Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-4 (of 4 Records) |
Query Trace: Schroeder BA[original query] |
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Case Series of Laboratory-Associated Zika Virus Disease, United States, 2016-2019
Hills SL , Morrison A , Stuck S , Sandhu K , Mason KL , Stanek D , Gabel J , Osborne MA , Schroeder BA , Rico E , Drenzek CL , Gallagher GR , Fiddner J , Heberlein-Larson LA , Brown CM , Fischer M . Emerg Infect Dis 2021 27 (5) 1296-1300 Zika virus diagnostic testing and laboratory research increased considerably when Zika virus began spreading through the Americas in 2015, increasing the risk for potential Zika virus exposure of laboratory workers and biomedical researchers. We report 4 cases of laboratory-associated Zika virus disease in the United States during 2016-2019. Of these, 2 were associated with needlestick injuries; for the other 2 cases, the route of transmission was undetermined. In laboratories in which work with Zika virus is performed, good laboratory biosafety practices must be implemented and practiced to reduce the risk for infection among laboratory personnel. |
Evaluating Differences in Whole Blood, Serum, and Urine Screening Tests for Zika Virus, Puerto Rico, USA, 2016
Rosinger AY , Olson SM , Ellington SR , Perez-Padilla J , Simeone RM , Pedati CS , Schroeder BA , Santiago GA , Medina FA , Muñoz-Jordán JL , Adams LE , Galang RR , Valencia-Prado M , Bakkour S , Colón C , Goodwin M , Meaney-Delman D , Read JS , Petersen LR , Jamieson DJ , Deseda CC , Honein MA , Rivera-García B , Shapiro-Mendoza CK . Emerg Infect Dis 2021 27 (5) 1505-1508 We evaluated nucleic acid amplification testing (NAAT) for Zika virus on whole-blood specimens compared with NAAT on serum and urine specimens among asymptomatic pregnant women during the 2015-2016 Puerto Rico Zika outbreak. Using NAAT, more infections were detected in serum and urine than in whole blood specimens. |
Multistate Infestation with the Exotic Disease-Vector Tick Haemaphysalis longicornis - United States, August 2017-September 2018.
Beard CB , Occi J , Bonilla DL , Egizi AM , Fonseca DM , Mertins JW , Backenson BP , Bajwa WI , Barbarin AM , Bertone MA , Brown J , Connally NP , Connell ND , Eisen RJ , Falco RC , James AM , Krell RK , Lahmers K , Lewis N , Little SE , Neault M , Perez de Leon AA , Randall AR , Ruder MG , Saleh MN , Schappach BL , Schroeder BA , Seraphin LL , Wehtje M , Wormser GP , Yabsley MJ , Halperin W . MMWR Morb Mortal Wkly Rep 2018 67 (47) 1310-1313 Haemaphysalis longicornis is a tick indigenous to eastern Asia and an important vector of human and animal disease agents, resulting in such outcomes as human hemorrhagic fever and reduction of production in dairy cattle by 25%. H. longicornis was discovered on a sheep in New Jersey in August 2017 (1). This was the first detection in the United States outside of quarantine. In the spring of 2018, the tick was again detected at the index site, and later, in other counties in New Jersey, in seven other states in the eastern United States, and in Arkansas. The hosts included six species of domestic animals, six species of wildlife, and humans. To forestall adverse consequences in humans, pets, livestock, and wildlife, several critical actions are indicated, including expanded surveillance to determine the evolving distribution of H. longicornis, detection of pathogens that H. longicornis currently harbors, determination of the capacity of H. longicornis to serve as a vector for a range of potential pathogens, and evaluation of effective agents and methods for the control of H. longicornis. |
Public health implications of changing rodent importation patterns - United States, 1999-2013
Lankau EW , Sinclair JR , Schroeder BA , Galland GG , Marano N . Transbound Emerg Dis 2015 64 (2) 528-537 The United States imports a large volume of live wild and domestic animal species; these animals pose a demonstrated risk for introduction of zoonotic diseases. Rodents are imported for multiple purposes, including scientific research, zoo exhibits and the pet trade. Current U.S. public health regulatory restrictions specific to rodent importation pertain only to those of African origin. To understand the impacts of these regulations and the potential public health risks of international rodent trade to the United States, we evaluated live rodent import records during 1999-2013 by shipment volume and geographic origin, source (e.g. wild-caught versus captive- or commercially bred), intended purpose and rodent taxonomy. Live rodent imports increased from 2737 animals during 1999 to 173 761 animals during 2013. Increases in both the number and size of shipments contributed to this trend. The proportion of wild-captured imports declined from 75% during 1999 to <1% during 2013. Nearly all shipments during these years were imported for commercial purposes. Imports from Europe and other countries in North America experienced notable increases in volume. Gerbils and hamsters arriving from Europe and chinchillas, guinea pigs and hamsters arriving from other countries in North America were predominant taxa underlying this trend. After 2003, African-origin imports became sporadic events under the federal permit process. These patterns suggest development of large-scale captive rodent breeding markets abroad for commercial sale in the United States. While the shift from wild-captured imports alleviates many conservation concerns and risks for novel disease emergence, such consolidated sourcing might elevate exposure risks for zoonotic diseases associated with high-density rodent breeding (e.g. lymphocytic choriomeningitis or salmonellosis). A responsive border health system must periodically re-evaluate importation regulations in conjunction with key stakeholders to ensure a balance between the economic benefits of rodent trade against the potential public health risks. |
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