Last data update: May 13, 2024. (Total: 46773 publications since 2009)
Records 1-4 (of 4 Records) |
Query Trace: Udo I[original query] |
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2020 taxonomic update for phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales.
Kuhn JH , Adkins S , Alioto D , Alkhovsky SV , Amarasinghe GK , Anthony SJ , Avšič-Županc T , Ayllón MA , Bahl J , Balkema-Buschmann A , Ballinger MJ , Bartonička T , Basler C , Bavari S , Beer M , Bente DA , Bergeron É , Bird BH , Blair C , Blasdell KR , Bradfute SB , Breyta R , Briese T , Brown PA , Buchholz UJ , Buchmeier MJ , Bukreyev A , Burt F , Buzkan N , Calisher CH , Cao M , Casas I , Chamberlain J , Chandran K , Charrel RN , Chen B , Chiumenti M , Choi IR , Clegg JCS , Crozier I , da Graça JV , Dal Bó E , Dávila AMR , de la Torre JC , de Lamballerie X , de Swart RL , Di Bello PL , Di Paola N , Di Serio F , Dietzgen RG , Digiaro M , Dolja VV , Dolnik O , Drebot MA , Drexler JF , Dürrwald R , Dufkova L , Dundon WG , Duprex WP , Dye JM , Easton AJ , Ebihara H , Elbeaino T , Ergünay K , Fernandes J , Fooks AR , Formenty PBH , Forth LF , Fouchier RAM , Freitas-Astúa J , Gago-Zachert S , Gāo GF , García ML , García-Sastre A , Garrison AR , Gbakima A , Goldstein T , Gonzalez JJ , Griffiths A , Groschup MH , Günther S , Guterres A , Hall RA , Hammond J , Hassan M , Hepojoki J , Hepojoki S , Hetzel U , Hewson R , Hoffmann B , Hongo S , Höper D , Horie M , Hughes HR , Hyndman TH , Jambai A , Jardim R , Jiāng D , Jin Q , Jonson GB , Junglen S , Karadağ S , Keller KE , Klempa B , Klingström J , Kobinger G , Kondō H , Koonin EV , Krupovic M , Kurath G , Kuzmin IV , Laenen L , Lamb RA , Lambert AJ , Langevin SL , Lee B , Lemos ERS , Leroy EM , Li D , Lǐ J , Liang M , Liú W , Liú Y , Lukashevich IS , Maes P , Marciel de Souza W , Marklewitz M , Marshall SH , Martelli GP , Martin RR , Marzano SL , Massart S , McCauley JW , Mielke-Ehret N , Minafra A , Minutolo M , Mirazimi A , Mühlbach HP , Mühlberger E , Naidu R , Natsuaki T , Navarro B , Navarro JA , Netesov SV , Neumann G , Nowotny N , Nunes MRT , Nylund A , Økland AL , Oliveira RC , Palacios G , Pallas V , Pályi B , Papa A , Parrish CR , Pauvolid-Corrêa A , Pawęska JT , Payne S , Pérez DR , Pfaff F , Radoshitzky SR , Rahman AU , Ramos-González PL , Resende RO , Reyes CA , Rima BK , Romanowski V , Robles Luna G , Rota P , Rubbenstroth D , Runstadler JA , Ruzek D , Sabanadzovic S , Salát J , Sall AA , Salvato MS , Sarpkaya K , Sasaya T , Schwemmle M , Shabbir MZ , Shí X , Shí Z , Shirako Y , Simmonds P , Širmarová J , Sironi M , Smither S , Smura T , Song JW , Spann KM , Spengler JR , Stenglein MD , Stone DM , Straková P , Takada A , Tesh RB , Thornburg NJ , Tomonaga K , Tordo N , Towner JS , Turina M , Tzanetakis I , Ulrich RG , Vaira AM , van den Hoogen B , Varsani A , Vasilakis N , Verbeek M , Wahl V , Walker PJ , Wang H , Wang J , Wang X , Wang LF , Wèi T , Wells H , Whitfield AE , Williams JV , Wolf YI , Wú Z , Yang X , Yáng X , Yu X , Yutin N , Zerbini FM , Zhang T , Zhang YZ , Zhou G , Zhou X . Arch Virol 2020 165 (12) 3023-3072 In March 2020, following the annual International Committee on Taxonomy of Viruses (ICTV) ratification vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. At the genus rank, 20 new genera were added, two were deleted, one was moved, and three were renamed. At the species rank, 160 species were added, four were deleted, ten were moved and renamed, and 30 species were renamed. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV. |
Multisystem Inflammatory Syndrome in Children in New York State.
