Last data update: Jan 27, 2025. (Total: 48650 publications since 2009)
Records 1-2 (of 2 Records) |
Query Trace: Seagroves A[original query] |
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"Making the right decisions: Adapting to emerging needs": The 7th Annual Meeting of the Southeastern Association of Shared Resources, Atlanta, GA, USA, June 12-14, 2019
Dahlman KB , Bagarozzi D , Bagchi P , Blum D , Boukli NM , Colton-Lee F , Constable S , Seagroves TN , Somasundaram T . J Biomol Tech 2020 31 (4) 165-167 One hundred and nine shared resource directors, managers, administrators, and staff from 26 academic, government, or nonprofit institutions and 24 corporate partners descended upon Atlanta, Georgia, to attend the seventh Annual Meeting of the Southeastern Association of Shared Resources (SEASR) at the Emory Conference Center Hotel from June 12 to 14, 2019. Due to the overwhelming interest and response from SEASR sponsors, meeting registration was complimentary for all noncorporate attendees. This one-and-a-half-day meeting presented a combination of scientific, administrative, and networking sessions that are summarized herein. |
Population-based microcephaly surveillance in the United States, 2009 to 2013: An analysis of potential sources of variation
Cragan JD , Isenburg JL , Parker SE , Alverson CJ , Meyer RE , Stallings EB , Kirby RS , Lupo PJ , Liu JS , Seagroves A , Ethen MK , Cho SJ , Evans M , Liberman RF , Fornoff J , Browne ML , Rutkowski RE , Nance AE , Anderka M , Fox DJ , Steele A , Copeland G , Romitti PA , Mai CT . Birth Defects Res A Clin Mol Teratol 2016 106 (11) 972-982 BACKGROUND: Congenital microcephaly has been linked to maternal Zika virus infection. However, ascertaining infants diagnosed with microcephaly can be challenging. METHODS: Thirty birth defects surveillance programs provided data on infants diagnosed with microcephaly born 2009 to 2013. The pooled prevalence of microcephaly per 10,000 live births was estimated overall and by maternal/infant characteristics. Variation in prevalence was examined across case finding methods. Nine programs provided data on head circumference and conditions potentially contributing to microcephaly. RESULTS: The pooled prevalence of microcephaly was 8.7 per 10,000 live births. Median prevalence (per 10,000 live births) was similar among programs using active (6.7) and passive (6.6) methods; the interdecile range of prevalence estimates was wider among programs using passive methods for all race/ethnicity categories except Hispanic. Prevalence (per 10,000 live births) was lowest among non-Hispanic Whites (6.5) and highest among non-Hispanic Blacks and Hispanics (11.2 and 11.9, respectively); estimates followed a U-shaped distribution by maternal age with the highest prevalence among mothers <20 years (11.5) and ≥40 years (13.2). For gestational age and birth weight, the highest prevalence was among infants <32 weeks gestation and infants <1500 gm. Case definitions varied; 41.8% of cases had an HC ≥ the 10th percentile for sex and gestational age. CONCLUSION: Differences in methods, population distribution of maternal/infant characteristics, and case definitions for microcephaly can contribute to the wide range of observed prevalence estimates across individual birth defects surveillance programs. Addressing these factors in the setting of Zika virus infection can improve the quality of prevalence estimates. |
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