogka, V., Kalliaropoulos, A., Horefti, E., Kontou, A., Martinez-Gonzalez, B., Labropoulou, V., Voulgari-Kokota, A., Evangelidou, M., Bizta, P., Belimezi, M., Lambrechts, L., Doymaz, M. Z., Yazici, M. K., Cetin, N. S., Karaaslan, E., Kallio-Kokko, H., Virtanen, J., Suvanto, M., Nguyen, P. T., Ellonen, P., Hannula, S., Kangas, H., Sreenu, V. B., Burian, K., Terhes, G., Gombos, K., Gyenesei, A., Urban, P., Herczeg, R., Jakab, F., Kemenesi, G., Toth, G. E., Somogyi, B., Zana, B., Zeghbib, S., Kuczmog, A., Foldes, F., Lanszki, Z., Madai, M., Papp, H., Pereszlenyi, C. I., Babinszky, G. C., Dudas, G., Csoma, E., Abou Tayoun, A. N., Alsheikh-Ali, A. A., Loney, T., Nowotny, N., Abdul-Wahab, O., Gonzalez-Candelas, F., Andersen, M. H., Taylor, S., European Centre for Disease Prevention and Control (ECDC), Public Health Wales Microbiology Cardiff, Faculty of Agriculture and Forestry, Department of Agricultural Sciences, and Institute of Biotechnology

Subjects

Infecções Respiratórias, 0301 basic medicine, MESH: Coronavirus Infections, Epidemiology, [SDV]Life Sciences [q-bio], Distribution (economics), Wastewater, MESH: Base Sequence, Severe Acute Respiratory Syndrome, MESH: World Health Organization, Pandemic, MESH: Coronavirus, MESH: COVID-19, Sequencing, Viral, Clade, Nomenclature, Genome, biology, COVID-19, Europe, NGS, SARS-CoV-2, WGS, nomenclature, sequencing, Base Sequence, Betacoronavirus, Coronavirus, Coronavirus Infections, Genome, Viral, Humans, Phylogeography, Pneumonia, Viral, RNA, Viral, RNA-Dependent RNA Polymerase, Spatio-Temporal Analysis, World Health Organization, Pandemics, C500, European region, 3. Good health, Geography, MESH: Phylogeography, MESH: RNA-Dependent RNA Polymerase, MESH: RNA, Viral, MESH: Betacoronavirus, Spatio-Temporal Analysi, MESH: Genome, Viral, Cartography, Human, Bioquímica, MESH: Pandemics, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Coronaviru, 030106 microbiology, 03 medical and health sciences, MESH: Spatio-Temporal Analysis, MESH: Severe Acute Respiratory Syndrome, Virology, MESH: SARS-CoV-2, Whole genome sequencing, MESH: Humans, Whole Genome Sequencing, Betacoronaviru, Coronavirus Infection, business.industry, Public Health, Environmental and Occupational Health, Pneumonia, biology.organism_classification, B900, 030104 developmental biology, MESH: Pneumonia, Viral, RNA, SARS_CoV-2, 3111 Biomedicine, MESH: Europe, Human medicine, business

Abstract

8 páginas, 3 figuras, We show the distribution of severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) genetic clades over time and between countries and outline potential genomic surveillance objectives. We applied three genomic nomenclature systems to all sequence data from the World Health Organization European Region available until 10 July 2020. We highlight the importance of real-time sequencing and data dissemination in a pandemic situation, compare the nomenclatures and lay a foundation for future European genomic surveillance of SARS-CoV-2., We gratefully acknowledge the authors, originating and submitting laboratories of the sequences from GISAID’s EpiCoV Database used in the phylogenetic analysis. We gratefully acknowledge all the staff working with sample collection, sample preparation, sequencing, data analysis and data sharing in all laboratories in the WHO European Region for making this work possible.

26. Intrahost Monkeypox Virus Genome Variation in Patient with Early Infection, Finland, 2022.

Author

Vauhkonen H, Kallio-Kokko H, Hiltunen-Back E, Lönnqvist L, Leppäaho-Lakka J, Mannonen L, Kant R, Sironen T, Kurkela S, Lappalainen M, Zorec TM, Zakotnik S, Vlaj D, Korva M, Avšič-Županc T, Poljak M, Smura T, and Vapalahti O

Subjects

Humans, Finland, Mutation, Monkeypox virus, Mpox (monkeypox)

Abstract

Monkeypox virus was imported into Finland during late May-early June 2022. Intrahost viral genome variation in a sample from 1 patient comprised a major variant with 3 lineage B.1.3-specific mutations and a minor variant with ancestral B.1 nucleotides. Results suggest either ongoing APOBEC3 enzyme-mediated evolution or co-infection.

Published

2023

27. The phylodynamics of SARS-CoV-2 during 2020 in Finland.

Author

Truong Nguyen P, Kant R, Van den Broeck F, Suvanto MT, Alburkat H, Virtanen J, Ahvenainen E, Castren R, Hong SL, Baele G, Ahava MJ, Jarva H, Jokiranta ST, Kallio-Kokko H, Kekäläinen E, Kirjavainen V, Kortela E, Kurkela S, Lappalainen M, Liimatainen H, Suchard MA, Hannula S, Ellonen P, Sironen T, Lemey P, Vapalahti O, and Smura T

Abstract

Background: Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has caused millions of infections and fatalities globally since its emergence in late 2019. The virus was first detected in Finland in January 2020, after which it rapidly spread among the populace in spring. However, compared to other European nations, Finland has had a low incidence of SARS-CoV-2. To gain insight into the origins and turnover of SARS-CoV-2 lineages circulating in Finland in 2020, we investigated the phylogeographic and -dynamic history of the virus., Methods: The origins of SARS-CoV-2 introductions were inferred via Travel-aware Bayesian time-measured phylogeographic analyses. Sequences for the analyses included virus genomes belonging to the B.1 lineage and with the D614G mutation from countries of likely origin, which were determined utilizing Google mobility data. We collected all available sequences from spring and fall peaks to study lineage dynamics., Results: We observed rapid turnover among Finnish lineages during this period. Clade 20C became the most prevalent among sequenced cases and was replaced by other strains in fall 2020. Bayesian phylogeographic reconstructions suggested 42 independent introductions into Finland during spring 2020, mainly from Italy, Austria, and Spain., Conclusions: A single introduction from Spain might have seeded one-third of cases in Finland during spring in 2020. The investigations of the original introductions of SARS-CoV-2 to Finland during the early stages of the pandemic and of the subsequent lineage dynamics could be utilized to assess the role of transboundary movements and the effects of early intervention and public health measures., Competing Interests: Competing interestsThe authors declare that they have no competing interests., (© The Author(s) 2022.)

