569 results on '"Perkins, T. Alex"'
Search Results
2. Multiple models for outbreak decision support in the face of uncertainty.
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Shea, Katriona, Borchering, Rebecca K, Probert, William JM, Howerton, Emily, Bogich, Tiffany L, Li, Shou-Li, van Panhuis, Willem G, Viboud, Cecile, Aguás, Ricardo, Belov, Artur A, Bhargava, Sanjana H, Cavany, Sean M, Chang, Joshua C, Chen, Cynthia, Chen, Jinghui, Chen, Shi, Chen, YangQuan, Childs, Lauren M, Chow, Carson C, Crooker, Isabel, Del Valle, Sara Y, España, Guido, Fairchild, Geoffrey, Gerkin, Richard C, Germann, Timothy C, Gu, Quanquan, Guan, Xiangyang, Guo, Lihong, Hart, Gregory R, Hladish, Thomas J, Hupert, Nathaniel, Janies, Daniel, Kerr, Cliff C, Klein, Daniel J, Klein, Eili Y, Lin, Gary, Manore, Carrie, Meyers, Lauren Ancel, Mittler, John E, Mu, Kunpeng, Núñez, Rafael C, Oidtman, Rachel J, Pasco, Remy, Pastore Y Piontti, Ana, Paul, Rajib, Pearson, Carl AB, Perdomo, Dianela R, Perkins, T Alex, Pierce, Kelly, Pillai, Alexander N, Rael, Rosalyn Cherie, Rosenfeld, Katherine, Ross, Chrysm Watson, Spencer, Julie A, Stoltzfus, Arlin B, Toh, Kok Ben, Vattikuti, Shashaank, Vespignani, Alessandro, Wang, Lingxiao, White, Lisa J, Xu, Pan, Yang, Yupeng, Yogurtcu, Osman N, Zhang, Weitong, Zhao, Yanting, Zou, Difan, Ferrari, Matthew J, Pannell, David, Tildesley, Michael J, Seifarth, Jack, Johnson, Elyse, Biggerstaff, Matthew, Johansson, Michael A, Slayton, Rachel B, Levander, John D, Stazer, Jeff, Kerr, Jessica, and Runge, Michael C
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Humans ,Uncertainty ,Public Health ,Disease Outbreaks ,Pandemics ,COVID-19 ,cognitive biases ,decision theory ,multi-model aggregation ,Prevention ,Brain Disorders ,Good Health and Well Being - Abstract
Policymakers must make management decisions despite incomplete knowledge and conflicting model projections. Little guidance exists for the rapid, representative, and unbiased collection of policy-relevant scientific input from independent modeling teams. Integrating approaches from decision analysis, expert judgment, and model aggregation, we convened multiple modeling teams to evaluate COVID-19 reopening strategies for a mid-sized United States county early in the pandemic. Projections from seventeen distinct models were inconsistent in magnitude but highly consistent in ranking interventions. The 6-mo-ahead aggregate projections were well in line with observed outbreaks in mid-sized US counties. The aggregate results showed that up to half the population could be infected with full workplace reopening, while workplace restrictions reduced median cumulative infections by 82%. Rankings of interventions were consistent across public health objectives, but there was a strong trade-off between public health outcomes and duration of workplace closures, and no win-win intermediate reopening strategies were identified. Between-model variation was high; the aggregate results thus provide valuable risk quantification for decision making. This approach can be applied to the evaluation of management interventions in any setting where models are used to inform decision making. This case study demonstrated the utility of our approach and was one of several multimodel efforts that laid the groundwork for the COVID-19 Scenario Modeling Hub, which has provided multiple rounds of real-time scenario projections for situational awareness and decision making to the Centers for Disease Control and Prevention since December 2020.
