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1. Sentinel Enhanced Dengue Surveillance System — Puerto Rico, 2012–2022

Author

Madewell, Zachary J., primary, Hernandez-Romieu, Alfonso C., additional, Wong, Joshua M., additional, Zambrano, Laura D., additional, Volkman, Hannah R., additional, Perez-Padilla, Janice, additional, Rodriguez, Dania M., additional, Lorenzi, Olga, additional, Espinet, Carla, additional, Munoz-Jordan, Jorge, additional, Frasqueri-Quintana, Verónica M., additional, Rivera-Amill, Vanessa, additional, Alvarado-Domenech, Luisa I., additional, Sainz, Diego, additional, Bertran, Jorge, additional, Paz-Bailey, Gabriela, additional, and Adams, Laura E., additional

Published
2024
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2. Diagnostic Accuracy of the Abbott BinaxNOW COVID‐19 Antigen Card Test, Puerto Rico.

Author

Madewell, Zachary J., Major, Chelsea G., Graff, Nathan, Adams, Cameron, Rodriguez, Dania M., Morales, Tatiana, Medina Lopes, Nicole A., Tosado, Rafael, Sánchez‐González, Liliana, Perez‐Padilla, Janice, Volkman, Hannah R., Bertrán‐Pasarell, Jorge, Sainz de la Peña, Diego, Munoz‐Jordan, Jorge, Santiago, Gilberto A., Lorenzi, Olga, Rivera‐Amill, Vanessa, Rolfes, Melissa A., Paz‐Bailey, Gabriela, and Adams, Laura E.

Subjects
ANTIGEN analysis, NUCLEIC acid amplification techniques, COVID-19, SARS-CoV-2, COVID-19 testing
Abstract

Background: The COVID‐19 pandemic underscored the need for rapid and accurate diagnostic tools. In August 2020, the Abbott BinaxNOW COVID‐19 Antigen Card test became available as a timely and affordable alternative for SARS‐CoV‐2 molecular testing, but its performance may vary due to factors including timing and symptomatology. This study evaluates BinaxNOW diagnostic performance in diverse epidemiological contexts. Methods: Using RT‐PCR as reference, we assessed performance of the BinaxNOW COVID‐19 test for SARS‐CoV‐2 detection in anterior nasal swabs from participants of two studies in Puerto Rico from December 2020 to May 2023. Test performance was assessed by days post symptom onset, collection strategy, vaccination status, symptomatology, repeated testing, and RT‐PCR cycle threshold (Ct) values. Results: BinaxNOW demonstrated an overall sensitivity of 84.1% and specificity of 98.8%. Sensitivity peaked within 1–6 days after symptom onset (93.2%) and was higher for symptomatic (86.3%) than asymptomatic (67.3%) participants. Sensitivity declined over the course of infection, dropping from 96.3% in the initial test to 48.4% in testing performed 7–14 days later. BinaxNOW showed 99.5% sensitivity in participants with low Ct values (≤ 25) but lower sensitivity (18.2%) for participants with higher Cts (36–40). Conclusions: BinaxNOW demonstrated high sensitivity and specificity, particularly in early‐stage infections and symptomatic participants. In situations where test sensitivity is crucial for clinical decision‐making, nucleic acid amplification tests are preferred. These findings highlight the importance of considering clinical and epidemiological context when interpreting test results and emphasize the need for ongoing research to adapt testing strategies to emerging SARS‐CoV‐2 variants. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Quantifying the relationship between arboviral infection prevalence and human mobility patterns among participants of the Communities Organized to Prevent Arboviruses cohort (COPA) in southern Puerto Rico.

Author

Phillips, Maile T., Sánchez-González, Liliana, Shragai, Talya, Rodriguez, Dania M., Major, Chelsea G., Johansson, Michael A., Rivera-Amill, Vanessa, Paz-Bailey, Gabriela, and Adams, Laura E.