Published

2022

28. Veterinarians as a Risk Group for Zoonoses: Exposure, Knowledge and Protective Practices in Finland.

Author

Kinnunen PM, Matomäki A, Verkola M, Heikinheimo A, Vapalahti O, Kallio-Kokko H, Virtala AM, and Jokelainen P

Abstract

Background: Veterinarians may encounter a variety of zoonotic pathogens in their work., Methods: We conducted two cross-sectional questionnaire studies among veterinarians in Finland. Participants were recruited during two Annual Veterinary Congresses. In 2009, 306 veterinarians participated in an extensive questionnaire study, and in 2016, 262 veterinarians participated in a more focused study that included two same questions., Results: In 2009, the majority (90.9%) of the participating veterinarians reported having been occupationally exposed to zoonotic pathogens. Zoonotic infections (15.0%), needle stick incidents (78.8%), bites (85.0%), as well as infected skin lesions (24.2%) were reported. In 2009, 8.2% of the participants fully agreed with the statement "I have good knowledge of zoonoses and their prevention"; in 2016, the proportion was 10.3%. The reported use of protective practices and personal protective equipment in connection with specific veterinary procedures indicated that there was room for improvement, particularly in protection from pathogens that are transmissible via inhalation and mucous membranes., Conclusion: The results confirm that veterinarians are commonly occupationally exposed to zoonotic pathogens. Education should aim to improve and maintain the knowledge of zoonoses and their prevention. Use of protective practices should be advocated., Competing Interests: PMK is currently affiliated to MSD Animal Health. The studies were completed before the affiliation change, and MSD Animal Health has had no influence on the content of this article. No other conflicts of interest., (© 2021 The Authors.)

Published

2022

29. Incidence Trends for SARS-CoV-2 Alpha and Beta Variants, Finland, Spring 2021.

Author

Kant R, Nguyen PT, Blomqvist S, Erdin M, Alburkat H, Suvanto M, Zakham F, Salminen V, Olander V, Paloniemi M, Huhti L, Lehtinen S, Luukinen B, Jarva H, Kallio-Kokko H, Kurkela S, Lappalainen M, Liimatainen H, Hannula S, Halkilahti J, Ikonen J, Ikonen N, Helve O, Gunell M, Vuorinen T, Plyusnin I, Lindh E, Ellonen P, Sironen T, Savolainen-Kopra C, Smura T, and Vapalahti O

Subjects

Finland epidemiology, Humans, Incidence, Phylogeny, COVID-19, SARS-CoV-2

Abstract

Severe acute respiratory syndrome coronavirus 2 Alpha and Beta variants became dominant in Finland in spring 2021 but had diminished by summer. We used phylogenetic clustering to identify sources of spreading. We found that outbreaks were mostly seeded by a few introductions, highlighting the importance of surveillance and prevention policies.

Published

2021

30. Real-life clinical sensitivity of SARS-CoV-2 RT-PCR test in symptomatic patients.

Author

Kortela E, Kirjavainen V, Ahava MJ, Jokiranta ST, But A, Lindahl A, Jääskeläinen AE, Jääskeläinen AJ, Järvinen A, Jokela P, Kallio-Kokko H, Loginov R, Mannonen L, Ruotsalainen E, Sironen T, Vapalahti O, Lappalainen M, Kreivi HR, Jarva H, Kurkela S, and Kekäläinen E

Subjects

Adult, Aged, COVID-19 Nucleic Acid Testing methods, False Negative Reactions, Female, Humans, Male, Middle Aged, Random Allocation, Reagent Kits, Diagnostic standards, COVID-19 Nucleic Acid Testing standards

Abstract

Background: Understanding the false negative rates of SARS-CoV-2 RT-PCR testing is pivotal for the management of the COVID-19 pandemic and it has implications for patient management. Our aim was to determine the real-life clinical sensitivity of SARS-CoV-2 RT-PCR., Methods: This population-based retrospective study was conducted in March-April 2020 in the Helsinki Capital Region, Finland. Adults who were clinically suspected of SARS-CoV-2 infection and underwent SARS-CoV-2 RT-PCR testing, with sufficient data in their medical records for grading of clinical suspicion were eligible. In addition to examining the first RT-PCR test of repeat-tested individuals, we also used high clinical suspicion for COVID-19 as the reference standard for calculating the sensitivity of SARS-CoV-2 RT-PCR., Results: All 1,194 inpatients (mean [SD] age, 63.2 [18.3] years; 45.2% women) admitted to COVID-19 cohort wards during the study period were included. The outpatient cohort of 1,814 individuals (mean [SD] age, 45.4 [17.2] years; 69.1% women) was sampled from epidemiological line lists by systematic quasi-random sampling. The sensitivity (95% CI) for laboratory confirmed cases (repeat-tested patients) was 85.7% (81.5-89.1%) inpatients; 95.5% (92.2-97.5%) outpatients, 89.9% (88.2-92.1%) all. When also patients that were graded as high suspicion but never tested positive were included in the denominator, the sensitivity (95% CI) was: 67.5% (62.9-71.9%) inpatients; 34.9% (31.4-38.5%) outpatients; 47.3% (44.4-50.3%) all., Conclusions: The clinical sensitivity of SARS-CoV-2 RT-PCR testing was only moderate at best. The relatively high false negative rates of SARS-CoV-2 RT-PCR testing need to be accounted for in clinical decision making, epidemiological interpretations, and when using RT-PCR as a reference for other tests., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: Dr. Kortela reports non-financial support from MSD, outside the submitted work. Prof. Järvinen reports lecture honoraria from Astellas, OrionPharma, Pfizer, MSD, Sanofi and UnimedicPharma and consultation fee from CSL Behring outside the submitted manuscript. Dr. Kekäläinen reports a lecture honorarium from MSD. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2021

31. Comparison of Two Commercial Platforms and a Laboratory-Developed Test for Detection of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) RNA.