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- 2023
3. Inapparent infections shape the transmission heterogeneity of dengue
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Vazquez-Prokopec, Gonzalo M, Morrison, Amy C, Paz-Soldan, Valerie, Stoddard, Steven T, Koval, William, Waller, Lance A, Perkins, T Alex, Lloyd, Alun L, Astete, Helvio, Elder, John, Scott, Thomas W, and Kitron, Uriel
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Medical Microbiology ,Biomedical and Clinical Sciences ,Infectious Diseases ,Vector-Borne Diseases ,Emerging Infectious Diseases ,Rare Diseases ,Biodefense ,2.2 Factors relating to the physical environment ,Aetiology ,Infection ,Good Health and Well Being ,arbovirus ,transmission heterogeneity ,mobility ,super-spreading - Abstract
Transmission heterogeneity, whereby a disproportionate fraction of pathogen transmission events result from a small number of individuals or geographic locations, is an inherent property of many, if not most, infectious disease systems. For vector-borne diseases, transmission heterogeneity is inferred from the distribution of the number of vectors per host, which could lead to significant bias in situations where vector abundance and transmission risk at the household do not correlate, as is the case with dengue virus (DENV). We used data from a contact tracing study to quantify the distribution of DENV acute infections within human activity spaces (AS), the collection of residential locations an individual routinely visits, and quantified measures of virus transmission heterogeneity from two consecutive dengue outbreaks (DENV-4 and DENV-2) that occurred in the city of Iquitos, Peru. Negative-binomial distributions and Pareto fractions showed evidence of strong overdispersion in the number of DENV infections by AS and identified super-spreading units (SSUs): i.e. AS where most infections occurred. Approximately 8% of AS were identified as SSUs, contributing to more than 50% of DENV infections. SSU occurrence was associated more with DENV-2 infection than with DENV-4, a predominance of inapparent infections (74% of all infections), households with high Aedes aegypti mosquito abundance, and high host susceptibility to the circulating DENV serotype. Marked heterogeneity in dengue case distribution, and the role of inapparent infections in defining it, highlight major challenges faced by reactive interventions if those transmission units contributing the most to transmission are not identified, prioritized, and effectively treated.
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- 2023
4. Direct mosquito feedings on dengue-2 virus-infected people reveal dynamics of human infectiousness
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Lambrechts, Louis, Reiner, Robert C, Briesemeister, M Veronica, Barrera, Patricia, Long, Kanya C, Elson, William H, Vizcarra, Alfonso, Astete, Helvio, Bazan, Isabel, Siles, Crystyan, Vilcarromero, Stalin, Leguia, Mariana, Kawiecki, Anna B, Perkins, T Alex, Lloyd, Alun L, Waller, Lance A, Kitron, Uriel, Jenkins, Sarah A, Hontz, Robert D, Campbell, Wesley R, Carrington, Lauren B, Simmons, Cameron P, Ampuero, J Sonia, Vasquez, Gisella, Elder, John P, Paz-Soldan, Valerie A, Vazquez-Prokopec, Gonzalo M, Rothman, Alan L, Barker, Christopher M, Scott, Thomas W, and Morrison, Amy C
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Biomedical and Clinical Sciences ,Clinical Sciences ,Infectious Diseases ,Biodefense ,Rare Diseases ,Vector-Borne Diseases ,Emerging Infectious Diseases ,Vaccine Related ,Prevention ,Clinical Research ,Aetiology ,2.2 Factors relating to the physical environment ,Infection ,Good Health and Well Being ,Animals ,Humans ,Viremia ,Zika Virus Infection ,Zika Virus ,Culicidae ,Dengue ,Biological Sciences ,Medical and Health Sciences ,Tropical Medicine ,Biological sciences ,Biomedical and clinical sciences ,Health sciences - Abstract
Dengue virus (DENV) transmission from humans to mosquitoes is a poorly documented, but critical component of DENV epidemiology. Magnitude of viremia is the primary determinant of successful human-to-mosquito DENV transmission. People with the same level of viremia, however, can vary in their infectiousness to mosquitoes as a function of other factors that remain to be elucidated. Here, we report on a field-based study in the city of Iquitos, Peru, where we conducted direct mosquito feedings on people naturally infected with DENV and that experienced mild illness. We also enrolled people naturally infected with Zika virus (ZIKV) after the introduction of ZIKV in Iquitos during the study period. Of the 54 study participants involved in direct mosquito feedings, 43 were infected with DENV-2, two with DENV-3, and nine with ZIKV. Our analysis excluded participants whose viremia was detectable at enrollment but undetectable at the time of mosquito feeding, which was the case for all participants with DENV-3 and ZIKV infections. We analyzed the probability of onward transmission during 50 feeding events involving 27 participants infected with DENV-2 based on the presence of infectious virus in mosquito saliva 7-16 days post blood meal. Transmission probability was positively associated with the level of viremia and duration of extrinsic incubation in the mosquito. In addition, transmission probability was influenced by the day of illness in a non-monotonic fashion; i.e., transmission probability increased until 2 days after symptom onset and decreased thereafter. We conclude that mildly ill DENV-infected humans with similar levels of viremia during the first two days after symptom onset will be most infectious to mosquitoes on the second day of their illness. Quantifying variation within and between people in their contribution to DENV transmission is essential to better understand the biological determinants of human infectiousness, parametrize epidemiological models, and improve disease surveillance and prevention strategies.
