Last data update: May 13, 2024. (Total: 46773 publications since 2009)
Records 1-7 (of 7 Records) |
Query Trace: Tonzel J[original query] |
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Outcomes up to age 36 months after congenital Zika virus infection-U.S. states
Neelam V , Woodworth KR , Chang DJ , Roth NM , Reynolds MR , Akosa A , Carr CP , Anderson KN , Mulkey SB , DeBiasi RL , Biddle C , Lee EH , Elmore AL , Scotland SJ , Sowunmi S , Longcore ND , Ahmed M , Langlois PH , Khuwaja S , Browne SE , Lind L , Shim K , Gosciminski M , Blumenfeld R , Khuntia S , Halai UA , Locklear A , Chan M , Willabus T , Tonzel J , Marzec NS , Barreto NA , Sanchez C , Fornoff J , Hale S , Nance A , Iguchi L , Adibhatla SN , Potts E , Schiffman E , Raman D , McDonald MF , Stricklin B , Ludwig E , Denson L , Contreras D , Romitti PA , Ferrell E , Marx M , Signs K , Cook A , Leedom VO , Beauregard S , Orantes LC , Cronquist L , Roush L , Godfred-Cato S , Gilboa SM , Meaney-Delman D , Honein MA , Moore CA , Tong VT . Pediatr Res 2023 BACKGROUND: To characterize neurodevelopmental abnormalities in children up to 36 months of age with congenital Zika virus exposure. METHODS: From the U.S. Zika Pregnancy and Infant Registry, a national surveillance system to monitor pregnancies with laboratory evidence of Zika virus infection, pregnancy outcomes and presence of Zika associated birth defects (ZBD) were reported among infants with available information. Neurologic sequelae and developmental delay were reported among children with ≥1 follow-up exam after 14 days of age or with ≥1 visit with development reported, respectively. RESULTS: Among 2248 infants, 10.1% were born preterm, and 10.5% were small-for-gestational age. Overall, 122 (5.4%) had any ZBD; 91.8% of infants had brain abnormalities or microcephaly, 23.0% had eye abnormalities, and 14.8% had both. Of 1881 children ≥1 follow-up exam reported, neurologic sequelae were more common among children with ZBD (44.6%) vs. without ZBD (1.5%). Of children with ≥1 visit with development reported, 46.8% (51/109) of children with ZBD and 7.4% (129/1739) of children without ZBD had confirmed or possible developmental delay. CONCLUSION: Understanding the prevalence of developmental delays and healthcare needs of children with congenital Zika virus exposure can inform health systems and planning to ensure services are available for affected families. IMPACT: We characterize pregnancy and infant outcomes and describe neurodevelopmental abnormalities up to 36 months of age by presence of Zika associated birth defects (ZBD). Neurologic sequelae and developmental delays were common among children with ZBD. Children with ZBD had increased frequency of neurologic sequelae and developmental delay compared to children without ZBD. Longitudinal follow-up of infants with Zika virus exposure in utero is important to characterize neurodevelopmental delay not apparent in early infancy, but logistically challenging in surveillance models. |
COVID-19 Outbreaks Linked to Workplaces, 23 US Jurisdictions, August-October 2021.
Luckhaupt SE , Horter L , Groenewold MR , dePerio MA , Robbins CL , Sweeney MH , Thomas I , Valencia D , Ingram A , Heinzerling A , Nguyen A , Townsend EB , Weber RC , Reichbind D , Dishman H , Kerins JL , Lendacki FR , Austin C , Dixon L , Spillman B , Simonson S , Tonzel J , Krueger A , Duwell M , Bachaus B , Rust B , Barrett C , Morrison B , OwersBonner KA , Karlsson ND , Angelon-Gaetz K , McClure ES , Kline KE , Dangar D , Reed C , Karpowicz J , Anderson SM , Cantor S , Chaudhary I , Ellis EM , Taylor ML , Sedon A , Kocharian A , Morris C , Samson ME , Mangla AT . Public Health Rep 2022 138 (2) 333549221138294 OBJECTIVES: Early in the COVID-19 pandemic, several outbreaks were linked with facilities employing essential workers, such as long-term care facilities and meat and poultry processing facilities. However, timely national data on which workplace settings were experiencing COVID-19 outbreaks were unavailable through routine surveillance systems. We estimated the number of US workplace outbreaks of COVID-19 and identified the types of workplace settings in which they occurred during August-October 2021. METHODS: The Centers for Disease Control and Prevention collected data from health departments on workplace COVID-19 outbreaks from August through October 2021: the number of workplace outbreaks, by workplace setting, and the total number of cases among workers linked to these outbreaks. Health departments also reported the number of workplaces they assisted for outbreak response, COVID-19 testing, vaccine distribution, or consultation on mitigation strategies. RESULTS: Twenty-three health departments reported a total of 12 660 workplace COVID-19 outbreaks. Among the 12 470 workplace types that were documented, 35.9% (n = 4474) of outbreaks occurred in health care settings, 33.4% (n = 4170) in educational settings, and 30.7% (n = 3826) in other work settings, including non-food manufacturing, correctional facilities, social services, retail trade, and food and beverage stores. Eleven health departments that reported 3859 workplace outbreaks provided information about workplace assistance: 3090 (80.1%) instances of assistance involved consultation on COVID-19 mitigation strategies, 1912 (49.5%) involved outbreak response, 436 (11.3%) involved COVID-19 testing, and 185 (4.8%) involved COVID-19 vaccine distribution. CONCLUSIONS: These findings underscore the continued impact of COVID-19 among workers, the potential for work-related transmission, and the need to apply layered prevention strategies recommended by public health officials. |