Author

Mannonen L, Kallio-Kokko H, Loginov R, Jääskeläinen A, Jokela P, Antikainen J, Väre P, Kekäläinen E, Kurkela S, Jarva H, and Lappalainen M

Subjects

COVID-19 epidemiology, Humans, Nucleic Acid Amplification Techniques methods, COVID-19 virology, COVID-19 Testing methods, SARS-CoV-2 isolation & purification

Abstract

Mitigation of the ongoing coronavirus disease 2019 (COVID-19) pandemic requires reliable and accessible laboratory diagnostic services. In this study, the performance of one laboratory-developed test (LDT) and two commercial tests, cobas SARS-CoV-2 (Roche) and Amplidiag COVID-19 (Mobidiag), were evaluated for the detection of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) RNA in respiratory specimens. A total of 183 specimens collected from suspected COVID-19 patients were studied with all three methods to compare their performance. In relation to the reference standard, which was established as the result obtained by two of the three studied methods, the positive percent agreement was highest for the cobas test (100%), followed by the Amplidiag test and the LDT (98.9%). The negative percent agreement was lowest for the cobas test (89.4%), followed by the Amplidiag test (98.8%), and the highest value was obtained for the LDT (100%). The dilution series of positive specimens, however, suggests significantly higher sensitivity for the cobas assay in comparison with the other two assays, and the low negative percent agreement value may be due to the same reason. In general, all tested assays performed adequately. Clinical laboratories need to be prepared for uninterrupted high-throughput testing during the coming months to mitigate the pandemic. To ensure no interruption, it is critical that clinical laboratories maintain several simultaneous platforms in their SARS-CoV-2 nucleic acid testing., (Copyright © 2021 Association for Molecular Pathology and American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2021

32. Neuropilin-1 facilitates SARS-CoV-2 cell entry and infectivity.

Author

Cantuti-Castelvetri L, Ojha R, Pedro LD, Djannatian M, Franz J, Kuivanen S, van der Meer F, Kallio K, Kaya T, Anastasina M, Smura T, Levanov L, Szirovicza L, Tobi A, Kallio-Kokko H, Österlund P, Joensuu M, Meunier FA, Butcher SJ, Winkler MS, Mollenhauer B, Helenius A, Gokce O, Teesalu T, Hepojoki J, Vapalahti O, Stadelmann C, Balistreri G, and Simons M

Subjects

Angiotensin-Converting Enzyme 2, Animals, Antibodies, Monoclonal immunology, Betacoronavirus genetics, COVID-19, Caco-2 Cells, Female, HEK293 Cells, Host Microbial Interactions, Humans, Lung metabolism, Male, Metal Nanoparticles, Mice, Mice, Inbred C57BL, Mutation, Neuropilin-1 chemistry, Neuropilin-1 genetics, Neuropilin-1 immunology, Neuropilin-2 metabolism, Olfactory Mucosa metabolism, Olfactory Mucosa virology, Pandemics, Peptide Fragments metabolism, Peptidyl-Dipeptidase A genetics, Peptidyl-Dipeptidase A metabolism, Protein Binding, Protein Domains, Respiratory Mucosa metabolism, SARS-CoV-2, Serine Endopeptidases genetics, Serine Endopeptidases metabolism, Spike Glycoprotein, Coronavirus chemistry, Betacoronavirus physiology, Coronavirus Infections virology, Neuropilin-1 metabolism, Pneumonia, Viral virology, Spike Glycoprotein, Coronavirus metabolism, Virus Internalization

Abstract

The causative agent of coronavirus disease 2019 (COVID-19) is the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). For many viruses, tissue tropism is determined by the availability of virus receptors and entry cofactors on the surface of host cells. In this study, we found that neuropilin-1 (NRP1), known to bind furin-cleaved substrates, significantly potentiates SARS-CoV-2 infectivity, an effect blocked by a monoclonal blocking antibody against NRP1. A SARS-CoV-2 mutant with an altered furin cleavage site did not depend on NRP1 for infectivity. Pathological analysis of olfactory epithelium obtained from human COVID-19 autopsies revealed that SARS-CoV-2 infected NRP1-positive cells facing the nasal cavity. Our data provide insight into SARS-CoV-2 cell infectivity and define a potential target for antiviral intervention., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2020

33. Evaluation of commercial and automated SARS-CoV-2 IgG and IgA ELISAs using coronavirus disease (COVID-19) patient samples.

Author

Jääskeläinen AJ, Kekäläinen E, Kallio-Kokko H, Mannonen L, Kortela E, Vapalahti O, Kurkela S, and Lappalainen M

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Automation, Laboratory, Betacoronavirus, COVID-19, COVID-19 Testing, Child, Child, Preschool, Clinical Laboratory Techniques standards, Coronavirus Infections epidemiology, Finland epidemiology, Humans, Middle Aged, Pandemics, Pneumonia, Viral epidemiology, Reproducibility of Results, Retrospective Studies, SARS-CoV-2, Sensitivity and Specificity, Young Adult, Clinical Laboratory Techniques methods, Coronavirus Infections diagnosis, Enzyme-Linked Immunosorbent Assay methods, Immunoglobulin A blood, Immunoglobulin G blood, Pneumonia, Viral diagnosis, Reagent Kits, Diagnostic standards

Abstract

Antibody-screening methods to detect severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) need to be validated. We evaluated SARS-CoV-2 IgG and IgA ELISAs in conjunction with the EUROLabworkstation (Euroimmun, Lübeck, Germany). Overall specificities were 91.9% and 73.0% for IgG and IgA ELISAs, respectively. Of 39 coronavirus disease patients, 13 were IgG and IgA positive and 11 IgA alone at sampling. IgGs and IgAs were respectively detected at a median of 12 and 11 days after symptom onset.

Published

2020

34. Serological and molecular findings during SARS-CoV-2 infection: the first case study in Finland, January to February 2020.