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- 2023
5. Fusing an agent-based model of mosquito population dynamics with a statistical reconstruction of spatio-temporal abundance patterns
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Cavany, Sean M, España, Guido, Lloyd, Alun L, Vazquez-Prokopec, Gonzalo M, Astete, Helvio, Waller, Lance A, Kitron, Uriel, Scott, Thomas W, Morrison, Amy C, Reiner, Robert C, and Perkins, T Alex
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Medical Microbiology ,Biomedical and Clinical Sciences ,Biological Sciences ,Emerging Infectious Diseases ,Biodefense ,Prevention ,Vector-Borne Diseases ,Infectious Diseases ,Bioengineering ,Rare Diseases ,3.2 Interventions to alter physical and biological environmental risks ,Prevention of disease and conditions ,and promotion of well-being ,Infection ,Good Health and Well Being ,Animals ,Mosquito Vectors ,Population Dynamics ,Zika Virus ,Yellow fever virus ,Chikungunya virus ,Aedes ,Zika Virus Infection ,Dengue ,Mathematical Sciences ,Information and Computing Sciences ,Bioinformatics - Abstract
The mosquito Aedes aegypti is the vector of a number of medically-important viruses, including dengue virus, yellow fever virus, chikungunya virus, and Zika virus, and as such vector control is a key approach to managing the diseases they cause. Understanding the impact of vector control on these diseases is aided by first understanding its impact on Ae. aegypti population dynamics. A number of detail-rich models have been developed to couple the dynamics of the immature and adult stages of Ae. aegypti. The numerous assumptions of these models enable them to realistically characterize impacts of mosquito control, but they also constrain the ability of such models to reproduce empirical patterns that do not conform to the models' behavior. In contrast, statistical models afford sufficient flexibility to extract nuanced signals from noisy data, yet they have limited ability to make predictions about impacts of mosquito control on disease caused by pathogens that the mosquitoes transmit without extensive data on mosquitoes and disease. Here, we demonstrate how the differing strengths of mechanistic realism and statistical flexibility can be fused into a single model. Our analysis utilizes data from 176,352 household-level Ae. aegypti aspirator collections conducted during 1999-2011 in Iquitos, Peru. The key step in our approach is to calibrate a single parameter of the model to spatio-temporal abundance patterns predicted by a generalized additive model (GAM). In effect, this calibrated parameter absorbs residual variation in the abundance time-series not captured by other features of the mechanistic model. We then used this calibrated parameter and the literature-derived parameters in the agent-based model to explore Ae. aegypti population dynamics and the impact of insecticide spraying to kill adult mosquitoes. The baseline abundance predicted by the agent-based model closely matched that predicted by the GAM. Following spraying, the agent-based model predicted that mosquito abundance rebounds within about two months, commensurate with recent experimental data from Iquitos. Our approach was able to accurately reproduce abundance patterns in Iquitos and produce a realistic response to adulticide spraying, while retaining sufficient flexibility to be applied across a range of settings.
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- 2023
6. Correction: Pandemic-associated mobility restrictions could cause increases in dengue virus transmission
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Cavany, Sean M, España, Guido, Vazquez-Prokopec, Gonzalo M, Scott, Thomas W, and Perkins, T Alex
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Biomedical and Clinical Sciences ,Clinical Sciences ,Good Health and Well Being ,Biological Sciences ,Medical and Health Sciences ,Tropical Medicine ,Biological sciences ,Biomedical and clinical sciences ,Health sciences - Abstract
[This corrects the article DOI: 10.1371/journal.pntd.0009603.].