Subjects
ARBOVIRUS diseases, ARBOVIRUSES, AIR conditioning, HUMAN mechanics, MEDICAL screening
Abstract

Human movement is increasingly being recognized as a major driver of arbovirus risk and dissemination. The Communities Organized to Prevent Arboviruses (COPA) study is a cohort in southern Puerto Rico to measure arboviral prevalence, evaluate interventions, and collect mobility data. To quantify the relationship between arboviral prevalence and human mobility patterns, we fit multilevel logistic regression models to estimate odds ratios for mobility-related predictors of positive chikungunya IgG or Zika IgM test results collected from COPA, assuming mobility data does not change substantially from year to year. From May 8, 2018–June 8, 2019, 39% of the 1,845 active participants during the study period had a positive arboviral seroprevalence result. Most (74%) participants reported spending five or more weekly hours outside of their home. A 1% increase in weekly hours spent outside the home was associated with a 4% (95% confidence interval (CI): 2–7%) decrease in the odds of testing positive for arbovirus. After adjusting for age and whether a person had air conditioning (AC) at home, any time spent in a work location was protective against arbovirus infection (32% decrease, CI: 9–49%). In fact, there was a general decreased prevalence for individuals who visited locations that were inside and had AC or screens, regardless of the type of location (32% decrease, CI: 12–47%). In this population, the protective characteristics of locations visited appear to be the most important driver of the relationship between mobility and arboviral prevalence. This relationship indicates that not all mobility is the same, with elements like screens and AC providing protection in some locations. These findings highlight the general importance of AC and screens, which are known to be protective against mosquitoes and mosquito-transmitted diseases. Author summary: We characterized the relationship between arboviral infection prevalence and human mobility patterns among 1,845 participants in the Communities Organized to Prevent Arboviruses (COPA) study in Ponce, Puerto Rico. Among participants, 39% had a positive arboviral seroprevalence result. The majority (74%) reported spending 5 or more weekly hours outside of their home of residence. In general, more time spent outside the home was associated with decreased arboviral infection prevalence in this population. Arboviral prevalence was associated with the types of locations participants visited regularly, and characteristics of those locations. Work and locations with air conditioning (AC) or screens were protective for arboviral prevalence. Different from other studies, in this population, the characteristics of locations visited appear to be the most important drivers of the relationship between mobility and arboviral prevalence. This relationship indicates that not all mobility is the same, with elements like screens and AC providing protection in some locations. Previous studies have shown that household AC and screens are important factors in determining arboviral risk; however, results from this study further highlight their importance in non-residential locations where people visit. These findings support the use of screens and AC in all locations in areas at risk for arbovirus transmission. [ABSTRACT FROM AUTHOR]

Published
2023
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6. Epidemiologic Trends of Dengue in U.S. Territories, 2010–2020

Author

Ryff, Kyle R., primary, Rivera, Aidsa, additional, Rodriguez, Dania M., additional, Santiago, Gilberto A., additional, Medina, Freddy A., additional, Ellis, Esther M., additional, Torres, Jomil, additional, Pobutsky, Ann, additional, Munoz-Jordan, Jorge, additional, Paz-Bailey, Gabriela, additional, and Adams, Laura E., additional

Published
2023
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8. Travel-Associated Dengue Cases -- United States, 2010-2021.

Author

Wong, Joshua M., Rivera, Aidsa, Volkman, Hannah R., Torres-Velasquez, Brenda, Rodriguez, Dania M., Paz-Bailey, Gabriela, and Adams, Laura E.

Subjects
DENGUE, ARBOVIRUS diseases, DENGUE viruses, VIRAL transmission, MOSQUITOES, INFECTION, VIRAL vaccines
Abstract

Dengue, the leading cause of arboviral disease worldwide, can be fatal without appropriate treatment. Among 7,528 confirmed or probable travel-associated U.S. dengue cases reported during 2010-2021, one in five (1,474, 20%) was reported in 2019. This is 168% higher than the annual average number of cases reported during 2010-2018 and 2020-2021 (approximately 550 per year) and 61% higher than the 913 cases reported in 2016, the second highest year on record. The number of cases as a fraction of air traffic volume to international destinations outside North America or Europe was also highest in 2019, with 41.9 cases per million trips, compared with 21.0 per million in other years during 2010-2021. This report compares the number and characteristics of travelassociated dengue cases reported to national surveillance in the United States in 2019 with cases reported during 2010-2018 and 2020-2021. Areas with conditions suitable for dengue transmission as well as the population at risk for dengue are expected to increase, placing U.S. travelers at higher risk for infection. Health care providers should be aware that dengue is a common cause of fever in the returning traveler and be familiar with its signs and symptoms, testing, and management. Dengue vaccines are not currently recommended for U.S. travelers; therefore, persons should review areas of dengue risk and follow guidance for preventing mosquito bites. [ABSTRACT FROM AUTHOR]