Author

Haveri A, Smura T, Kuivanen S, Österlund P, Hepojoki J, Ikonen N, Pitkäpaasi M, Blomqvist S, Rönkkö E, Kantele A, Strandin T, Kallio-Kokko H, Mannonen L, Lappalainen M, Broas M, Jiang M, Siira L, Salminen M, Puumalainen T, Sane J, Melin M, Vapalahti O, and Savolainen-Kopra C

Subjects

Adult, Antibodies, Viral blood, Asymptomatic Infections, Betacoronavirus, COVID-19, COVID-19 Testing, China, Clinical Laboratory Techniques, Coronavirus immunology, Female, Finland, Fluorescent Antibody Technique, Humans, Immunoglobulin A blood, Immunoglobulin G blood, Immunoglobulin M blood, Neutralization Tests, Severe acute respiratory syndrome-related coronavirus pathogenicity, SARS-CoV-2, Severe Acute Respiratory Syndrome etiology, Severe Acute Respiratory Syndrome virology, Viral Envelope Proteins, Contact Tracing, Coronavirus genetics, Coronavirus isolation & purification, Coronavirus Infections diagnosis, Coronavirus Infections transmission, Coronavirus Infections virology, Pandemics, Pneumonia, Viral diagnosis, Pneumonia, Viral transmission, Pneumonia, Viral virology, Severe acute respiratory syndrome-related coronavirus immunology, Severe Acute Respiratory Syndrome immunology, Travel

Abstract

The first case of coronavirus disease (COVID-19) in Finland was confirmed on 29 January 2020. No secondary cases were detected. We describe the clinical picture and laboratory findings 3-23 days since the first symptoms. The SARS-CoV-2/Finland/1/2020 virus strain was isolated, the genome showing a single nucleotide substitution to the reference strain from Wuhan. Neutralising antibody response appeared within 9 days along with specific IgM and IgG response, targeting particularly nucleocapsid and spike proteins.

Published

2020

35. Common Nodes of Virus-Host Interaction Revealed Through an Integrated Network Analysis.

Author

Bösl K, Ianevski A, Than TT, Andersen PI, Kuivanen S, Teppor M, Zusinaite E, Dumpis U, Vitkauskiene A, Cox RJ, Kallio-Kokko H, Bergqvist A, Tenson T, Merits A, Oksenych V, Bjørås M, Anthonsen MW, Shum D, Kaarbø M, Vapalahti O, Windisch MP, Superti-Furga G, Snijder B, Kainov D, and Kandasamy RK

Subjects

Coat Protein Complex I physiology, Computational Biology, Humans, Immune Evasion, Signal Transduction physiology, Virus Diseases drug therapy, Virus Replication, Host Microbial Interactions, Protein Interaction Maps, Virus Diseases immunology

Abstract

Viruses are one of the major causes of acute and chronic infectious diseases and thus a major contributor to the global burden of disease. Several studies have shown how viruses have evolved to hijack basic cellular pathways and evade innate immune response by modulating key host factors and signaling pathways. A collective view of these multiple studies could advance our understanding of virus-host interactions and provide new therapeutic perspectives for the treatment of viral diseases. Here, we performed an integrative meta-analysis to elucidate the 17 different host-virus interactomes. Network and bioinformatics analyses showed how viruses with small genomes efficiently achieve the maximal effect by targeting multifunctional and highly connected host proteins with a high occurrence of disordered regions. We also identified the core cellular process subnetworks that are targeted by all the viruses. Integration with functional RNA interference (RNAi) datasets showed that a large proportion of the targets are required for viral replication. Furthermore, we performed an interactome-informed drug re-purposing screen and identified novel activities for broad-spectrum antiviral agents against hepatitis C virus and human metapneumovirus. Altogether, these orthogonal datasets could serve as a platform for hypothesis generation and follow-up studies to broaden our understanding of the viral evasion landscape., (Copyright © 2019 Bösl, Ianevski, Than, Andersen, Kuivanen, Teppor, Zusinaite, Dumpis, Vitkauskiene, Cox, Kallio-Kokko, Bergqvist, Tenson, Merits, Oksenych, Bjørås, Anthonsen, Shum, Kaarbø, Vapalahti, Windisch, Superti-Furga, Snijder, Kainov and Kandasamy.)

Published

2019

36. Toxoplasma gondii seroprevalence in veterinarians in Finland: Older age, living in the countryside, tasting beef during cooking and not doing small animal practice associated with seropositivity.

Author

Siponen AM, Kinnunen PM, Koort J, Kallio-Kokko H, Vapalahti O, Virtala AM, and Jokelainen P

Subjects

Adult, Age Factors, Animals, Cooking, Cross-Sectional Studies, Female, Finland epidemiology, Food Parasitology, Humans, Immunoglobulin G blood, Logistic Models, Male, Middle Aged, Risk Factors, Seroepidemiologic Studies, Surveys and Questionnaires, Toxoplasma immunology, Toxoplasmosis epidemiology, Toxoplasmosis, Animal epidemiology, Antibodies, Protozoan blood, Red Meat parasitology, Toxoplasmosis blood, Veterinarians statistics & numerical data

Abstract

Practising veterinary medicine has an inherent risk of exposure to zoonotic agents, including the protozoan parasite Toxoplasma gondii. We screened sera of veterinarians authorized to work in Finland for the presence of specific immunoglobulin G antibodies against T. gondii with an enzyme-linked fluorescent assay, and evaluated potential risk factors for T. gondii seropositivity from extensive questionnaire data with almost 1,300 quantitative variables. We used a causal diagram approach to address the complexity of the life cycle of the parasite and its numerous possible transmission routes, and built a multivariable binomial logistic regression model to identify risk factors that are particularly relevant for veterinarians. The samples and questionnaire data were collected in 2009. Altogether, 294 veterinarians, almost 15% of the Finnish veterinary profession, were included in the study. The median age was 39 years, and the majority, 86%, were women. Altogether, 43 (14.6%; 95% confidence interval: 10.9-19.0) of the 294 veterinarians tested seropositive for T. gondii. According to the final model, veterinarians who were at least 40 years old had 2.4 times higher odds to be seropositive than younger veterinarians; veterinarians who lived in the countryside had 4.0 times higher odds to be seropositive than veterinarians who lived in towns; female veterinarians who tasted beef during cooking had 2.6 times higher odds to be seropositive than male veterinarians who did not taste beef during cooking; and veterinarians who did not do small animal practice had 2.3 times higher odds to be seropositive than those who did. The results illustrate the numerous transmission routes of T. gondii., (© 2018 Blackwell Verlag GmbH.)