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- 2023
7. Quantifying heterogeneities in arbovirus transmission: Description of the rationale and methodology for a prospective longitudinal study of dengue and Zika virus transmission in Iquitos, Peru (2014–2019)
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Morrison, Amy C, Paz-Soldan, Valerie A, Vazquez-Prokopec, Gonzalo M, Lambrechts, Louis, Elson, William H, Barrera, Patricia, Astete, Helvio, Briesemeister, Veronica, Leguia, Mariana, Jenkins, Sarah A, Long, Kanya C, Kawiecki, Anna B, Reiner, Robert C, Perkins, T Alex, Lloyd, Alun L, Waller, Lance A, Hontz, Robert D, Stoddard, Steven T, Barker, Christopher M, Kitron, Uriel, Elder, John P, Rothman, Alan L, Scott, Thomas W, and Group, on behalf of the Proyecto Dengue
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Medical Microbiology ,Biomedical and Clinical Sciences ,Health Sciences ,Infectious Diseases ,Biodefense ,Rare Diseases ,Vector-Borne Diseases ,Emerging Infectious Diseases ,Vaccine Related ,Prevention ,Clinical Research ,Aetiology ,2.4 Surveillance and distribution ,2.2 Factors relating to the physical environment ,Infection ,Good Health and Well Being ,Humans ,Zika Virus ,Longitudinal Studies ,Dengue Virus ,Dengue ,Prospective Studies ,Peru ,Zika Virus Infection ,Arboviruses ,Proyecto Dengue Group ,General Science & Technology - Abstract
Current knowledge of dengue virus (DENV) transmission provides only a partial understanding of a complex and dynamic system yielding a public health track record that has more failures than successes. An important part of the problem is that the foundation for contemporary interventions includes a series of longstanding, but untested, assumptions based on a relatively small portion of the human population; i.e., people who are convenient to study because they manifest clinically apparent disease. Approaching dengue from the perspective of people with overt illness has produced an extensive body of useful literature. It has not, however, fully embraced heterogeneities in virus transmission dynamics that are increasingly recognized as key information still missing in the struggle to control the most important insect-transmitted viral infection of humans. Only in the last 20 years have there been significant efforts to carry out comprehensive longitudinal dengue studies. This manuscript provides the rationale and comprehensive, integrated description of the methodology for a five-year longitudinal cohort study based in the tropical city of Iquitos, in the heart of the Peruvian Amazon. Primary data collection for this study was completed in 2019. Although some manuscripts have been published to date, our principal objective here is to support subsequent publications by describing in detail the structure, methodology, and significance of a specific research program. Our project was designed to study people across the entire continuum of disease, with the ultimate goal of quantifying heterogeneities in human variables that affect DENV transmission dynamics and prevention. Because our study design is applicable to other Aedes transmitted viruses, we used it to gain insights into Zika virus (ZIKV) transmission when during the project period ZIKV was introduced and circulated in Iquitos. Our prospective contact cluster investigation design was initiated by detecttion of a person with a symptomatic DENV infection and then followed that person's immediate contacts. This allowed us to monitor individuals at high risk of DENV infection, including people with clinically inapparent and mild infections that are otherwise difficult to detect. We aimed to fill knowledge gaps by defining the contribution to DENV transmission dynamics of (1) the understudied majority of DENV-infected people with inapparent and mild infections and (2) epidemiological, entomological, and socio-behavioral sources of heterogeneity. By accounting for factors underlying variation in each person's contribution to transmission we sought to better determine the type and extent of effort needed to better prevent virus transmission and disease.