Dufort EM , Koumans EH , Chow EJ , Rosenthal EM , Muse A , Rowlands J , Barranco MA , Maxted AM , Rosenberg ES , Easton D , Udo T , Kumar J , Pulver W , Smith L , Hutton B , Blog D , Zucker H . N Engl J Med 2020 383 (4) 347-358 BACKGROUND: A multisystem inflammatory syndrome in children (MIS-C) is associated with coronavirus disease 2019. The New York State Department of Health (NYSDOH) established active, statewide surveillance to describe hospitalized patients with the syndrome. METHODS: Hospitals in New York State reported cases of Kawasaki's disease, toxic shock syndrome, myocarditis, and potential MIS-C in hospitalized patients younger than 21 years of age and sent medical records to the NYSDOH. We carried out descriptive analyses that summarized the clinical presentation, complications, and outcomes of patients who met the NYSDOH case definition for MIS-C between March 1 and May 10, 2020. RESULTS: As of May 10, 2020, a total of 191 potential cases were reported to the NYSDOH. Of 95 patients with confirmed MIS-C (laboratory-confirmed acute or recent severe acute respiratory syndrome coronavirus 2 [SARS-CoV-2] infection) and 4 with suspected MIS-C (met clinical and epidemiologic criteria), 53 (54%) were male; 31 of 78 (40%) were black, and 31 of 85 (36%) were Hispanic. A total of 31 patients (31%) were 0 to 5 years of age, 42 (42%) were 6 to 12 years of age, and 26 (26%) were 13 to 20 years of age. All presented with subjective fever or chills; 97% had tachycardia, 80% had gastrointestinal symptoms, 60% had rash, 56% had conjunctival injection, and 27% had mucosal changes. Elevated levels of C-reactive protein, d-dimer, and troponin were found in 100%, 91%, and 71% of the patients, respectively; 62% received vasopressor support, 53% had evidence of myocarditis, 80% were admitted to an intensive care unit, and 2 died. The median length of hospital stay was 6 days. CONCLUSIONS: The emergence of multisystem inflammatory syndrome in children in New York State coincided with widespread SARS-CoV-2 transmission; this hyperinflammatory syndrome with dermatologic, mucocutaneous, and gastrointestinal manifestations was associated with cardiac dysfunction. |
Use of the staged development tool for assessing, planning, and measuring progress in the development of National Public Health Institutes
Barzilay EJ , Vandi H , Binder S , Udo I , Ospina ML , Ihekweazu C , Bratton S . Health Secur 2018 16 S18-s24 The Staged Development Tool (SDT) was created to help national public health institutes (NPHIs) assess their current capacity and develop roadmaps for achieving a higher level of functioning. This article discusses the current use of the SDT by national public health institutes to establish baseline capacity and inform strategic planning and its proposed use in a 3-step sequence for measuring the impact of capacity-building interventions over time. The article also includes descriptions of how national public health institutes have been using the SDT to assess their baseline capacity in management issues and core public health functions. The first use of the SDT by a national public health institute provides essential baseline information on their capacities and levels of functioning and plans for addressing gaps. By repeating the SDT after time for the plans to be implemented, the SDT can be used to evaluate changes in capacity and the effectiveness of the interventions made. Because the SDT is built to be complementary to existing assessments and public health strengthening tools and guidelines, implementing the SDT provides concrete, complementary information that can help countries achieve global health security goals and address current and future threats to public health. |
Taxonomy of the family Arenaviridae and the order Bunyavirales: update 2018.
Maes P , Alkhovsky SV , Bao Y , Beer M , Birkhead M , Briese T , Buchmeier MJ , Calisher CH , Charrel RN , Choi IR , Clegg CS , de la Torre JC , Delwart E , DeRisi JL , Di Bello PL , Di Serio F , Digiaro M , Dolja VV , Drosten C , Druciarek TZ , Du J , Ebihara H , Elbeaino T , Gergerich RC , Gillis AN , Gonzalez JJ , Haenni AL , Hepojoki J , Hetzel U , Ho T , Hong N , Jain RK , Jansen van Vuren P , Jin Q , Jonson MG , Junglen S , Keller KE , Kemp A , Kipar A , Kondov NO , Koonin EV , Kormelink R , Korzyukov Y , Krupovic M , Lambert AJ , Laney AG , LeBreton M , Lukashevich IS , Marklewitz M , Markotter W , Martelli GP , Martin RR , Mielke-Ehret N , Muhlbach HP , Navarro B , Ng TFF , Nunes MRT , Palacios G , Paweska JT , Peters CJ , Plyusnin A , Radoshitzky SR , Romanowski V , Salmenpera P , Salvato MS , Sanfacon H , Sasaya T , Schmaljohn C , Schneider BS , Shirako Y , Siddell S , Sironen TA , Stenglein MD , Storm N , Sudini H , Tesh RB , Tzanetakis IE , Uppala M , Vapalahti O , Vasilakis N , Walker PJ , Wang G , Wang L , Wang Y , Wei T , Wiley MR , Wolf YI , Wolfe ND , Wu Z , Xu W , Yang L , Yang Z , Yeh SD , Zhang YZ , Zheng Y , Zhou X , Zhu C , Zirkel F , Kuhn JH . Arch Virol 2018 163 (8) 2295-2310 In 2018, the family Arenaviridae was expanded by inclusion of 1 new genus and 5 novel species. At the same time, the recently established order Bunyavirales was expanded by 3 species. This article presents the updated taxonomy of the family Arenaviridae and the order Bunyavirales as now accepted by the International Committee on Taxonomy of Viruses (ICTV) and summarizes additional taxonomic proposals that may affect the order in the near future. |
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