Published

2019

37. Low Temperature and Low UV Indexes Correlated with Peaks of Influenza Virus Activity in Northern Europe during 2010⁻2018.

Author

Ianevski A, Zusinaite E, Shtaida N, Kallio-Kokko H, Valkonen M, Kantele A, Telling K, Lutsar I, Letjuka P, Metelitsa N, Oksenych V, Dumpis U, Vitkauskiene A, Stašaitis K, Öhrmalm C, Bondeson K, Bergqvist A, Cox RJ, Tenson T, Merits A, and Kainov DE

Subjects

Cell Line, Cell Survival, Cells, Cultured, Europe epidemiology, Humans, Humidity, Macrophages virology, Norway epidemiology, Sweden epidemiology, Wind, Cold Temperature, Global Warming, Influenza, Human epidemiology, Orthomyxoviridae radiation effects, Ultraviolet Rays

Abstract

With the increasing pace of global warming, it is important to understand the role of meteorological factors in influenza virus (IV) epidemics. In this study, we investigated the impact of temperature, UV index, humidity, wind speed, atmospheric pressure, and precipitation on IV activity in Norway, Sweden, Finland, Estonia, Latvia and Lithuania during 2010⁻2018. Both correlation and machine learning analyses revealed that low temperature and UV indexes were the most predictive meteorological factors for IV epidemics in Northern Europe. Our in vitro experiments confirmed that low temperature and UV radiation preserved IV infectivity. Associations between these meteorological factors and IV activity could improve surveillance and promote development of accurate predictive models for future influenza outbreaks in the region.

Published

2019

38. No Association Between Ljungan Virus Seropositivity and the Beta-cell Damaging Process in the Finnish Type 1 Diabetes Prediction and Prevention Study Cohort.

Author

Jääskeläinen AJ, Nurminen N, Kolehmainen P, Smura T, Tauriainen S, Toppari J, Ilonen J, Veijola R, Knip M, Hyöty H, Vapalahti O, and Kallio-Kokko H

Subjects

Autoantibodies blood, Child, Child, Preschool, Female, Finland epidemiology, Genotype, Humans, Immunoglobulin G blood, Insulin-Secreting Cells virology, Male, Parechovirus genetics, Prospective Studies, Seroepidemiologic Studies, Antibodies, Viral blood, Diabetes Mellitus, Type 1 virology, Insulin-Secreting Cells pathology, Parechovirus immunology

Abstract

Background: Ljungan virus (LV) has not confirmed to associate with any human disease, but a possible connection with type 1 diabetes has been suggested. LV is a rodent-borne picornavirus that induces a diabetes-like condition in rodents. Approximately 30% of adults and 60% of children are seropositive in Finland. The Finnish Type 1 Diabetes Prediction and Prevention study enabled the use of very well characterized sample panels from children seroconverted to positivity for multiple islet autoantibodies during their prospective observation from birth; in addition, samples from age, sex, human leukocyte antigen (HLA), and residence area matched control children., Methods: We analyzed LV IgG seroprevalence in 102 case children (65 had also developed type 1 diabetes), in addition to nondiabetic control children. LV and human parechovirus (HPeV) immunofluorescence assays were used to analyze LV and HPeV-specific IgG from 102 plasma samples taken at the time of islet autoantibody appearance and from 204 samples from the matched control children., Results: Altogether 46.1% of the case and 50.7% of the control children were positive for LV IgG (odds ratio 0.8; 95% confidence interval, 0.47-1.36; P = 0.416) and 67.6% versus 79.8% were positive for HPeV IgG, respectively (odds ratio 0.49, 0.27-0.9, P = 0.023)., Conclusions: Thus, no risk associations between LV or HPeV-specific IgG and islet autoimmunity were observed. However, a trend for significantly higher prevalence of HPeV antibodies in control children (P = 0.023) suggests a possible protective association of this virus with islet autoimmunity.

Published

2019

39. Validation of serological and molecular methods for diagnosis of zika virus infections.

Author

Jääskeläinen AJ, Korhonen EM, Huhtamo E, Lappalainen M, Vapalahti O, and Kallio-Kokko H

Subjects

Adult, Antibodies, Viral blood, Antigens, Viral immunology, Cross Reactions, Dengue Virus immunology, Diagnosis, Differential, Encephalitis Viruses, Tick-Borne immunology, Female, Flavivirus Infections diagnosis, Humans, Immunoglobulin M blood, Male, Middle Aged, RNA, Viral genetics, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, Zika Virus immunology, Molecular Diagnostic Techniques standards, Serologic Tests standards, Zika Virus isolation & purification, Zika Virus Infection diagnosis

Abstract

The laboratory confirmation of Zika virus (ZIKV) infection, and the differential diagnosis from other flavivirus infections such as dengue virus (DENV), often requires the use of several diagnostic test types. Cross-reactions and secondary infections complicate the serological diagnosis and specific viral RNA detection assays are often needed for confirming the diagnosis. The aim of this study was to validate serological and molecular methods for diagnosing ZIKV infection. This included the evaluation of a ZIKV RT-qPCR assay for diagnostics that was previously set up for research use and to compare the ZIKV, DENV and TBEV EIA methods. External and in-house controls and pre-characterized sample panels were tested, and also automated and manual nucleic acid extraction methods were compared. A total of ten Finnish traveler patients were diagnosed with acute ZIKV infection during 2015-2017 including one suspected dual DENV and ZIKV infection. These samples along with panels of DENV and tick-borne encephalitis virus (TBEV) infections were used to test the cross-reactive properties of ZIKV, DENV and TBEV IgM assays. Additionally, the diagnosed acute ZIKV patient samples were tested using commercially available diagnostic DENV NS1 antigen assay and a ZIKV NS1 antigen assay intended for research use. The ZIKV RT-qPCR assay was demonstrated to be both specific and sensitive (one genome per reaction) and suitable for routine diagnostic use utilizing automated nucleic acid extraction. Of the tested IgM tests the NS1 antigen-based ZIKV IgM (Euroimmun) assay performed with least cross-reactivity with a specificity of 97.4%. The DENV IgM assay (Focus Diagnostics) had specificity of only 86.1%. The results are in line with previous studies and additionally highlight that also acute TBEV patients may give a false positive test result in DENV and ZIKV IgM assays., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2019

