Last data update: Jan 13, 2025. (Total: 48570 publications since 2009)
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Correlations and timeliness of COVID-19 surveillance data sources and indicators - United States, October 1, 2020-March 22, 2023
Scobie HM , Panaggio M , Binder AM , Gallagher ME , Duck WM , Graff P , Silk BJ . MMWR Morb Mortal Wkly Rep 2023 72 (19) 529-535 When the U.S. COVID-19 public health emergency declaration expires on May 11, 2023, national reporting of certain categories of COVID-19 public health surveillance data will be transitioned to other data sources or will be discontinued; COVID-19 hospitalization data will be the only data source available at the county level (1). In anticipation of the transition, national COVID-19 surveillance data sources and indicators were evaluated for purposes of ongoing monitoring. The timeliness and correlations among surveillance indicators were analyzed to assess the usefulness of COVID-19-associated hospital admission rates as a primary indicator for monitoring COVID-19 trends, as well as the suitability of other replacement data sources. During April 2022-March 2023, COVID-19 hospital admission rates from the National Healthcare Safety Network (NHSN)(†) lagged 1 day behind case rates and 4 days behind percentages of positive test results and COVID-19 emergency department (ED) visits from the National Syndromic Surveillance Program (NSSP). In the same analysis, National Vital Statistics System (NVSS) trends in the percentage of deaths that were COVID-19-associated, which is tracked by date of death rather than by report date, were observable 13 days earlier than those from aggregate death count data, which will be discontinued (1). During October 2020-March 2023, strong correlations were observed between NVSS and aggregate death data (0.78) and between the percentage of positive SARS-CoV-2 test results from the National Respiratory and Enteric Viruses Surveillance System (NREVSS) and COVID-19 electronic laboratory reporting (CELR) (0.79), which will also be discontinued (1). Weekly COVID-19 Community Levels (CCLs) will be replaced with levels of COVID-19 hospital admission rates (low, medium, or high) which demonstrated >99% concordance by county during February 2022-March 2023. COVID-19-associated hospital admission levels are a suitable primary metric for monitoring COVID-19 trends, the percentage of COVID-19 deaths is a timely disease severity indicator, and the percentages of positive SARS-CoV-2 test results from NREVSS and ED visits serve as early indicators for COVID-19 monitoring. Collectively, these surveillance data sources and indicators can support monitoring of the impact of COVID-19 and related prevention and control strategies as ongoing public health priorities. |
COVID-19 surveillance after expiration of the public health emergency declaration - United States, May 11, 2023
Silk BJ , Scobie HM , Duck WM , Palmer T , Ahmad FB , Binder AM , Cisewski JA , Kroop S , Soetebier K , Park M , Kite-Powell A , Cool A , Connelly E , Dietz S , Kirby AE , Hartnett K , Johnston J , Khan D , Stokley S , Paden CR , Sheppard M , Sutton P , Razzaghi H , Anderson RN , Thornburg N , Meyer S , Womack C , Weakland AP , McMorrow M , Broeker LR , Winn A , Hall AJ , Jackson B , Mahon BE , Ritchey MD . MMWR Morb Mortal Wkly Rep 2023 72 (19) 523-528 On January 31, 2020, the U.S. Department of Health and Human Services (HHS) declared, under Section 319 of the Public Health Service Act, a U.S. public health emergency because of the emergence of a novel virus, SARS-CoV-2.* After 13 renewals, the public health emergency will expire on May 11, 2023. Authorizations to collect certain public health data will expire on that date as well. Monitoring the impact of COVID-19 and the effectiveness of prevention and control strategies remains a public health priority, and a number of surveillance indicators have been identified to facilitate ongoing monitoring. After expiration of the public health emergency, COVID-19-associated hospital admission levels will be the primary indicator of COVID-19 trends to help guide community and personal decisions related to risk and prevention behaviors; the percentage of COVID-19-associated deaths among all reported deaths, based on provisional death certificate data, will be the primary indicator used to monitor COVID-19 mortality. Emergency department (ED) visits with a COVID-19 diagnosis and the percentage of positive SARS-CoV-2 test results, derived from an established sentinel network, will help detect early changes in trends. National genomic surveillance will continue to be used to estimate SARS-CoV-2 variant proportions; wastewater surveillance and traveler-based genomic surveillance will also continue to be used to monitor SARS-CoV-2 variants. Disease severity and hospitalization-related outcomes are monitored via sentinel surveillance and large health care databases. Monitoring of COVID-19 vaccination coverage, vaccine effectiveness (VE), and vaccine safety will also continue. Integrated strategies for surveillance of COVID-19 and other respiratory viruses can further guide prevention efforts. COVID-19-associated hospitalizations and deaths are largely preventable through receipt of updated vaccines and timely administration of therapeutics (1-4). |
Tracking COVID-19 in the United States with surveillance of aggregate cases and deaths
Khan D , Park M , Burkholder J , Dumbuya S , Ritchey MD , Yoon P , Galante A , Duva JL , Freeman J , Duck W , Soroka S , Bottichio L , Wellman M , Lerma S , Lyons BC , Dee D , Haile S , Gaughan DM , Langer A , Gundlapalli AV , Suthar AB . Public Health Rep 2023 333549231163531 Early during the COVID-19 pandemic, the Centers for Disease Control and Prevention (CDC) leveraged an existing surveillance system infrastructure to monitor COVID-19 cases and deaths in the United States. Given the time needed to report individual-level (also called line-level) COVID-19 case and death data containing detailed information from individual case reports, CDC designed and implemented a new aggregate case surveillance system to inform emergency response decisions more efficiently, with timelier indicators of emerging areas of concern. We describe the processes implemented by CDC to operationalize this novel, multifaceted aggregate surveillance system for collecting COVID-19 case and death data to track the spread and impact of the SARS-CoV-2 virus at national, state, and county levels. We also review the processes established to acquire, process, and validate the aggregate number of cases and deaths due to COVID-19 in the United States at the county and jurisdiction levels during the pandemic. These processes include time-saving tools and strategies implemented to collect and validate authoritative COVID-19 case and death data from jurisdictions, such as web scraping to automate data collection and algorithms to identify and correct data anomalies. This topical review highlights the need to prepare for future emergencies, such as novel disease outbreaks, by having an event-agnostic aggregate surveillance system infrastructure in place to supplement line-level case reporting for near-real-time situational awareness and timely data. |
Improving efficiency of COVID-19 aggregate case and death surveillance data transmission for jurisdictions: current and future role of application programming interfaces (APIs).