Published
2023
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9. COVID-19 Vaccination Intention in a Community Cohort in Ponce, Puerto Rico

Author

Sánchez-González, Liliana, primary, Major, Chelsea G., additional, Rodriguez, Dania M., additional, Balajee, Abirami, additional, Ryff, Kyle R., additional, Lorenzi, Olga, additional, Linares, Mariely, additional, Adams, Laura E., additional, Rivera-Amill, Vanessa, additional, Rolfes, Melissa, additional, and Paz-Bailey, Gabriela, additional

Published
2022
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10. Risk factors for infection with chikungunya and Zika viruses in southern Puerto Rico: A community-based cross-sectional seroprevalence survey

Author

Adams, Laura E., primary, Sánchez-González, Liliana, additional, Rodriguez, Dania M., additional, Ryff, Kyle, additional, Major, Chelsea, additional, Lorenzi, Olga, additional, Delorey, Mark, additional, Medina, Freddy A., additional, Muñoz-Jordán, Jorge L., additional, Brown, Grayson, additional, Ortiz, Marianyoly, additional, Waterman, Stephen H., additional, Rivera-Amill, Vanessa, additional, and Paz-Bailey, Gabriela, additional

Published
2022
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12. Estimating incidence of infection from diverse data sources: Zika virus in Puerto Rico, 2016

Author

Quandelacy, Talia M., primary, Healy, Jessica M., additional, Greening, Bradford, additional, Rodriguez, Dania M., additional, Chung, Koo-Whang, additional, Kuehnert, Matthew J., additional, Biggerstaff, Brad J., additional, Dirlikov, Emilio, additional, Mier-y-Teran-Romero, Luis, additional, Sharp, Tyler M., additional, Waterman, Stephen, additional, and Johansson, Michael A., additional

Published
2021
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13. Estimating incidence of infection from diverse data sources: Zika virus in Puerto Rico, 2016

Author

Quandelacy, Talia M., primary, Healy, Jessica M., additional, Greening, Bradford, additional, Rodriguez, Dania M., additional, Chung, Koo-Whang, additional, Kuehnert, Matthew J., additional, Biggerstaff, Brad J., additional, Dirlikov, Emilio, additional, Mier-y-Teran-Romero, Luis, additional, Sharp, Tyler M., additional, Waterman, Stephen, additional, and Johansson, Michael A., additional

Published
2020
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19. Sentinel Enhanced Dengue Surveillance System - Puerto Rico, 2012-2022.

Author

Madewell ZJ, Hernandez-Romieu AC, Wong JM, Zambrano LD, Volkman HR, Perez-Padilla J, Rodriguez DM, Lorenzi O, Espinet C, Munoz-Jordan J, Frasqueri-Quintana VM, Rivera-Amill V, Alvarado-Domenech LI, Sainz D, Bertran J, Paz-Bailey G, and Adams LE

Subjects
Puerto Rico epidemiology, Humans, Adult, Female, Adolescent, Middle Aged, Child, Male, Child, Preschool, Young Adult, Aged, Infant, Dengue epidemiology, Dengue diagnosis, Sentinel Surveillance
Abstract