Identifying possible inaccuracy in reported birth head circumference measurements among infants in the US Zika Pregnancy and Infant Registry
Roth NM , Woodworth KR , Godfred-Cato S , Delaney AM , Olson SM , Nahabedian JF3rd , Reynolds MR , Jones AM , Neelam V , Valencia-Prado M , Delgado-López C , Lee EH , Ellis EM , Lake-Burger H , Tonzel JL , Higgins CA , Chan RL , Tong VT , Gilboa SM , Cragan JD , Honein MA , Moore CA . Birth Defects Res 2022 114 (8) 314-318 BACKGROUND: The US Zika Pregnancy and Infant Registry (USZPIR) monitors infants born to mothers with confirmed or possible Zika virus infection during pregnancy. The surveillance case definition for Zika-associated birth defects includes microcephaly based on head circumference (HC). METHODS: We assessed birth and follow-up data from infants with birth HC measurements <3rd percentile and birthweight ≥10th percentile to determine possible misclassification of microcephaly. We developed a schema informed by literature review and expert opinion to identify possible HC measurement inaccuracy using HC growth velocity and longitudinal HC measurements between 2 and 12 months of age. Two or more HC measurements were required for assessment. Inaccuracy in birth HC measurement was suspected if growth velocity was >3 cm/month in the first 3 months or HC was consistently >25th percentile during follow-up. RESULTS: Of 6,799 liveborn infants in USZPIR, 351 (5.2%) had Zika-associated birth defects, of which 111 had birth HC measurements <3rd percentile and birthweight ≥10th percentile. Of 84/111 infants with sufficient follow-up, 38/84 (45%) were classified as having possible inaccuracy of birth HC measurement, 19/84 (23%) had HC ≥3rd percentile on follow-up without meeting criteria for possible inaccuracy, and 27/84 (32%) had continued HC <3rd percentile. After excluding possible inaccuracies, the proportion of infants with Zika-associated birth defects including microcephaly decreased from 5.2% to 4.6%. CONCLUSIONS: About one-third of infants in USZPIR with Zika-associated birth defects had only microcephaly, but indications of possible measurement inaccuracy were common. Implementation of this schema in longitudinal studies can reduce misclassification of microcephaly. |
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. |
Coronavirus Disease among Workers in Food Processing, Food Manufacturing, and Agriculture Workplaces.
Waltenburg MA , Rose CE , Victoroff T , Butterfield M , Dillaha JA , Heinzerling A , Chuey M , Fierro M , Jervis RH , Fedak KM , Leapley A , Gabel JA , Feldpausch A , Dunne EM , Austin C , Pedati CS , Ahmed FS , Tubach S , Rhea C , Tonzel J , Krueger A , Crum DA , Vostok J , Moore MJ , Kempher H , Scheftel J , Turabelidze G , Stover D , Donahue M , Thomas D , Edge K , Gutierrez B , Berl E , McLafferty M , Kline KE , Martz N , Rajotte JC , Julian E , Diedhiou A , Radcliffe R , Clayton JL , Ortbahn D , Cummins J , Barbeau B , Carpenter S , Pringle JC , Murphy J , Darby B , Graff NR , Dostal TKH , Pray IW , Tillman C , Rose DA , Honein MA . Emerg Infect Dis 2020 27 (1) 243-9 We describe coronavirus disease (COVID-19) among US food manufacturing and agriculture workers and provide updated information on meat and poultry processing workers. Among 742 food and agriculture workplaces in 30 states, 8,978 workers had confirmed COVID-19; 55 workers died. Racial and ethnic minority workers could be disproportionately affected by COVID-19. |
Notes from the Field: Respiratory syncytial virus infections in a neonatal intensive care unit - Louisiana, December 2017
Washington EJ , Rose EB , Langley GE , Hand JP , Benowitz I , Gerber SI , Salinas AL , Terry AL , Tonzel JL , Sokol TM , Smith AT , Richardson GJ . MMWR Morb Mortal Wkly Rep 2019 68 (1) 20-21 In December 2017, the Louisiana Department of Health was notified of seven cases of respiratory syncytial virus (RSV) infection in a five-unit (units A–E), 84-bed neonatal intensive care unit (NICU) that included 66 individual infant rooms. The first case occurred in an infant who had been discharged postpartum from the NICU 30 days earlier and was readmitted for respiratory distress (day 0), approximately 2 weeks after the peak in reported RSV cases in Louisiana (mid-November) (1). The other six infants had at least one respiratory symptom while in the NICU postpartum. Upon identification of the first case, the facility implemented contact precautions for symptomatic infants, and NICU staff members were asked to report any respiratory symptoms. Nasopharyngeal specimens were obtained from infants who had rhinorrhea, cough, or nasal congestion. Nasopharyngeal swabs were also obtained from asymptomatic infants in two of the three units where the seven identified patients resided. A case was defined as laboratory-confirmed RSV infection in an NICU patient during December 2017. After consultation with CDC, a team of Louisiana Department of Health epidemiologists visited the facility 3 days after notification to review medical charts, observe infection control procedures, interview NICU staff members, and determine measures to prevent further transmission. |