Khan D , Park M , Lerma S , Soroka S , Gaughan D , Bottichio L , Bray M , Fukushima M , Bregman B , Wiedeman C , Duck W , Dee D , Gundlapalli A , Suthar AB . J Am Med Inform Assoc 2022 29 (10) 1807-1809 During the coronavirus disease-2019 (COVID-19) pandemic, the Centers for Disease Control and Prevention (CDC) supplemented traditional COVID-19 case and death reporting with COVID-19 aggregate case and death surveillance (ACS) to track daily cumulative numbers. Later, as public health jurisdictions (PHJs) revised the historical COVID-19 case and death data due to data reconciliation and updates, CDC devised a manual process to update these records in the ACS dataset for improving the accuracy of COVID-19 case and death data. Automatic data transfer via an application programming interface (API), an intermediary that enables software applications to communicate, reduces the time and effort in transferring data from PHJs to CDC. However, APIs must meet specific content requirements for use by CDC. As of March 2022, CDC has integrated APIs from 3 jurisdictions for COVID-19 ACS. Expanded use of APIs may provide efficiencies for COVID-19 and other emergency response planning efforts as evidenced by this proof-of-concept. In this article, we share the utility of APIs in COVID-19 ACS. |
Influenza A virus circulation in backyard animals in the Pacific coast of Guatemala, 2013-2014.
Müller-Theissen ML , Azziz-Baumgartner E , Ortiz L , Szablewski CM , Alvarez D , Gonzalez-Reiche AS , Jara J , Davis CT , Cordon-Rosales C . Zoonoses Public Health 2022 69 (7) 826-834 Due to their documented epidemiological relevance as hosts for influenza A viruses (IAV), humans, poultry and pigs in backyard production systems (BPS) within wetlands could be key to the emergence of novel IAV variants able to transmit between humans or animals. To better understand the circulation of IAV at the human-animal interface of BPS within wetlands, we studied IAV in backyard duck flocks and pig herds in the Pacific Coast of Guatemala. From April 2013 to October 2014, we estimated the monthly IAV per cent seropositive and viral positive flocks and herds in two resource-limited communities. We detected antibodies in sera against the IAV nucleoprotein through ELISA. We also detected IAV viral RNA in respiratory (ducks and pigs) and cloacal (ducks) swabs through rRT-PCR directed at the matrix gene. We attempted viral isolation in eggs or MDCK cells followed by sequencing from swabs positive for IAV. During our study period, IAV seropositivity in duck flocks was 38%, and viral positivity was 23% (n = 86 BPS sampled). IAV seropositivity in pig herds was 42%, and viral positivity was 20% (n = 90 BPS sampled). Both flocks and herds had detectable antibodies against IAV mostly year-round, and IAV was detected in several months. We isolated an H3N2 virus from one pig sampled at the end of 2013. Standard nucleotide BLAST searches indicate that the isolated virus was similar to seasonal viruses circulating in humans, suggesting human-to-pig transmission. Our data show concurrent circulation of IAV in multiple species of poultry and pigs that were commingled in rudimentary conditions in proximity to humans, but no significant risk factors could be identified. |
Protecting Privacy and Transforming COVID-19 Case Surveillance Datasets for Public Use.