Problem/condition: Dengue is the most prevalent mosquitoborne viral illness worldwide and is endemic in Puerto Rico. Dengue's clinical spectrum can range from mild, undifferentiated febrile illness to hemorrhagic manifestations, shock, multiorgan failure, and death in severe cases. The disease presentation is nonspecific; therefore, various other illnesses (e.g., arboviral and respiratory pathogens) can cause similar clinical symptoms. Enhanced surveillance is necessary to determine disease prevalence, to characterize the epidemiology of severe disease, and to evaluate diagnostic and treatment practices to improve patient outcomes. The Sentinel Enhanced Dengue Surveillance System (SEDSS) was established to monitor trends of dengue and dengue-like acute febrile illnesses (AFIs), characterize the clinical course of disease, and serve as an early warning system for viral infections with epidemic potential., Reporting Period: May 2012-December 2022., Description of System: SEDSS conducts enhanced surveillance for dengue and other relevant AFIs in Puerto Rico. This report includes aggregated data collected from May 2012 through December 2022. SEDSS was launched in May 2012 with patients with AFIs from five health care facilities enrolled. The facilities included two emergency departments in tertiary acute care hospitals in the San Juan-Caguas-Guaynabo metropolitan area and Ponce, two secondary acute care hospitals in Carolina and Guayama, and one outpatient acute care clinic in Ponce. Patients arriving at any SEDSS site were eligible for enrollment if they reported having fever within the past 7 days. During the Zika epidemic (June 2016-June 2018), patients were eligible for enrollment if they had either rash and conjunctivitis, rash and arthralgia, or fever. Eligibility was expanded in April 2020 to include reported cough or shortness of breath within the past 14 days. Blood, urine, nasopharyngeal, and oropharyngeal specimens were collected at enrollment from all participants who consented. Diagnostic testing for dengue virus (DENV) serotypes 1-4, chikungunya virus, Zika virus, influenza A and B viruses, SARS-CoV-2, and five other respiratory viruses was performed by the CDC laboratory in San Juan., Results: During May 2012-December 2022, a total of 43,608 participants with diagnosed AFI were enrolled in SEDSS; a majority of participants (45.0%) were from Ponce. During the surveillance period, there were 1,432 confirmed or probable cases of dengue, 2,293 confirmed or probable cases of chikungunya, and 1,918 confirmed or probable cases of Zika. The epidemic curves of the three arboviruses indicate dengue is endemic; outbreaks of chikungunya and Zika were sporadic, with case counts peaking in late 2014 and 2016, respectively. The majority of commonly identified respiratory pathogens were influenza A virus (3,756), SARS-CoV-2 (1,586), human adenovirus (1,550), respiratory syncytial virus (1,489), influenza B virus (1,430), and human parainfluenza virus type 1 or 3 (1,401). A total of 5,502 participants had confirmed or probable arbovirus infection, 11,922 had confirmed respiratory virus infection, and 26,503 had AFI without any of the arboviruses or respiratory viruses examined., Interpretation: Dengue is endemic in Puerto Rico; however, incidence rates varied widely during the reporting period, with the last notable outbreak occurring during 2012-2013. DENV-1 was the predominant virus during the surveillance period; sporadic cases of DENV-4 also were reported. Puerto Rico experienced large outbreaks of chikungunya that peaked in 2014 and of Zika that peaked in 2016; few cases of both viruses have been reported since. Influenza A and respiratory syncytial virus seasonality patterns are distinct, with respiratory syncytial virus incidence typically reaching its annual peak a few weeks before influenza A. The emergence of SARS-CoV-2 led to a reduction in the circulation of other acute respiratory viruses., Public Health Action: SEDSS is the only site-based enhanced surveillance system designed to gather information on AFI cases in Puerto Rico. This report illustrates that SEDSS can be adapted to detect dengue, Zika, chikungunya, COVID-19, and influenza outbreaks, along with other seasonal acute respiratory viruses, underscoring the importance of recognizing signs and symptoms of relevant diseases and understanding transmission dynamics among these viruses. This report also describes fluctuations in disease incidence, highlighting the value of active surveillance, testing for a panel of acute respiratory viruses, and the importance of flexible and responsive surveillance systems in addressing evolving public health challenges. Various vector control strategies and vaccines are being considered or implemented in Puerto Rico, and data from ongoing trials and SEDSS might be integrated to better understand epidemiologic factors underlying transmission and risk mitigation approaches. Data from SEDSS might guide sampling strategies and implementation of future trials to prevent arbovirus transmission, particularly during the expansion of SEDSS throughout the island to improve geographic representation., Competing Interests: All authors have completed and submitted the International Committee of Medical Journal Editors form for disclosure of potential conflicts of interest. No potential conflicts of interest were disclosed.

Published
2024
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20. Epidemiologic Trends of Dengue in U.S. Territories, 2010-2020.

