Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-4 (of 4 Records) |
Query Trace: Toews KE[original query] |
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Zika-associated birth defects reported in pregnancies with laboratory evidence of confirmed or possible Zika virus infection - U.S. Zika Pregnancy and Infant Registry, December 1, 2015-March 31, 2018
Roth NM , Reynolds MR , Lewis EL , Woodworth KR , Godfred-Cato S , Delaney A , Akosa A , Valencia-Prado M , Lash M , Elmore A , Langlois P , Khuwaja S , Tufa A , Ellis EM , Nestoridi E , Lyu C , Longcore ND , Piccardi M , Lind L , Starr S , Johnson L , Browne SE , Gosciminski M , Velasco PE , Johnson-Clarke F , Locklear A , Chan M , Fornoff J , Toews KE , Tonzel J , Marzec NS , Hale S , Nance AE , Willabus T , Contreras D , Adibhatla SN , Iguchi L , Potts E , Schiffman E , Lolley K , Stricklin B , Ludwig E , Garstang H , Marx M , Ferrell E , Moreno-Gorrin C , Signs K , Romitti P , Leedom V , Martin B , Castrodale L , Cook A , Fredette C , Denson L , Cronquist L , Nahabedian JF3rd , Shinde N , Polen K , Gilboa SM , Martin SW , Cragan JD , Meaney-Delman D , Honein MA , Tong VT , Moore CA . MMWR Morb Mortal Wkly Rep 2022 71 (3) 73-79 Zika virus infection during pregnancy can cause serious birth defects of the brain and eyes, including intracranial calcifications, cerebral or cortical atrophy, chorioretinal abnormalities, and optic nerve abnormalities (1,2). The frequency of these Zika-associated brain and eye defects, based on data from the U.S. Zika Pregnancy and Infant Registry (USZPIR), has been previously reported in aggregate (3,4). This report describes the frequency of individual Zika-associated brain and eye defects among infants from pregnancies with laboratory evidence of confirmed or possible Zika virus infection. Among 6,799 live-born infants in USZPIR born during December 1, 2015-March 31, 2018, 4.6% had any Zika-associated birth defect; in a subgroup of pregnancies with a positive nucleic acid amplification test (NAAT) for Zika virus infection, the percentage was 6.1% of live-born infants. The brain and eye defects most frequently reported included microcephaly, corpus callosum abnormalities, intracranial calcification, abnormal cortical gyral patterns, ventriculomegaly, cerebral or cortical atrophy, chorioretinal abnormalities, and optic nerve abnormalities. Among infants with any Zika-associated birth defect, one third had more than one defect reported. Certain brain and eye defects in an infant might prompt suspicion of prenatal Zika virus infection. These findings can help target surveillance efforts to the most common brain and eye defects associated with Zika virus infection during pregnancy should a Zika virus outbreak reemerge, and might provide a signal to the reemergence of Zika virus, particularly in geographic regions without ongoing comprehensive Zika virus surveillance. |
Ability to serologically confirm recent Zika virus infection in areas with varying past incidence of dengue virus infection in the United States and U.S. territories in 2016
Lindsey NP , Staples JE , Powell K , Rabe IB , Fischer M , Powers AM , Kosoy OI , Mossel EC , Munoz-Jordan JL , Beltran M , Hancock WT , Toews KE , Ellis EM , Ellis BR , Panella AJ , Basile AJ , Calvert AE , Laven J , Goodman CH , Gould CV , Martin SW , Thomas JD , Villanueva J , Mataia ML , Sciulli R , Gose R , Whelen AC , Hills SL . J Clin Microbiol 2017 56 (1) Background. Cross-reactivity within flavivirus antibody assays, produced by shared epitopes in the envelope proteins, can complicate serological diagnosis of Zika virus (ZIKAV) infection. We assessed the utility of the plaque reduction neutralization test (PRNT) to confirm recent ZIKAV infections and rule out misleading positive IgM results in areas with varying past dengue virus (DENV) infection incidence. Methods. We reviewed PRNT results of sera collected for diagnosis of ZIKAV infection from January 1 through August 31, 2016 with positive ZIKAV IgM results and ZIKAV and DENV PRNT performed. PRNT result interpretations included ZIKAV, unspecified flavivirus, DENV infection, or negative. For this analysis, ZIKAV IgM was considered false-positive for samples interpreted as DENV infection or negative. Results. In US states, 208 (27%) of 759 IgM positives were confirmed as ZIKAV, compared to 11 (21%) of 52 in the US Virgin Islands (USVI), 15 (15%) of 103 in American Samoa, and 13 (11%) of 123 in Puerto Rico. In American Samoa and Puerto Rico, more than 80% of IgM positives were unspecified flavivirus infections. The false-positivity rate was 27% in US states, 18% in USVI, 2% in American Samoa, and 6% in Puerto Rico. Conclusions. In US states, PRNT provided a virus-specific diagnosis or ruled out infection in the majority of IgM positive samples. Almost a third of ZIKAV IgM positive results did not confirm; therefore, providers and patients must understand that IgM results are preliminary. In territories with historically higher DENV transmission, PRNT usually could not differentiate between ZIKAV and DENV infections. |