Lee B , Dupervil B , Deputy NP , Duck W , Soroka S , Bottichio L , Silk B , Price J , Sweeney P , Fuld J , Weber JT , Pollock D . Public Health Rep 2021 136 (5) 333549211026817 OBJECTIVES: Federal open-data initiatives that promote increased sharing of federally collected data are important for transparency, data quality, trust, and relationships with the public and state, tribal, local, and territorial partners. These initiatives advance understanding of health conditions and diseases by providing data to researchers, scientists, and policymakers for analysis, collaboration, and use outside the Centers for Disease Control and Prevention (CDC), particularly for emerging conditions such as COVID-19, for which data needs are constantly evolving. Since the beginning of the pandemic, CDC has collected person-level, de-identified data from jurisdictions and currently has more than 8 million records. We describe how CDC designed and produces 2 de-identified public datasets from these collected data. METHODS: We included data elements based on usefulness, public request, and privacy implications; we suppressed some field values to reduce the risk of re-identification and exposure of confidential information. We created datasets and verified them for privacy and confidentiality by using data management platform analytic tools and R scripts. RESULTS: Unrestricted data are available to the public through Data.CDC.gov, and restricted data, with additional fields, are available with a data-use agreement through a private repository on GitHub.com. PRACTICE IMPLICATIONS: Enriched understanding of the available public data, the methods used to create these data, and the algorithms used to protect the privacy of de-identified people allow for improved data use. Automating data-generation procedures improves the volume and timeliness of sharing data. |
Decreases in COVID-19 Cases, Emergency Department Visits, Hospital Admissions, and Deaths Among Older Adults Following the Introduction of COVID-19 Vaccine - United States, September 6, 2020-May 1, 2021.
Christie A , Henley SJ , Mattocks L , Fernando R , Lansky A , Ahmad FB , Adjemian J , Anderson RN , Binder AM , Carey K , Dee DL , Dias T , Duck WM , Gaughan DM , Lyons BC , McNaghten AD , Park MM , Reses H , Rodgers L , Van Santen K , Walker D , Beach MJ . MMWR Morb Mortal Wkly Rep 2021 70 (23) 858-864 Throughout the COVID-19 pandemic, older U.S. adults have been at increased risk for severe COVID-19-associated illness and death (1). On December 14, 2020, the United States began a nationwide vaccination campaign after the Food and Drug Administration's Emergency Use Authorization of Pfizer-BioNTech COVID-19 vaccine. The Advisory Committee on Immunization Practices (ACIP) recommended prioritizing health care personnel and residents of long-term care facilities, followed by essential workers and persons at risk for severe illness, including adults aged ≥65 years, in the early phases of the vaccination program (2). By May 1, 2021, 82%, 63%, and 42% of persons aged ≥65, 50-64, and 18-49 years, respectively, had received ≥1 COVID-19 vaccine dose. CDC calculated the rates of COVID-19 cases, emergency department (ED) visits, hospital admissions, and deaths by age group during November 29-December 12, 2020 (prevaccine) and April 18-May 1, 2021. The rate ratios comparing the oldest age groups (≥70 years for hospital admissions; ≥65 years for other measures) with adults aged 18-49 years were 40%, 59%, 65%, and 66% lower, respectively, in the latter period. These differential declines are likely due, in part, to higher COVID-19 vaccination coverage among older adults, highlighting the potential benefits of rapidly increasing vaccination coverage. |
Molecular characterization and three-dimensional structures of avian H8, H11, H14, H15 and swine H4 influenza virus hemagglutinins.
Yang H , Carney PJ , Chang JC , Stevens J . Heliyon 2020 6 (6) e04068 Of the eighteen hemagglutinin (HA) subtypes (H1-H18) that have been identified in bats and aquatic birds, many HA subtypes have been structurally characterized. However, several subtypes (H8, H11 and H12) still require characterization. To better understand all of these HA subtypes at the molecular level, HA structures from an A(H4N6) (A/swine/Missouri/A01727926/2015), an A(H8N4) (A/turkey/Ontario/6118/1968), an A(H11N9) (A/duck/Memphis/546/1974), an A(H14N5) A/mallard/Gurjev/263/1982, and an A(H15N9) (A/wedge-tailed shearwater/Western Australia/2576/1979 were determined by X-ray crystallography at 2.2Å, 2.3Å, 2.8Å, 3.0Å and 2.5Å resolution, respectively. The interactions between these viruses and host receptors were studied utilizing glycan-binding analyses with their recombinant HA. The data show that all avian HAs retain their strict binding preference to avian receptors, whereas swine H4 has a weak human receptor binding. The molecular characterization and structural analyses of the HA from these zoonotic influenza viruses not only provide a deeper appreciation and understanding of the structure of all HA subtypes, but also re-iterate why continuous global surveillance is needed. |
Modernizing Centers for Disease Control and Prevention informatics using surveillance data platform shared services