40. Novel activities of safe-in-human broad-spectrum antiviral agents.

Author

Ianevski A, Zusinaite E, Kuivanen S, Strand M, Lysvand H, Teppor M, Kakkola L, Paavilainen H, Laajala M, Kallio-Kokko H, Valkonen M, Kantele A, Telling K, Lutsar I, Letjuka P, Metelitsa N, Oksenych V, Bjørås M, Nordbø SA, Dumpis U, Vitkauskiene A, Öhrmalm C, Bondeson K, Bergqvist A, Aittokallio T, Cox RJ, Evander M, Hukkanen V, Marjomaki V, Julkunen I, Vapalahti O, Tenson T, Merits A, and Kainov D

Subjects

Drug Repositioning, Humans, Antiviral Agents pharmacology, DNA Viruses drug effects, RNA Viruses drug effects, Virus Diseases drug therapy

Abstract

According to the WHO, there is an urgent need for better control of viral diseases. Re-positioning existing safe-in-human antiviral agents from one viral disease to another could play a pivotal role in this process. Here, we reviewed all approved, investigational and experimental antiviral agents, which are safe in man, and identified 59 compounds that target at least three viral diseases. We tested 55 of these compounds against eight different RNA and DNA viruses. We found novel activities for dalbavancin against echovirus 1, ezetimibe against human immunodeficiency virus 1 and Zika virus, as well as azacitidine, cyclosporine, minocycline, oritavancin and ritonavir against Rift valley fever virus. Thus, the spectrum of antiviral activities of existing antiviral agents could be expanded towards other viral diseases., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

41. Seroprevalence of lymphocytic choriomeningitis virus and Ljungan virus in Finnish patients with suspected neurological infections.

Author

Fevola C, Kuivanen S, Smura T, Vaheri A, Kallio-Kokko H, Hauffe HC, Vapalahti O, and Jääskeläinen AJ

Subjects

Adolescent, Adult, Animals, Child, Child, Preschool, Enterovirus isolation & purification, Female, Finland epidemiology, Humans, Lymphocytic Choriomeningitis cerebrospinal fluid, Lymphocytic Choriomeningitis epidemiology, Male, Middle Aged, Mycoplasma pneumoniae isolation & purification, Picornaviridae Infections cerebrospinal fluid, Picornaviridae Infections epidemiology, Rodentia, Seroepidemiologic Studies, Simplexvirus isolation & purification, Young Adult, Zoonoses virology, Lymphocytic choriomeningitis virus isolation & purification, Nervous System Diseases epidemiology, Nervous System Diseases virology, Parechovirus isolation & purification, Zoonoses epidemiology

Abstract

Directly-transmitted rodent-borne zoonotic viruses, such as lymphocytic choriomeningitis virus (LCMV) can cause nervous system infections. Rodent-borne Ljungan virus (LV) is considered potentially zoonotic possibly causing neurological symptoms. Our objective was to understand the role of these two viruses compared to other pathogens in causing neurological infections in Finnish patients. Routine screening data were available for 400 patients aged 5-50 years, collected from December 2013 to December 2014 with suspected neurological infection. Depending on symptoms, patients were variously tested for herpesviruses, enteroviruses, varicella zoster virus, and Mycoplasma pneumoniae, while those suspected of tick bite were further tested for Borrelia spp. and tick-borne encephalitis virus using antibody and/or nucleic acid tests. For 380 patients, we also screened the RNA and antibody prevalence of LCMV and LV in order to test if either of these viruses were the causative agent. Data collected indicated that the causative microbial agent was confirmed in only 15.5% of all Finnish patients with neurological symptoms, with M. pneumoniae (26 cases) being the most common causative agent found in sera, whereas Borrelia spp. (15), herpes simplex viruses (7), and enteroviruses (5) were the most common agents confirmed in the CSF. The seroprevalences for LV and LCMV were 33.8% and 5.0%, respectively, but no samples were PCR-positive. In this study, M. pneumoniae and Borrelia spp. were the most common causative agents of neurological infections in Finland. No LCMV or LV infections were detected. We conclude there was no association of LV with neurological diseases in this patient cohort., (© 2017 Wiley Periodicals, Inc.)

Published

2018

42. Intertypic recombination of human parechovirus 4 isolated from infants with sepsis-like disease.

Author

Kolehmainen P, Siponen A, Smura T, Kallio-Kokko H, Vapalahti O, Jääskeläinen A, and Tauriainen S

Subjects

Cluster Analysis, Female, Finland, Genome, Viral genetics, Humans, Infant, Male, Parechovirus isolation & purification, Phylogeny, RNA, Viral genetics, Sequence Analysis, DNA, Genotype, Parechovirus classification, Parechovirus genetics, Picornaviridae Infections virology, Recombination, Genetic, Sepsis virology

Abstract

Background: Human parechoviruses (HPeVs) (family Picornaviridae), are common pathogens in young children. Despite their high prevalence, research on their genetic identity, diversity and evolution have remained scarce., Objectives: Complete coding regions of three previously reported HPeV-4 isolates from Finnish children with sepsis-like disease were sequenced in order to elucidate the phylogenetic relationships and potential recombination events during the evolution of these isolates., Study Design: The isolated viruses were sequenced and aligned with all HPeV complete genome sequences available in GenBank. Phylogenetic trees were constructed and similarity plot and bootscanning methods were used for recombination analysis., Results: The three HPeV-4 isolates had 99.8% nucleotide sequence similarity. The phylogenetic analysis indicated that capsid-encoding sequences of these HPeV-4 isolates were closely related to other HPeV-4 strains (80.7-94.7% nucleotide similarity), whereas their non-structural region genes 2A to 3C clustered together with several HPeV-1 and HPeV-3 strains, in addition to the HPeV-4 strain K251176-02 (isolated 2002 in the Netherlands), but not with other HPeV-4 strains. However, in 3D-encoding sequence the Finnish HPeV-4 isolates did not cluster with the strain HPeV-4/K251176-02, but instead, formed a distinct group together with several HPeV-1 and HPeV-3 strains. Similarity plot and Bootscan analyses further confirmed intertypic recombination events in the evolution of the Finnish HPeV-4 isolates., Conclusion: Intertypic recombination event(s) have occurred during the evolution of HPeV-4 isolates from children with sepsis-like disease. However, due to the low number of parechovirus complete genomes available, the precise recombination partners could not be detected. The results suggest frequent intratypic recombination among parechoviruses., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

43. Lymphocytic choriomeningitis, Ljungan and orthopoxvirus seroconversions in patients hospitalized due to acute Puumala hantavirus infection.