Establishing a timeline to discontinue routine testing of asymptomatic pregnant women for Zika virus infection - American Samoa, 2016-2017
Hancock WT , Soeters HM , Hills SL , Link-Gelles R , Evans ME , Daley WR , Piercefield E , Anesi MS , Mataia MA , Uso AM , Sili B , Tufa AJ , Solaita J , Irvin-Barnwell E , Meaney-Delman D , Wilken J , Weidle P , Toews KE , Walker W , Talboy PM , Gallo WK , Krishna N , Laws RL , Reynolds MR , Koneru A , Gould CV . MMWR Morb Mortal Wkly Rep 2017 66 (11) 299-301 The first patients with laboratory-confirmed cases of Zika virus disease in American Samoa had symptom onset in January 2016. In response, the American Samoa Department of Health (ASDoH) implemented mosquito control measures, strategies to protect pregnant women, syndromic surveillance based on electronic health record (EHR) reports, Zika virus testing of persons with one or more signs or symptoms of Zika virus disease (fever, rash, arthralgia, or conjunctivitis), and routine testing of all asymptomatic pregnant women in accordance with CDC guidance. All collected blood and urine specimens were shipped to the Hawaii Department of Health Laboratory for Zika virus testing and to CDC for confirmatory testing. Early in the response, collection and testing of specimens from pregnant women was prioritized over the collection from symptomatic nonpregnant patients because of limited testing and shipping capacity. The weekly numbers of suspected Zika virus disease cases declined from an average of six per week in January-February 2016 to one per week in May 2016. By August, the EHR-based syndromic surveillance indicated a return to pre-outbreak levels. The last Zika virus disease case detected by real-time, reverse transcription-polymerase chain reaction (rRT-PCR) occurred in a patient who had symptom onset on June 19, 2016. In August 2016, ASDoH requested CDC support in assessing whether local transmission had been reduced or interrupted and in proposing a timeline for discontinuation of routine testing of asymptomatic pregnant women. An end date (October 15, 2016) was determined for active mosquito-borne transmission of Zika virus and a timeline was developed for discontinuation of routine screening of asymptomatic pregnant women in American Samoa (conception after December 10, 2016, with permissive testing for asymptomatic women who conceive through April 15, 2017). |
Lessons from an outbreak of Legionnaires' disease on a hematology-oncology unit
Francois Watkins LK , Toews KE , Harris AM , Davidson S , Ayers-Millsap S , Lucas CE , Hubbard BC , Kozak-Muiznieks NA , Khan E , Kutty PK . Infect Control Hosp Epidemiol 2017 38 (3) 306-313 OBJECTIVES To define the scope of an outbreak of Legionnaires' disease (LD), to identify the source, and to stop transmission. DESIGN AND SETTING Epidemiologic investigation of an LD outbreak among patients and a visitor exposed to a newly constructed hematology-oncology unit. METHODS An LD case was defined as radiographically confirmed pneumonia in a person with positive urinary antigen testing and/or respiratory culture for Legionella and exposure to the hematology-oncology unit after February 20, 2014. Cases were classified as definitely or probably healthcare-associated based on whether they were exposed to the unit for all or part of the incubation period (2-10 days). We conducted an environmental assessment and collected water samples for culture. Clinical and environmental isolates were compared by monoclonal antibody (MAb) and sequence-based typing. RESULTS Over a 12-week period, 10 cases were identified, including 6 definite and 4 probable cases. Environmental sampling revealed Legionella pneumophila serogroup 1 (Lp1) in the potable water at 9 of 10 unit sites (90%), including all patient rooms tested. The 3 clinical isolates were identical to environmental isolates from the unit (MAb2-positive, sequence type ST36). No cases occurred with exposure after the implementation of water restrictions followed by point-of-use filters. CONCLUSIONS Contamination of the unit's potable water system with Lp1 strain ST36 was the likely source of this outbreak. Healthcare providers should routinely test patients who develop pneumonia at least 2 days after hospital admission for LD. A single case of LD that is definitely healthcare associated should prompt a full investigation. Infect Control Hosp Epidemiol 2017;38:306-313. |
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