Lee B , Martin T , Khan A , Fullerton K , Duck W , Kinley T , Stoutenburg S , Hall J , Crum M , Garcia MC , Iademarco MF , Richards CL . Public Health Rep 2018 133 (2) 33354917751130 Public health surveillance is the cornerstone of public health practice.1 In the United States, the Centers for Disease Control and Prevention (CDC) and states share responsibility for the surveillance enterprise. States have primary responsibility for traditional name-based disease reporting, and they subsequently share anonymized data with CDC. At the same time, CDC maintains many surveillance systems at the federal level. For decades, the number of these single-disease or condition, single-purpose surveillance systems has grown as CDC has needed to expand surveillance data collection to address new public health problems. Currently, CDC has more than 110 surveillance systems. Although these systems provide CDC with the surveillance data needed by the agency, many are experienced as repetitive and burdensome by state and local public health departments, with little or no coordination. This profusion of CDC systems results in duplication of effort, discrepancies among the data elements collected by various programs, and the need to use multiple information technology (IT) systems, which may not be interoperable. |
An epidemiological study of avian influenza A (H5) virus in nomadic ducks and their raising practices in northeastern Bangladesh, 2011-2012
Sarkar S , Khan SU , Mikolon A , Rahman MZ , Abedin J , Zeidner N , Sturm-Ramirez K , Luby SP . Influenza Other Respir Viruses 2016 11 (3) 275-282 BACKGROUND: In Bangladesh nomadic duck flocks are groups of domestic ducks reared for egg production that are moved to access feeding sites beyond their owners' village boundaries and are housed overnight in portable enclosures in scavenging areas. The objectives of this study were to measure the prevalence of influenza A virus RNA and H5-specific antibodies in nomadic ducks and to characterize nomadic duck raising practices in northeastern Bangladesh. METHODS: We tested duck egg yolk specimens by competitive ELISA to detect antibodies against avian influenza A (H5) and environmental fecal samples by real time reverse transcription polymerase chain reaction (rRT-PCR) to detect influenza A virus RNA and H5 subtype. RESULTS: The median age of the ducks was 24 months (range: 8-36 months) and the median flock size was 300 ducks (range: 105-1,100). Of 1,860 egg yolk samples, 556 (30%, 95% confidence interval (CI): 28-32) were positive for antibodies against H5 and 58 flocks (94%) had at least one egg with H5 specific antibodies. Of 496 fecal samples, 121 (24%, 95% CI: 22-29) had detectable influenza A RNA. Thirty-three flocks (53%) had at least one fecal sample positive for influenza A RNA. CONCLUSIONS: Nomadic ducks in Bangladesh are commonly infected with avian influenza A (H5) virus and may serve as a bridging host for transmission of avian influenza A (H5) virus or other avian influenza A viruses subtypes between wild waterfowl, backyard poultry, and humans in Bangladesh. |
Effect of receptor binding specificity on the immunogenicity and protective efficacy of influenza virus A H1 vaccines
Sun X , Cao W , Pappas C , Liu F , Katz JM , Tumpey TM . Virology 2014 464-465c 156-165 The biological basis for the poor immunogenicity of unadjuvanted avian influenza A virus vaccines in mammals is not well understood. Here, we mutated the hemagglutinin (HA) of two H1N1 virus vaccines to determine whether virus receptor binding specificity contributes to the low immunogenicity of avian influenza virus vaccines. Mutations were introduced into the HA of an avian influenza virus, A/Duck/New York/15024-21/96 (Dk/96) which switched the binding preference from alpha2,3- to alpha2,6-linked sialic acid (SA). A switch in receptor specificity of the human A/South Carolina/1/18 (SC/18) virus generated a mutant virus with alpha2,3 SA (avian) binding preference. Inactivated vaccines were generated and administered to mice and ferrets intramuscularly. We found that the vaccines with human receptor binding preference induced slightly higher antibody titers and cell-mediated immune responses compared to their isogenic viruses with avian receptor binding specificity. Upon challenge with DK/96 or SC18 virus, differences in lung virus titers between the vaccine groups with different receptor-binding specificities were minimal. Overall, our data suggest that receptor binding specificity contributes only marginally to the immunogenicity of avian influenza vaccines and that other factors may also be involved. |
Investigating a crow die-off in January-February 2011 during the introduction of a new clade of highly pathogenic avian influenza virus H5N1 into Bangladesh