Author

Ryff KR, Rivera A, Rodriguez DM, Santiago GA, Medina FA, Ellis EM, Torres J, Pobutsky A, Munoz-Jordan J, Paz-Bailey G, and Adams LE

Subjects
Child, Adolescent, Animals, United States epidemiology, Humans, Population Surveillance, Mosquito Vectors, Severe Dengue, Dengue Vaccines, Aedes
Abstract

Problem/condition: Dengue is one of the most common vectorborne flaviviral infections globally, with frequent outbreaks in tropical regions. In 2019 and 2020, the Pan American Health Organization reported approximately 5.5 million dengue cases from the Americas, the highest number on record. In the United States, local dengue virus (DENV) transmission has been reported from all U.S. territories, which are characterized by tropical climates that are highly suitable for Aedes species of mosquitoes, the vector that transmits dengue. Dengue is endemic in the U.S. territories of American Samoa, Puerto Rico, and the U.S. Virgin Islands (USVI). Dengue risk in Guam and the Commonwealth of the Northern Mariana Islands is considered sporadic or uncertain. Despite all U.S. territories reporting local dengue transmission, epidemiologic trends over time have not been well described., Reporting Period: 2010-2020., Description of System: State and territorial health departments report dengue cases to CDC through ArboNET, the national arboviral surveillance system, which was developed in 2000 to monitor West Nile virus infections. Dengue became nationally notifiable in ArboNET in 2010. Dengue cases reported to ArboNET are categorized using the 2015 Council of State and Territorial Epidemiologists case definition. In addition, DENV serotyping is performed at CDC's Dengue Branch Laboratory in a subset of specimens to support identification of circulating DENV serotypes., Results: During 2010-2020, a total of 30,903 dengue cases were reported from four U.S. territories to ArboNET. Puerto Rico reported the highest number of dengue cases (29,862 [96.6%]), followed by American Samoa (660 [2.1%]), USVI (353 [1.1%]), and Guam (28 [0.1%]). However, annual incidence rates were highest in American Samoa with 10.2 cases per 1,000 population in 2017, followed by Puerto Rico with 2.9 in 2010 and USVI with 1.6 in 2013. Approximately one half (50.6%) of cases occurred among persons aged <20 years. The proportion of persons with dengue who were hospitalized was high in three of the four territories: 45.5% in American Samoa, 32.6% in Puerto Rico, and 32.1% in Guam. In Puerto Rico and USVI, approximately 2% of reported cases were categorized as severe dengue. Of all dengue-associated deaths, 68 (0.2%) were reported from Puerto Rico; no deaths were reported from the other territories. During 2010-2020, DENV-1 and DENV-4 were the predominant serotypes in Puerto Rico and USVI., Interpretation: U.S. territories experienced a high prevalence of dengue during 2010-2020, with approximately 30,000 cases reported, and a high incidence during outbreak years. Children and adolescents aged <20 years were disproportionately affected, highlighting the need for interventions tailored for this population. Ongoing education about dengue clinical management for health care providers in U.S. territories is important because of the high hospitalization rates reported. Dengue case surveillance and serotyping can be used to guide future control and prevention measures in these areas., Public Health Action: The Advisory Committee on Immunization Practices recommends vaccination with Dengvaxia for children aged 9-16 years with evidence of previous dengue infection and living in areas where dengue is endemic. The recommendation for the dengue vaccine offers public health professionals and health care providers a new intervention for preventing illness and hospitalization in the age group with the highest burden of disease in the four territories (Paz Bailey G, Adams L, Wong JM, et al. Dengue Vaccine: Recommendations of the Advisory Committee on Immunization Practices, United States, 2021. MMWR Recomm Rep 2021;70[No. RR-6]). American Samoa, Puerto Rico, and USVI are all considered endemic areas and persons residing in these areas are eligible for the new dengue vaccine. Persons aged 9-16 years in those jurisdictions with laboratory evidence of previous dengue infection can receive the dengue vaccine and benefit from a reduced risk for symptomatic disease, hospitalization, or severe dengue. Health care providers in these areas should be familiar with the eligibility criteria and recommendations for vaccination to reduce the burden of dengue among the group at highest risk for symptomatic illness. Educating health care providers about identification and management of dengue cases can improve patient outcomes and improve surveillance and reporting of dengue cases., Competing Interests: All authors have completed and submitted the International Committee of Medical Journal Editors form for disclosure of potential conflicts of interest. No potential conflicts of interest were disclosed.

Published
2023
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