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- 2023
8. Spatial repellents: The current roadmap to global recommendation of spatial repellents for public health use.
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Achee, Nicole L, Perkins, T Alex, Moore, Sean M, Liu, Fang, Sagara, Issaka, Van Hulle, Suzanne, Ochomo, Eric O, Gimnig, John E, Tissera, Hasitha A, Harvey, Steven A, Monroe, April, Morrison, Amy C, Scott, Thomas W, Reiner, Robert C, and Grieco, John P
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Clinical trials ,Cost-effectiveness ,Dengue ,Malaria ,Social science ,Spatial repellents ,WHO ,Infectious Diseases ,Rare Diseases ,Vector-Borne Diseases ,3.2 Interventions to alter physical and biological environmental risks ,Prevention of disease and conditions ,and promotion of well-being ,Infection ,Good Health and Well Being - Abstract
Spatial repellent (SR) products are envisioned to complement existing vector control methods through the continual release of volatile active ingredients (AI) providing: (i) protection against day-time and early-evening biting; (ii) protection in enclosed/semi-enclosed and peri-domestic spaces; (iii) various formulations to fit context-specific applications; and (iv) increased coverage over traditional control methods. SR product AIs also have demonstrated effect against insecticide-resistant vectors linked to malaria and Aedes-borne virus (ABV) transmission. Over the past two decades, key stakeholders, including World Health Organization (WHO) representatives, have met to discuss the role of SRs in reducing arthropod-borne diseases based on existing evidence. A key focus has been to establish a critical development path for SRs, including scientific, regulatory and social parameters that would constitute an outline for a SR target product profile, i.e. optimum product characteristics. The principal gap is the lack of epidemiological data demonstrating SR public health impact across a range of different ecological and epidemiological settings, to inform a WHO policy recommendation. Here we describe in brief trials that are designed to fulfill evidence needs for WHO assessment and initial projections of SR cost-effectiveness against malaria and dengue.
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- 2023
9. Projecting the future impact of emerging SARS-CoV-2 variants under uncertainty: Modeling the initial Omicron outbreak
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Moore, Sean, Cavany, Sean, Perkins, T. Alex, and España, Guido Felipe Camargo
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- 2024
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10. Potential impact of annual vaccination with reformulated COVID-19 vaccines: Lessons from the US COVID-19 scenario modeling hub
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Jung, Sung-mok, Loo, Sara L., Howerton, Emily, Contamin, Lucie, Smith, Claire P., Carcelén, Erica C., Yan, Katie, Bents, Samantha J., Levander, John, Espino, Jessi, Lemaitre, Joseph C., Sato, Koji, McKee, Clifton D., Hill, Alison L., Chinazzi, Matteo, Davis, Jessica T., Mu, Kunpeng, Vespignani, Alessandro, Rosenstrom, Erik T., Rodriguez-Cartes, Sebastian A., Ivy, Julie S., Mayorga, Maria E., Swann, Julie L., España, Guido, Cavany, Sean, Moore, Sean M., Perkins, T. Alex, Chen, Shi, Paul, Rajib, Janies, Daniel, Thill, Jean-Claude, Srivastava, Ajitesh, Aawar, Majd Al, Bi, Kaiming, Bandekar, Shraddha Ramdas, Bouchnita, Anass, Fox, Spencer J., Meyers, Lauren Ancel, Porebski, Przemyslaw, Venkatramanan, Srini, Adiga, Aniruddha, Hurt, Benjamin, Klahn, Brian, Outten, Joseph, Chen, Jiangzhuo, Mortveit, Henning, Wilson, Amanda, Hoops, Stefan, Bhattacharya, Parantapa, Machi, Dustin, Vullikanti, Anil, Lewis, Bryan, Marathe, Madhav, Hochheiser, Harry, Runge, Michael C., Shea, Katriona, Truelove, Shaun, Viboud, Cécile, and Lessler, Justin