Khan SU , Berman L , Haider N , Gerloff N , Rahman MZ , Shu B , Rahman M , Dey TK , Davis TC , Das BC , Balish A , Islam A , Teifke JP , Zeidner N , Lindstrom S , Klimov A , Donis RO , Luby SP , Shivaprasad HL , Mikolon AB . Arch Virol 2014 159 (3) 509-18 We investigated unusual crow mortality in Bangladesh during January-February 2011 at two sites. Crows of two species, Corvus splendens and C. macrorhynchos, were found sick and dead during the outbreaks. In selected crow roosts, morbidity was ~1 % and mortality was ~4 % during the investigation. Highly pathogenic avian influenza virus H5N1 clade 2.3.2.1 was isolated from dead crows. All isolates were closely related to A/duck/India/02CA10/2011 (H5N1) with 99.8 % and A/crow/Bangladesh/11rs1984-15/2011 (H5N1) virus with 99 % nucleotide sequence identity in their HA genes. The phylogenetic cluster of Bangladesh viruses suggested a common ancestor with viruses found in poultry from India, Myanmar and Nepal. Histopathological changes and immunohistochemistry staining in brain, pancreas, liver, heart, kidney, bursa of Fabricius, rectum, and cloaca were consistent with influenza virus infection. Through our limited investigation in domesticated birds near the crow roosts, we did not identify any samples that tested positive for influenza virus A/H5N1. However, environmental samples collected from live-bird markets near an outbreak site during the month of the outbreaks tested very weakly positive for influenza virus A/H5N1 in clade 2.3.2.1-specific rRT-PCR. Continuation of surveillance in wild and domestic birds may identify evolution of new avian influenza virus and associated public-health risks. |
Suboptimal protection against H5N1 highly pathogenic avian influenza viruses from Vietnam in ducks vaccinated with commercial poultry vaccines
Cha RM , Smith D , Shepherd E , Davis CT , Donis R , Nguyen T , Nguyen HD , Do HT , Inui K , Suarez DL , Swayne DE , Pantin-Jackwood M . Vaccine 2013 31 (43) 4953-60 Domestic ducks are the second most abundant poultry species in many Asian countries including Vietnam, and play a critical role in the epizootiology of H5N1 highly pathogenic avian influenza (HPAI) [FAO]. In this study, we examined the protective efficacy in ducks of two commercial H5N1 vaccines widely used in Vietnam; Re-1 containing A/goose/Guangdong/1/1996 hemagglutinin (HA) clade 0 antigens, and Re-5 containing A/duck/Anhui/1/2006 HA clade 2.3.4 antigens. Ducks received two doses of either vaccine at 7 and at 14 or 21 days of age followed by challenge at 30 days of age with viruses belonging to the HA clades 1.1, 2.3.4.3, 2.3.2.1.A and 2.3.2.1.B isolated between 2008 and 2011 in Vietnam. Ducks vaccinated with the Re-1 vaccine were protected after infection with the two H5N1 HPAI viruses isolated in 2008 (HA clades 1.1 and 2.3.4.3) showing no mortality and limited virus shedding. The Re-1 and Re-5 vaccines conferred 90-100% protection against mortality after challenge with the 2010 H5N1 HPAI viruses (HA clade 2.3.2.1.A); but vaccinated ducks shed virus for more than 7 days after challenge. Similarly, the Re-1 and Re-5 vaccines only showed partial protection against the 2011 H5N1 HPAI viruses (HA clade 2.3.2.1.A and 2.3.2.1.B), with a high proportion of vaccinated ducks shedding virus for more than 10 days. Furthermore, 50% mortality was observed in ducks vaccinated with Re-1 and challenged with the 2.3.2.1.B virus. The HA proteins of the 2011 challenge viruses had the greatest number of amino acid differences from the two vaccines as compared to the viruses from 2008 and 2009, which correlates with the lesser protection observed with these viruses. These studies demonstrate the suboptimal protection conferred by the Re-1 and Re-5 commercial vaccines in ducks against H5N1 HPAI clade 2.3.2.1 viruses, and underscore the importance of monitoring vaccine efficacy in the control of H5N1 HPAI in ducks. |
Emergence of multiple clade 2.3.2.1 influenza A (H5N1) virus subgroups in Vietnam and detection of novel reassortants
Creanga A , Thi Nguyen D , Gerloff N , Thi Do H , Balish A , Dang Nguyen H , Jang Y , Thi Dam V , Thor S , Jones J , Simpson N , Shu B , Emery S , Berman L , Nguyen HT , Bryant JE , Lindstrom S , Klimov A , Donis RO , Davis CT , Nguyen T . Virology 2013 444 12-20 Phylogenetic analyses of 169 influenza A(H5N1) virus genomes were conducted for samples collected through active surveillance and outbreak responses in Vietnam between September 2010 and September 2012. While clade 1.1 viruses persisted in southern regions, three genetically distinct subgroups of clade 2.3.2.1 were found in northern and central Vietnam. The identification of each subgroup corresponded with detection of novel reassortants, likely due to their overlapping circulation throughout the country. While the previously identified clade 1.1 and A/Hubei/1/2010-like 2.3.2.1 genotypes remained the predominant viruses detected, four viruses were found to be reassortants between A/Hubei/1/2010-like (HA, NA, PB2, PB1, PA, NP) and A/duck/Vietnam/NCVD-885/2010-like (M, NS) viruses and one virus was identified as having A/duck/Vietnam/NCVD-885/2010-like HA, NA, PB1, and NP with A/Hubei/1/2010-like PB2 and PA genes. Additionally, clade 2.3.2.1 A/Hong Kong/6841/2010-like viruses, first detected in mid-2012, were identified as reassortants comprised of A/Hubei/1/2010-like PB2 and PA and A/duck/Vietnam/NCVD-885/2010-like PB1, NP, NA, M, NS genes. |
Depressive symptoms among immigrant Latino sexual minorities
