Last data update: May 06, 2024. (Total: 46732 publications since 2009)
Records 1-5 (of 5 Records) |
Query Trace: Durand LO[original query] |
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Timing of influenza epidemics and vaccines in the American tropics, 2002-2008, 2011-2014
Durand LO , Cheng PY , Palekar R , Clara W , Jara J , Cerpa M , El Omeiri N , Ropero AM , Ramirez JB , Araya JL , Acosta B , Bruno A , Calderon de Lozano C , Signor LD , Matute ML , Jackson-Betty S , Mung KS , Diaz-Quinonez JA , Lopez-Martinez I , Balmaseda A , Arevalo BM , Vazquez C , Gutierrez V , Garten R , Widdowson MA , Azziz-Baumgartner E . Influenza Other Respir Viruses 2015 10 (3) 170-5 BACKGROUND: Influenza-associated illness results in increased morbidity and mortality in the Americas. These effects can be mitigated with an appropriately chosen and timed influenza vaccination campaign. To provide guidance in choosing the most suitable vaccine formulation and timing of administration, it is necessary to understand the timing of influenza seasonal epidemics. OBJECTIVES: Our main objective was to determine if influenza occurs in seasonal patterns in the American tropics, and when these patterns occurred. METHODS: Publicly available, monthly seasonal influenza data from the Pan American Health Organization and WHO, from countries in the American tropics were obtained during 2002-2008 and 2011-2014 (excluding unseasonal pandemic activity during 2009-2010). For each country, we calculated the monthly proportion of samples that tested positive for influenza. We applied the monthly proportion data to a logistic regression model for each country. RESULTS: We analyzed 2002-2008 and 2011-2014 influenza surveillance data from the American tropics and identified 13 (81%) of 16 countries with influenza epidemics that, on average, started during May and lasted 4 months. CONCLUSIONS: The majority of countries in the American tropics have seasonal epidemics that start in May. Officials in these countries should consider the impact of vaccinating persons during April with the Southern Hemisphere formulation. |
Incidence of viral respiratory infections in a prospective cohort of outpatient and hospitalized children aged ≤5 years and its associated cost in Buenos Aires, Argentina
Marcone DN , Durand LO , Azziz-Baumgartner E , Vidaurreta S , Ekstrom J , Carballal G , Echavarria M . BMC Infect Dis 2015 15 447 BACKGROUND: Although information about the incidence of viral respiratory illnesses and their associated cost can help health officials explore the value of interventions, data are limited from middle-income countries. METHODS: During 2008-2010, we conducted a prospective cohort study and followed ~1,800 Argentinian children aged ≤5 years to identify those children who were hospitalized or who sought care at an emergency room with any acute respiratory infection sign or symptom (e.g., rhinorrhea, cough, wheezing, tachypnea, retractions, or cyanosis). Respiratory samples were obtained for respiratory syncytial virus, influenza, parainfluenza, adenovirus, and metapneumovirus testing by immunofluorescence and for rhinovirus by real-time reverse transcription polymerase chain reaction. RESULTS: The incidence of respiratory syncytial virus (24/1000 children-years), human metapneumovirus (8/1000 children-years), and influenza (8/1000 children-years) illnesses was highest among hospitalized children aged <6 months and decreased among older children. In contrast, the incidence of rhinovirus was highest (12/1000 children-years) among those aged 6-23 months. In the emergency room, the incidence of rhinovirus was 459; respiratory syncytial virus 352; influenza 185; parainfluenza 177; metapneumovirus 130; and adenovirus 73/1,000 children-years. The total cost of hospitalization was a median of US$529 (Interquartile range, US$362-789). CONCLUSIONS: Our findings indicate that respiratory viruses, in particular rhinovirus, respiratory syncytial virus, metapneumovirus, and influenza may be associated with severe illness causing substantial economic burden. |
Investigation of an outbreak of variant influenza A (H3N2) virus associated with an agricultural fair - Ohio, August 2012