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United States. National Science Foundation ,United States. Food and Drug Administration ,United States. Centers for Disease Control and Prevention ,Epidemics -- Models -- Usage -- Forecasts and trends ,Vaccination -- Usage -- Forecasts and trends -- Models ,Medical research -- Models -- Forecasts and trends -- Usage ,Medicine, Experimental -- Models -- Forecasts and trends -- Usage ,Mortality -- Models -- Usage -- Forecasts and trends ,Influenza vaccines -- Usage ,Influenza -- Models -- Usage -- Forecasts and trends ,Drug approval -- Models -- Usage -- Forecasts and trends ,Public health -- Models -- Usage -- Forecasts and trends ,Market trend/market analysis ,Biological sciences - Abstract
Background Coronavirus Disease 2019 (COVID-19) continues to cause significant hospitalizations and deaths in the United States. Its continued burden and the impact of annually reformulated vaccines remain unclear. Here, we present projections of COVID-19 hospitalizations and deaths in the United States for the next 2 years under 2 plausible assumptions about immune escape (20% per year and 50% per year) and 3 possible CDC recommendations for the use of annually reformulated vaccines (no recommendation, vaccination for those aged 65 years and over, vaccination for all eligible age groups based on FDA approval). Methods and findings The COVID-19 Scenario Modeling Hub solicited projections of COVID-19 hospitalization and deaths between April 15, 2023 and April 15, 2025 under 6 scenarios representing the intersection of considered levels of immune escape and vaccination. Annually reformulated vaccines are assumed to be 65% effective against symptomatic infection with strains circulating on June 15 of each year and to become available on September 1. Age- and state-specific coverage in recommended groups was assumed to match that seen for the first (fall 2021) COVID-19 booster. State and national projections from 8 modeling teams were ensembled to produce projections for each scenario and expected reductions in disease outcomes due to vaccination over the projection period. From April 15, 2023 to April 15, 2025, COVID-19 is projected to cause annual epidemics peaking November to January. In the most pessimistic scenario (high immune escape, no vaccination recommendation), we project 2.1 million (90% projection interval (PI) [1,438,000, 4,270,000]) hospitalizations and 209,000 (90% PI [139,000, 461,000]) deaths, exceeding pre-pandemic mortality of influenza and pneumonia. In high immune escape scenarios, vaccination of those aged 65+ results in 230,000 (95% confidence interval (CI) [104,000, 355,000]) fewer hospitalizations and 33,000 (95% CI [12,000, 54,000]) fewer deaths, while vaccination of all eligible individuals results in 431,000 (95% CI: 264,000-598,000) fewer hospitalizations and 49,000 (95% CI [29,000, 69,000]) fewer deaths. Conclusions COVID-19 is projected to be a significant public health threat over the coming 2 years. Broad vaccination has the potential to substantially reduce the burden of this disease, saving tens of thousands of lives each year., Author(s): Sung-mok Jung 1, Sara L. Loo 2, Emily Howerton 3, Lucie Contamin 4, Claire P. Smith 2, Erica C. Carcelén 2, Katie Yan 3, Samantha J. Bents 5, John [...]
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- 2024
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11. Estimating the health effects of COVID-19-related immunisation disruptions in 112 countries during 2020–30: a modelling study
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Hartner, Anna-Maria, Li, Xiang, Echeverria-Londono, Susy, Roth, Jeremy, Abbas, Kaja, Auzenbergs, Megan, de Villiers, Margaret J, Ferrari, Matthew J, Fraser, Keith, Fu, Han, Hallett, Timothy, Hinsley, Wes, Jit, Mark, Karachaliou, Andromachi, Moore, Sean M, Nayagam, Shevanthi, Papadopoulos, Timos, Perkins, T Alex, Portnoy, Allison, Minh, Quan Tran, Vynnycky, Emilia, Winter, Amy K, Burrows, Holly, Chen, Cynthia, Clapham, Hannah E, Deshpande, Aniruddha, Hauryski, Sarah, Huber, John, Jean, Kevin, Kim, Chaelin, Kim, Jong-Hoon, Koh, Jemima, Lopman, Benjamin A, Pitzer, Virginia E, Tam, Yvonne, Lambach, Philipp, Sim, So Yoon, Woodruff, Kim, Ferguson, Neil M, Trotter, Caroline L, and Gaythorpe, Katy A M
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- 2024
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12. Inferring person-to-person networks of Plasmodium falciparum transmission: are analyses of routine surveillance data up to the task?