Rhodes SD , Martinez O , Song E-Y , Daniel J , Alonzo J , Eng E , Duck S , Downs M , Bloom FR , Allen AB , Miller C , Reboussin B . Am J Health Behav 2013 37 (3) 404-413 OBJECTIVE: To estimate the prevalence and identify correlates of depressive symptoms among immigrant Latino sexual minorities. METHODS: Respondent-driven sampling (RDS) was used to estimate the prevalence of depressive symptoms, and univariate and multivariable analyses were conducted to identify correlates of depressive symptoms. RESULTS: Unweighted and RDS-weighted prevalence estimates of depressive symptoms were 69.2% and 74.8%, respectively. In the multivariable analysis, low social support, sexual compulsivity, and high self-esteem were significantly associated with increased depressive symptoms. CONCLUSIONS: A need exists for culturally congruent mental health services for immigrant Latino sexual minorities in the southern United States. (PsycINFO Database Record (c) 2012 APA, all rights reserved) (journal abstract). |
Outbreak of human Salmonella Typhimurium infections linked to contact with baby poultry from a single agricultural feed store chain and mail-order hatchery, 2009
Loharikar A , Vawter S , Warren K , Deasy M 3rd , Moll M , Sandt C , Gilhousen R , Villamil E , Rhorer A , Briere E , Schwensohn C , Trees E , Lafon P , Adams JK , Le B , Behravesh CB . Pediatr Infect Dis J 2012 32 (1) 8-12 BACKGROUND: Over thirty outbreaks of human salmonellosis linked to contact with live poultry from mail-order hatcheries were reported to CDC between 1990-2010. In May 2009, we investigated an outbreak of human Salmonella Typhimurium infections, primarily affecting children. METHODS: A case was defined as a person with the outbreak strain of Salmonella Typhimurium, as determined by pulsed-field gel electrophoresis (PFGE) and multiple-locus variable-number tandem repeat analysis (MLVA), in a Pennsylvania or New York resident with illness onset between May 1- September 1, 2009. We conducted a case-control study to examine the relationship between illness and live poultry contact. Controls were age- and geographically-matched. Traceback and environmental investigations were conducted. RESULTS: We identified 36 case-patients in Pennsylvania and New York; 36% were children aged ≤5 years. Case-patients were more likely than controls to report live baby poultry contact (matched odds ratio [mOR]: 17.0; 95% Confidence Interval [CI]:2.7-710.5), contact with chicks (mOR:14.0; 95% CI:2.1-592.0), ducklings (mOR:8.0; 95% CI:1.1-355.0), and visiting agricultural feed stores (mOR:6.0; 95% CI:1.3-55.2). Most (83%) visited agricultural Feed Store Chain Y, a national agricultural feed store chain, which received poultry from Hatchery C, which is supplied by multiple egg sources. Salmonella Typhimurium was isolated from a source duck flock, but had a different PFGE pattern than the outbreak strain. CONCLUSION: Live baby poultry remain an important source of human salmonellosis, particularly among children. Preventing these infections requires comprehensive interventions at hatcheries and agricultural feed stores; pediatricians should inform patients of risks associated with live poultry contact. |
Detection of influenza A virus in live bird markets in Kenya, 2009-2011
Munyua PM , Githinji JW , Waiboci LW , Njagi LM , Arunga G , Mwasi L , Murithi Mbabu R , Macharia JM , Breiman RF , Njenga MK , Katz MA . Influenza Other Respir Viruses 2012 7 (2) 113-9 BACKGROUND: Surveillance for influenza viruses within live bird markets (LBMs) has been recognized as an effective tool for detecting circulating avian influenza viruses (AIVs). In Sub-Saharan Africa, limited data exist on AIVs in animal hosts, and in Kenya the presence of influenza virus in animal hosts has not been described. OBJECTIVES: This surveillance project aimed to detect influenza A virus in poultry traded in five LBMs in Kenya. METHODS: We visited each market monthly and collected oropharyngeal and cloacal specimens from poultry and environmental specimens for virological testing for influenza A by real time RT-PCR. On each visit, we collected information on the number and types of birds in each market, health status of the birds, and market practices. RESULTS: During March 24, 2009-February 28, 2011, we collected 5221 cloacal and oropharyngeal swabs. Of the 5199 (99.6%) specimens tested, influenza A virus was detected in 42 (0.8%), including 35/4166 (0.8%) specimens from chickens, 3/381 (0.8%) from turkeys, and 4/335 (1.2%) from geese. None of the 317 duck specimens were positive. Influenza was more commonly detected in oropharyngeal [33 (1.3%)] than in cloacal [9 (0.4%)] specimens. None of the 485 environmental specimens were positive. Virus was detected in all five markets during most (14/22) of the months. Ducks and geese were kept longer at the market (median 30 days) than chickens (median 2 days). CONCLUSIONS: Influenza A was detected in a small percentage of poultry traded in LBMs in Kenya. Efforts should be made to promote practices that could limit the maintenance and transmission of AIVs in LBMs. |
Adaptation of a duck influenza A virus in quail