Author

Fevola C, Forbes KM, Mäkelä S, Putkuri N, Hauffe HC, Kallio-Kokko H, Mustonen J, Jääskeläinen AJ, and Vaheri A

Subjects

Adult, Aged, Animals, Europe epidemiology, Female, Finland epidemiology, Orthohantavirus isolation & purification, Hemorrhagic Fever with Renal Syndrome epidemiology, Hemorrhagic Fever with Renal Syndrome immunology, Hemorrhagic Fever with Renal Syndrome virology, Humans, Lymphocytic Choriomeningitis epidemiology, Lymphocytic Choriomeningitis immunology, Lymphocytic Choriomeningitis virology, Male, Middle Aged, Puumala virus isolation & purification, Seroconversion, Seroepidemiologic Studies, Zoonoses epidemiology, Zoonoses virology, Antibodies, Viral blood, Coinfection epidemiology, Coinfection virology, Hemorrhagic Fever with Renal Syndrome complications, Lymphocytic Choriomeningitis complications, Orthopoxvirus immunology, Parechovirus immunology, Picornaviridae Infections complications, Poxviridae Infections complications

Abstract

Background: The emergence and re-emergence of zoonotic and vector-borne diseases are increasing in Europe. Prominent rodent-borne zoonotic viruses include Puumala hantavirus (PUUV; the causative agent of nephropathia epidemica, NE), lymphocytic choriomeningitis virus (LCMV), and orthopoxviruses (OPV). In addition, Ljungan virus (LV) is considered a potentially zoonotic virus., Objective: The aim of this study was to compare clinical picture between acute PUUV patients with and without additional rodent-borne viral infections, to investigate if concurrent infections influence disease severity., Study Design: We evaluated seroprevalence of and seroconversions to LCMV, LV and OPV in 116 patients hospitalized for NE. Clinical and laboratory variables were closely monitored during hospital care., Results: A total of five LCMV, 15 LV, and one OPV seroconversions occurred. NE patients with LCMV seroconversions were younger, and had lower plasma creatinine concentrations and platelet counts than patients without LCMV seroconversions. No differences occurred in clinical or laboratory findings between patients with and without seroconversions to LV and OPV. We report, for the first time, LCMV seroprevalence in Finland, with 8.5% of NE patients seropositive for this virus. Seroprevalences for LV and OPV were 47.8% and 32.4%, respectively., Conclusion: Cases with LCMV seroconversions were statistically younger, had milder acute kidney injury and more severe thrombocytopenia than patients without LCMV. However, the low number of seroconversion cases precludes firm conclusions. Concurrent LV or OPV infections do not appear to influence clinical picture for NE patients., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

44. Protein profiling of nasopharyngeal aspirates of hospitalized and outpatients revealed cytokines associated with severe influenza A(H1N1)pdm09 virus infections: A pilot study.

Author

Fu Y, Gaelings L, Jalovaara P, Kakkola L, Kinnunen MT, Kallio-Kokko H, Valkonen M, Kantele A, and Kainov DE

Subjects

Adult, Basigin analysis, Female, Hospitalization, Humans, Immunity, Innate, Influenza, Human diagnosis, Influenza, Human epidemiology, Male, Middle Aged, Nasopharynx virology, Outpatients, Pilot Projects, Protein Array Analysis, Retinol-Binding Proteins, Plasma analysis, Severity of Illness Index, Trefoil Factor-3 analysis, Chemokines analysis, Cytokines analysis, Influenza A Virus, H1N1 Subtype immunology, Influenza, Human immunology, Influenza, Human virology, Nasopharynx immunology

Abstract

Influenza A viruses (IAV) mutate rapidly and cause seasonal epidemics and occasional pandemics, which result in substantial number of patient visits to the doctors and even hospitalizations. We aimed here to identify inflammatory proteins, which levels correlated to clinical severity of the disease. For this we analysed 102 cytokines and growth factors in human nasopharyngeal aspirate (NPA) samples of 27 hospitalized and 27 outpatients diagnosed with influenza A(H1N1)pdm09 virus infection. We found that the relative levels of monocyte differentiation antigen CD14, lipocalin-2 (LCN2), C-C-motif chemokine 20 (CCL20), CD147, urokinase plasminogen activator surface receptor (uPAR), pro-epidermal growth factor (EGF), trefoil factor 3 (TFF3), and macrophage migration inhibitory factor (MIF) were significantly lower (p<0.008), whereas levels of retinol-binding protein 4 (RBP4), C-X-C motif chemokine 5 (CXCL5), interleukin-8 (IL-8), complement factor D (CFD), adiponectin, and chitinase-3-like 1 (CHI3L1) were significantly higher (p<0.008) in NPA samples of hospitalized than non-hospitalized patients. While changes in CD14, LCN2, CCL20, uPAR, EGF, MIF, CXCL5, IL-8, adiponectin and CHI3L1 levels have already been correlated with severity of IAV infection in mice and humans, our study is the first to describe association of CD147, RBP4, TFF3, and CFD with hospitalization of IAV-infected patients. Thus, we identified local innate immune profiles, which were associated with the clinical severity of influenza infections., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