Greenbaum A , Quinn C , Bailer J , Su S , Havers F , Durand LO , Jiang V , Page S , Budd J , Shaw M , Biggerstaff M , de Fijter S , Smith K , Reed C , Epperson S , Brammer L , Feltz D , Sohner K , Ford J , Jain S , Gargiullo P , Weiss E , Burg P , DiOrio M , Fowler B , Finelli L , Jhung MA . J Infect Dis 2015 212 (10) 1592-9 BACKGROUND: In 2012, one third of cases in a multi-state outbreak of variant influenza A(H3N2) virus [(H3N2)v] occurred in Ohio. We conducted an investigation of (H3N2)v cases associated with agricultural Fair A in Ohio. METHODS: We surveyed Fair A swine exhibitors and their household members. Confirmed cases had influenza-like illness (ILI) and a positive laboratory test for (H3N2)v virus and probable cases had ILI. We calculated attack rates. We determined risk factors for infection using multivariable log-binomial regression. RESULTS: We identified a total of 20 confirmed and 94 probable cases associated with Fair A. Among 114 cases, the median age was 10 years, there were no hospitalizations or deaths, and 85% had swine exposure. In the exhibitor household cohort of 359 persons (83 households), we identified 6 confirmed (2%) and 40 probable (11%) cases. Age <10 years was a significant risk factor (p<0.01) for illness. One instance of likely human-to-human transmission was identified. CONCLUSIONS: In this (H3N2)v outbreak, no evidence of sustained human-to-human (H3N2)v transmission was found. Our risk factor analysis contributed to the development of recommendations that those at increased risk of influenza complications, including children aged <5 years, avoid swine barns at fairs during the 2012 fair season. |
Timing of influenza A(H5N1) in poultry and humans and seasonal influenza activity worldwide, 2004-2013
Durand LO , Glew P , Gross D , Kasper M , Trock S , Kim IK , Bresee JS , Donis R , Uyeki TM , Widdowson MA , Azziz-Baumgartner E . Emerg Infect Dis 2015 21 (2) 202-8 Co-circulation of influenza A(H5N1) and seasonal influenza viruses among humans and animals could lead to co-infections, reassortment, and emergence of novel viruses with pandemic potential. We assessed the timing of subtype H5N1 outbreaks among poultry, human H5N1 cases, and human seasonal influenza in 8 countries that reported 97% of all human H5N1 cases and 90% of all poultry H5N1 outbreaks. In these countries, most outbreaks among poultry (7,001/11,331, 62%) and half of human cases (313/625, 50%) occurred during January-March. Human H5N1 cases occurred in 167 (45%) of 372 months during which outbreaks among poultry occurred, compared with 59 (10%) of 574 months that had no outbreaks among poultry. Human H5N1 cases also occurred in 59 (22%) of 267 months during seasonal influenza periods. To reduce risk for co-infection, surveillance and control of H5N1 should be enhanced during January-March, when H5N1 outbreaks typically occur and overlap with seasonal influenza virus circulation. |
Outbreak of variant influenza A(H3N2) virus in the United States
Jhung MA , Epperson S , Biggerstaff M , Allen D , Balish A , Barnes N , Beaudoin A , Berman L , Bidol S , Blanton L , Blythe D , Brammer L , D'Mello T , Danila R , Davis W , de Fijter S , Diorio M , Durand LO , Emery S , Fowler B , Garten R , Grant Y , Greenbaum A , Gubareva L , Havers F , Haupt T , House J , Ibrahim S , Jiang V , Jain S , Jernigan D , Kazmierczak J , Klimov A , Lindstrom S , Longenberger A , Lucas P , Lynfield R , McMorrow M , Moll M , Morin C , Ostroff S , Page SL , Park SY , Peters S , Quinn C , Reed C , Richards S , Scheftel J , Simwale O , Shu B , Soyemi K , Stauffer J , Steffens C , Su S , Torso L , Uyeki TM , Vetter S , Villanueva J , Wong KK , Shaw M , Bresee JS , Cox N , Finelli L . Clin Infect Dis 2013 57 (12) 1703-12 BACKGROUND: Variant influenza virus infections are rare but may have pandemic potential if person-to-person transmission is efficient. We describe the epidemiology of a multistate outbreak of an influenza A(H3N2) variant virus (H3N2v) first identified in 2011. METHODS: We identified laboratory-confirmed cases of H3N2v and used a standard case report form to characterize illness and exposures. We considered illness to result from person-to-person H3N2v transmission if swine contact was not identified within 4 days prior to illness onset. RESULTS: From 9 July to 7 September 2012, we identified 306 cases of H3N2v in 10 states. The median age of all patients was 7 years. Commonly reported signs and symptoms included fever (98%), cough (85%), and fatigue (83%). Sixteen patients (5.2%) were hospitalized, and 1 fatal case was identified. The majority of those infected reported agricultural fair attendance (93%) and/or contact with swine (95%) prior to illness. We identified 15 cases of possible person-to-person transmission of H3N2v. Viruses recovered from patients were 93%-100% identical and similar to viruses recovered from previous cases of H3N2v. All H3N2v viruses examined were susceptible to oseltamivir and zanamivir and resistant to adamantane antiviral medications. CONCLUSIONS: In a large outbreak of variant influenza, the majority of infected persons reported exposures, suggesting that swine contact at an agricultural fair was a risk for H3N2v infection. We identified limited person-to-person H3N2v virus transmission, but found no evidence of efficient or sustained person-to-person transmission. Fair managers and attendees should be aware of the risk of swine-to-human transmission of influenza viruses in these settings. |
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