Yamada S , Shinya K , Takada A , Ito T , Suzuki T , Suzuki Y , Le QM , Ebina M , Kasai N , Kida H , Horimoto T , Rivailler P , Chen LM , Donis RO , Kawaoka Y . J Virol 2012 86 (3) 1411-20 Quail are thought to serve as intermediate hosts of influenza A viruses between aquatic birds and terrestrial birds, such as chickens, due to their high susceptibility to aquatic-bird viruses, which then adapt to replicate efficiently in their new hosts. However, does replication of aquatic-bird influenza viruses in quail similarly result in their efficient replication in humans? Using sialic acid-galactose linkage-specific lectins, we found both avian (sialic acid-alpha2-3-galactose [Siaalpha2-3Gal] linkages on sialyloligosaccharides)--and human (Siaalpha2-6Gal)-type receptors on the tracheal cells of quail, consistent with previous reports. We also passaged a duck H3N2 virus in quail 19 times. Sequence analysis revealed that eight mutations accumulated in hemagglutinin (HA) during these passages. Interestingly, many of the altered HA amino acids found in the adapted virus are present in human seasonal viruses, but not in duck viruses. We also found that stepwise stalk deletion of neuraminidase occurred during passages, resulting in reduced neuraminidase function. Despite some hemagglutinin mutations near the receptor binding pocket, appreciable changes in receptor specificity were not detected. However, reverse-genetics-generated viruses that possessed the hemagglutinin and neuraminidase of the quail-passaged virus replicated significantly better than the virus possessing the parent HA and neuraminidase in normal human bronchial epithelial cells, whereas no significant difference in replication between the two viruses was observed in duck cells. Further, the quail-passaged but not the original duck virus replicated in human bronchial epithelial cells. These data indicate that quail can serve as intermediate hosts for aquatic-bird influenza viruses to be transmitted to humans. |
A randomized controlled trial of a culturally congruent intervention to increase condom use and HIV testing among heterosexually active immigrant Latino men
Rhodes SD , McCoy TP , Vissman AT , Diclemente RJ , Duck S , Hergenrather KC , Foley KL , Alonzo J , Bloom FR , Eng E . AIDS Behav 2011 15 (8) 1764-75 This randomized controlled trial tested the efficacy of an HIV prevention intervention to increase condom use and HIV testing among Spanish-speaking, heterosexually active immigrant Latino men. A community-based participatory research partnership developed the intervention and selected the study design. Following baseline data collection, 142 immigrant Latino men were randomized to the HIV prevention intervention or the cancer education intervention. Three-month follow-up data were collected from 139 participants, for a 98% retention rate. Mean age of participants was 31.6 years and 60% reported being from Mexico. Adjusting for baseline behaviors, relative to their peers in the cancer education comparison, participants in the HIV prevention intervention were more likely to report consistent condom use and receiving an HIV test. Community-based interventions for immigrant Latino men that are built on state of the art prevention science and developed in partnership with community members can greatly enhance preventive behaviors and may reduce HIV infection. |
North American West Nile virus genotype isolates demonstrate differential replicative capacities in response to temperature.
Andrade CC , Maharaj PD , Reisen WK , Brault AC . J Gen Virol 2011 92 2523-33 The presence of West Nile virus (WNV) was first documented in California, USA, during the summer of 2003, and subsequently the virus has become endemic throughout the state. Sequence analysis has demonstrated that the circulating strains are representative of the North American (WN02) genotype that has displaced the East Coast genotype (NY99). A recent study has indicated that enhanced vector competence at elevated temperatures may have played a role in the displacement of the East Coast genotype by WN02. In the current study, four WN02 strains from California, including an initial 2003 isolate (COAV997), were compared to strain NY99 in growth curve assays in mosquito and duck embryonic fibroblast (DEF) cell lines at differing, biologically relevant temperatures to assess the relative temperature sensitivities of these natural isolates. COAV997 was significantly debilitated in viral replication in DEF cells at 44 degrees C. Full-length sequence comparison of COAV997 against the NY99 reference strain revealed non-synonymous mutations in the envelope glycoprotein (V159A), non-structural protein 1 (NS1) (K110N) and non-structural protein 4A (NS4A) (F92L), as well as two mutations in the 3' UTR: C-->T at nt 10 772 and A-->G at nt 10 851. These non-synonymous mutations were introduced into the NY99 viral backbone by site-directed mutagenesis. A mutant containing the NS1-K110N and NS4A-F92L mutations exhibited a debilitated growth phenotype in DEF cells at 44 degrees C, similar to that of COAV997. One explanation for the subsistence of this genotype is that COAV997 was obtained from an area of California where avian host species might not present elevated temperatures. These data indicate that the NS1 and NS4A mutations identified in some WN02 isolates could reduce thermal stability and impede replication of virus at temperatures observed in febrile avian hosts. |
Structural gene (prME) chimeras of St Louis encephalitis virus and West Nile virus exhibit altered in vitro cytopathic and growth phenotypes.