Possible Zika virus infection among pregnant women - United States and Territories, May 2016
Simeone RM , Shapiro-Mendoza CK , Meaney-Delman D , Petersen EE , Galang RR , Oduyebo T , Rivera-Garcia B , Valencia-Prado M , Newsome KB , Perez-Padilla J , Williams TR , Biggerstaff M , Jamieson DJ , Honein MA , Ahmed F , Anesi S , Arnold KE , Barradas D , Barter D , Bertolli J , Bingham AM , Bollock J , Bosse T , Bradley KK , Brady D , Brown CM , Bryan K , Buchanan V , Bullard PD , Carrigan A , Clouse M , Cook S , Cooper M , Davidson S , DeBarr A , Dobbs T , Dunams T , Eason J , Eckert A , Eggers P , Ellington SR , Feldpausch A , Fredette CR , Gabel J , Glover M , Gosciminski M , Gay M , Haddock R , Hand S , Hardy J , Hartel ME , Hennenfent AK , Hills SL , House J , Igbinosa I , Im L , Jeff H , Khan S , Kightlinger L , Ko JY , Koirala S , Korhonen L , Krishnasamy V , Kurkjian K , Lampe M , Larson S , Lee EH , Lind L , Lindquist S , Long J , Macdonald J , MacFarquhar J , Mackie DP , Mark-Carew M , Martin B , Martinez-Quinones A , Matthews-Greer J , McGee SA , McLaughlin J , Mock V , Muna E , Oltean H , O'Mallan J , Pagano HP , Park SY , Peterson D , Polen KN , Porse CC , Rao CY , Ropri A , Rinsky J , Robinson S , Rosinger AY , Ruberto I , Schiffman E , Scott-Waldron C , Semple S , Sharp T , Short K , Signs K , Slavinski SA , Stevens T , Sweatlock J , Talbot EA , Tonzel J , Traxler R , Tubach S , Van Houten C , VinHatton E , Viray M , Virginie D , Warren MD , Waters C , White P , Williams T , Winters AI , Wood S , Zaganjor I . MMWR Morb Mortal Wkly Rep 2016 65 (20) 514-9 Zika virus is a cause of microcephaly and brain abnormalities (1), and it is the first known mosquito-borne infection to cause congenital anomalies in humans. The establishment of a comprehensive surveillance system to monitor pregnant women with Zika virus infection will provide data to further elucidate the full range of potential outcomes for fetuses and infants of mothers with asymptomatic and symptomatic Zika virus infection during pregnancy. In February 2016, Zika virus disease and congenital Zika virus infections became nationally notifiable conditions in the United States (2). Cases in pregnant women with laboratory evidence of Zika virus infection who have either 1) symptomatic infection or 2) asymptomatic infection with diagnosed complications of pregnancy can be reported as cases of Zika virus disease to ArboNET* (2), CDC's national arboviral diseases surveillance system. Under existing interim guidelines from the Council for State and Territorial Epidemiologists (CSTE), asymptomatic Zika virus infections in pregnant women who do not have known pregnancy complications are not reportable. ArboNET does not currently include pregnancy surveillance information (e.g., gestational age or pregnancy exposures) or pregnancy outcomes. To understand the full impact of infection on the fetus and neonate, other systems are needed for reporting and active monitoring of pregnant women with laboratory evidence of possible Zika virus infection during pregnancy. Thus, in collaboration with state, local, tribal, and territorial health departments, CDC established two surveillance systems to monitor pregnancies and congenital outcomes among women with laboratory evidence of Zika virus infection(dagger) in the United States and territories: 1) the U.S. Zika Pregnancy Registry (USZPR),( section sign) which monitors pregnant women residing in U.S. states and all U.S. territories except Puerto Rico, and 2) the Zika Active Pregnancy Surveillance System (ZAPSS), which monitors pregnant women residing in Puerto Rico. As of May 12, 2016, the surveillance systems were monitoring 157 and 122 pregnant women with laboratory evidence of possible Zika virus infection from participating U.S. states and territories, respectively. Tracking and monitoring clinical presentation of Zika virus infection, all prenatal testing, and adverse consequences of Zika virus infection during pregnancy are critical to better characterize the risk for congenital infection, the performance of prenatal diagnostic testing, and the spectrum of adverse congenital outcomes. These data will improve clinical guidance, inform counseling messages for pregnant women, and facilitate planning for clinical and public health services for affected families. |
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