45. Zika virus infection in a traveller returning from the Maldives, June 2015.

Author

Korhonen EM, Huhtamo E, Smura T, Kallio-Kokko H, Raassina M, and Vapalahti O

Subjects

Adult, Dengue Virus isolation & purification, Exanthema etiology, Fever diagnosis, Fever etiology, Fever virology, Finland, Humans, Indian Ocean Islands, Male, Molecular Sequence Data, RNA, Viral genetics, RNA, Viral isolation & purification, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, RNA, Travel, Zika Virus genetics, Zika Virus Infection urine, Zika Virus Infection virology, Dengue diagnosis, Zika Virus isolation & purification, Zika Virus Infection diagnosis

Abstract

We report a Zika virus (ZIKV) infection in a patient with fever and rash after returning to Finland from Maldives, June 2015. The patient had dengue virus (DENV) IgG and IgM antibodies but pan-flavivirus RT-PCR and subsequent sequencing showed presence of ZIKV RNA in urine. Recent association of ZIKV with microcephaly highlights the need for laboratory differentiation of ZIKV from DENV infection and the circulation of ZIKV in areas outside its currently known distribution range.

Published

2016

46. Comparative Analysis of Whole-Genome Sequences of Influenza A(H1N1)pdm09 Viruses Isolated from Hospitalized and Nonhospitalized Patients Identifies Missense Mutations That Might Be Associated with Patient Hospital Admissions in Finland during 2009 to 2014.

Author

Mishel P, Ojala T, Benner C, Lakspere T, Bychkov D, Jalovaara P, Kakkola L, Kallio-Kokko H, Kantele A, Kankainen M, Ikonen N, Ripatti S, Julkunen I, and Kainov DE

Abstract

Here, we report 40 new whole-genome sequences of influenza A(H1N1)pdm09 viruses isolated from Finnish patients during 2009 to 2014. A preliminary analysis of these and 186 other whole genomes of influenza A(H1N1)pdm09 viruses isolated from hospitalized and nonhospitalized patients during 2009 to 2014 in Finland revealed several viral mutations that might be associated with patient hospitalizations., (Copyright © 2015 Mishel et al.)

Published

2015

47. Development and evaluation of a real-time EBOV-L-RT-qPCR for detection of Zaire ebolavirus.

Author

Jääskeläinen AJ, Moilanen K, Aaltonen K, Putkuri N, Sironen T, Kallio-Kokko H, and Vapalahti O

Subjects

Humans, RNA, Viral genetics, Ebolavirus isolation & purification, Hemorrhagic Fever, Ebola diagnosis, Molecular Diagnostic Techniques methods, RNA, Viral isolation & purification, Real-Time Polymerase Chain Reaction methods, Reverse Transcriptase Polymerase Chain Reaction methods

Abstract

An RT-qPCR targeting EBOV-L including the preceding RNA extraction protocol were set up and evaluated., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

48. Complete Genome Sequences of Influenza A/H1N1 Strains Isolated from Patients during the 2013-2014 Epidemic Season in Finland.

Author

Jalovaara P, Mishel P, Kallio-Kokko H, Valkonen M, Kantele A, Ikonen N, Julkunen I, Kakkola L, Kutsaya A, Vuorinen T, Mattila P, Almusa H, and Kainov D

Abstract

Here, we report 40 complete genome sequences of influenza A/H1N1 strains isolated from 33 nonhospitalized and 7 hospitalized patients during the 2013-2014 epidemic season in Finland. An analysis of the aligned sequences revealed no oseltamivir-resistant genotypes. As a whole, the recent viruses have drifted from the prototype A/California/7/2009 virus by ca. 1.3%., (Copyright © 2015 Jalovaara et al.)

Published

2015

49. Influenza pH1N1 Virus Accumulated H275Y Mutation in Neuraminidase during Propagation in MDCK Cells.

Author

Mishel P, Bychkov D, Kallio-Kokko H, Valkonen M, Kantele A, Mattila P, Almusa H, Jalovaara P, and Kainov D

Abstract

Here, we sequenced the genome of the influenza A/Finland/741 M/2014(H1N1) virus and found that the virus accumulated oseltamivir resistance mutation H275Y in its neuraminidase during propagation in cell culture. This indicates that propagation in cell culture modifies virus genomes. The instability of influenza genomes should be taken into consideration during drug-sensitivity studies., (Copyright © 2014 Mishel et al.)

Published

2014

50. Development and evaluation of a real-time RT-qPCR for detection of Crimean-Congo hemorrhagic fever virus representing different genotypes.

Author

Jääskeläinen AJ, Kallio-Kokko H, Ozkul A, Bodur H, Korukruoglu G, Mousavi M, Pranav P, Vaheri A, Mirazimi A, and Vapalahti O

Subjects

Genotype, Hemorrhagic Fever, Crimean blood, Hemorrhagic Fever, Crimean virology, Humans, RNA, Viral blood, Sensitivity and Specificity, Hemorrhagic Fever Virus, Crimean-Congo genetics, Hemorrhagic Fever Virus, Crimean-Congo isolation & purification, Hemorrhagic Fever, Crimean diagnosis, Real-Time Polymerase Chain Reaction methods

Abstract

Crimean-Congo hemorrhagic fever (CCHF) is a zoonotic disease caused by a nairovirus belonging to family Bunyaviridae. The CCHF virus (CCHFV) can be transmitted to humans by Hyalomma ticks as well as by direct contact with infected body fluids or tissues from viremic livestock or humans. Our aim was to set up a fast RT-qPCR for detection of the different CCHFV genotypes in clinical samples, including an inactivation step to make the sample handling possible in lower biosafety levels (BSL) than BSL-4. This method was evaluated against commercial reference assays and international External Quality Assessment (EQA) samples. The analytical limit of detection for the developed CCHFV-S RT-qPCR was 11 CCHFV genomes per reaction. After exclusion of four dubious samples, we studied 38 CCHFV-positive samples (using reference tests) of which 38 were found positive by CCHFV-S RT-qPCR, suggesting a sensitivity of 100%. CCHFV-S RT q-PCR detected all eight different CCHFV strains representing five different CCHFV genotypes. In conclusion, the CCHFV-S RT-qPCR described in this study was evaluated using various sources of CCHFV samples and shown to be an accurate tool to detect human CCHFV infection caused by different genotypes of the virus.

Published

2014