Maharaj PD , Anishchenko M , Langevin SA , Fang Y , Reisen WK , Brault AC . J Gen Virol 2011 93 39-49 Despite utilizing the same avian hosts and mosquito vectors, St. Louis encephalitis virus (SLEV) and West Nile virus (WNV) display dissimilar vector infectivity and vertebrate pathogenic phenotypes. SLEV exhibits a low oral infection threshold for Culex mosquito vectors and is avirulent in avian hosts, producing low-magnitude viremias. In contrast, WNV is less orally infective to mosquitoes and elicits high-magnitude viremias in a wide range of avian species. In order to identify the genetic determinants of these different phenotypes and to assess the utility of mosquito and vertebrate cell lines for recapitulating in vivo differences observed between these viruses, reciprocal WNV and SLEV premembrane and envelope protein (prME) chimeric viruses were generated and growth of these mutant viruses characterized in mammalian (Vero), avian (duck) and mosquito cells [Aedes (C6/36) and Culex (CT)]. In both vertebrate lines, WNV grew to 100-fold higher titer than SLEV and growth and cytopathogenicity phenotypes, determined by chimeric phenotypes, were modulated by genetic elements outside of the prME gene region. Both chimeras exhibited distinctive growth patterns from SLEV in C6/36 cells, indicating the role of both structural and nonstructural gene regions for growth in this cell line. In contrast, growth of chimeric viruses was indistinguishable from the virus containing homologous prME genes in CT cells, indicating that structural genetic elements could specifically dictate growth differences of these viruses in relevant vectors. These data provide genetic insight into divergent enzootic maintenance strategies that could also be useful for the assessment of emergence mechanisms of closely related flaviviruses. |
Variation in western equine encephalomyelitis viral strain growth in mammalian, avian, and mosquito cells fails to explain temporal changes in enzootic and epidemic activity in California
Zhang M , Fang Y , Brault AC , Reisen WK . Vector Borne Zoonotic Dis 2011 11 (3) 269-75 The decrease in western equine encephalomyelitis virus (WEEV; Togaviridae, Alphavirus) activity in North America over the past 20-30 years has prompted research to determine if there have been concurrent declines in virulence. Six (WEEV) strains isolated from Culex tarsalis mosquitoes from California during each of the six preceding decades failed to show a consistent declining temporal trend in virus titer using mosquito (C6/36), avian (duck embryo fibroblast), or mammalian (Vero) cells, results similar to our recent in vivo studies using birds and mosquitoes. Titers measured by Vero cell plaque assay were consistently highest on mosquito cell culture, followed by avian and mammalian cell cultures. Similar to previous in vivo results in house sparrows and mice, titers for the IMP181 strain isolated in 2005 were significantly lower in both avian and mammalian cells. Real-time monitoring of changes in cell growth measured by electrical impedance showed consistent differences among cell types, but not WEEV strains. Collectively, these in vitro results failed to explain the decrease in WEEV enzootic and epidemic activity. Results with the IMP181 strain should be verified by additional sequencing, cell growth, and pathogenesis studies using concurrent or 2006 isolates of WEEV from California. |
Duck hunters' perceptions of risk for avian influenza, Georgia, USA
Dishman H , Stallknecht D , Cole D . Emerg Infect Dis 2010 16 (8) 1279-81 To determine duck hunters' risk for highly pathogenic avian influenza, we surveyed duck hunters in Georgia, USA, during 2007-2008, about their knowledge, attitudes, and practices. We found they engage in several practices that could expose them to the virus. Exposures and awareness were highest for those who had hunted >10 years. |
Genetic analysis of avian influenza A viruses isolated from domestic waterfowl in live-bird markets of Hanoi, Vietnam, preceding fatal H5N1 human infections in 2004
Jadhao SJ , Nguyen DC , Uyeki TM , Shaw M , Maines T , Rowe T , Smith C , Huynh LP , Nghiem HK , Nguyen DH , Nguyen HK , Nguyen HH , Hoang LT , Nguyen T , Phuong LS , Klimov A , Tumpey TM , Cox NJ , Donis RO , Matsuoka Y , Katz JM . Arch Virol 2009 154 (8) 1249-61 The first known cases of human infection with highly pathogenic avian influenza (HPAI) H5N1 viruses in Vietnam occurred in late 2003. However, HPAI H5N1 and low-pathogenic avian influenza (LPAI) H5N2 and H9N3 viruses were isolated from domestic waterfowl during live-bird market (LBM) surveillance in Vietnam in 2001 and 2003. To understand the possible role of these early viruses in the genesis of H5N1 strains infecting people, we performed sequencing and molecular characterization. Phylogenetic analysis revealed that the hemagglutinin (HA) genes of two geese HPAI H5N1 strains belonged to clade 3, and their surface glycoprotein and replication complex genes were most closely related (98.5-99.7% homologous) to A/duck/Guangxi/22/01 (H5N1) virus, detected contemporarily in southern China, whilst the M and NS genes were derived from an A/duck/Hong Kong/2986.1/00 (H5N1)-like virus. The H5 HA gene of the duck HPAI H5N1 strain belonged to clade 5 and acquired a gene constellation from A/quail/Shantou/3846/02 (H5N1), A/teal/China/2978.1/02 (H5N1) and A/partridge/Shantou/2286/03 (H5N1)-like viruses. The phylogenetic analysis further indicated that all eight gene segments of goose and duck HPAI H5N1 and LPAI H5N2 viruses were distinct from those of H5N1 clade-1 viruses known to have caused fatal human infections in Vietnam since late 2003. The duck H9N3 isolates derived genes from aquatic-bird influenza viruses, and their H9 HA belonged to the Korean lineage. The PB2 gene of A/duck/Vietnam/340/01 (H9N3) virus had lysine at position 627. Based on the molecular characterization of specific amino acid residues in the surface and relevant internal protein-coding genes, the Vietnamese H5N1 and H9N3 virus isolates indicated specificity to avian cell surface receptor and susceptibility for currently licensed anti-influenza A virus chemotherapeutics. Our findings suggest that the H5N1 and H5N2 viruses that circulated among geese and ducks in LBMs in Hanoi, Vietnam, during 2001 and 2003 were not the immediate ancestors of the clade-1 viruses associated with fatal human infections in Vietnam. The clade-1 HPAI H5N1 viruses were independently introduced into Vietnam. |
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