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Huber, John H, Hsiang, Michelle S, Dlamini, Nomcebo, Murphy, Maxwell, Vilakati, Sibonakaliso, Nhlabathi, Nomcebo, Lerch, Anita, Nielsen, Rasmus, Ntshalintshali, Nyasatu, Greenhouse, Bryan, and Perkins, T Alex
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Infectious Diseases ,Vector-Borne Diseases ,Malaria ,Rare Diseases ,Infection ,Good Health and Well Being ,Disease Outbreaks ,Humans ,Malaria ,Falciparum ,Plasmodium falciparum ,Reproduction ,Microbiology ,Medical Microbiology ,Public Health and Health Services ,Tropical Medicine - Abstract
BackgroundInference of person-to-person transmission networks using surveillance data is increasingly used to estimate spatiotemporal patterns of pathogen transmission. Several data types can be used to inform transmission network inferences, yet the sensitivity of those inferences to different data types is not routinely evaluated.MethodsThe influence of different combinations of spatial, temporal, and travel-history data on transmission network inferences for Plasmodium falciparum malaria were evaluated.ResultsThe information content of these data types may be limited for inferring person-to-person transmission networks and may lead to an overestimate of transmission. Only when outbreaks were temporally focal or travel histories were accurate was the algorithm able to accurately estimate the reproduction number under control, Rc. Applying this approach to data from Eswatini indicated that inferences of Rc and spatiotemporal patterns therein depend upon the choice of data types and assumptions about travel-history data.ConclusionsThese results suggest that transmission network inferences made with routine malaria surveillance data should be interpreted with caution.
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- 2022
13. Trade-offs between individual and ensemble forecasts of an emerging infectious disease.
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Oidtman, Rachel J, Omodei, Elisa, Kraemer, Moritz UG, Castañeda-Orjuela, Carlos A, Cruz-Rivera, Erica, Misnaza-Castrillón, Sandra, Cifuentes, Myriam Patricia, Rincon, Luz Emilse, Cañon, Viviana, Alarcon, Pedro de, España, Guido, Huber, John H, Hill, Sarah C, Barker, Christopher M, Johansson, Michael A, Manore, Carrie A, Reiner, Robert C, Rodriguez-Barraquer, Isabel, Siraj, Amir S, Frias-Martinez, Enrique, García-Herranz, Manuel, and Perkins, T Alex
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Emerging Infectious Diseases ,Infectious Diseases ,2.5 Research design and methodologies (aetiology) ,Infection - Abstract
Probabilistic forecasts play an indispensable role in answering questions about the spread of newly emerged pathogens. However, uncertainties about the epidemiology of emerging pathogens can make it difficult to choose among alternative model structures and assumptions. To assess the potential for uncertainties about emerging pathogens to affect forecasts of their spread, we evaluated the performance 16 forecasting models in the context of the 2015-2016 Zika epidemic in Colombia. Each model featured a different combination of assumptions about human mobility, spatiotemporal variation in transmission potential, and the number of virus introductions. We found that which model assumptions had the most ensemble weight changed through time. We additionally identified a trade-off whereby some individual models outperformed ensemble models early in the epidemic, but on average the ensembles outperformed all individual models. Our results suggest that multiple models spanning uncertainty across alternative assumptions are necessary to obtain robust forecasts for emerging infectious diseases.
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- 2021
14. Pandemic-associated mobility restrictions could cause increases in dengue virus transmission.
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Cavany, Sean M, España, Guido, Vazquez-Prokopec, Gonzalo M, Scott, Thomas W, and Perkins, T Alex
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Animals ,Humans ,Dengue ,Incidence ,Public Health ,Mosquito Control ,COVID-19 ,SARS-CoV-2 ,Tropical Medicine ,Biological Sciences ,Medical and Health Sciences - Abstract
BackgroundThe COVID-19 pandemic has induced unprecedented reductions in human mobility and social contacts throughout the world. Because dengue virus (DENV) transmission is strongly driven by human mobility, behavioral changes associated with the pandemic have been hypothesized to impact dengue incidence. By discouraging human contact, COVID-19 control measures have also disrupted dengue vector control interventions, the most effective of which require entry into homes. We sought to investigate how and why dengue incidence could differ under a lockdown scenario with a proportion of the population sheltered at home.Methodology & principal findingsWe used an agent-based model with a realistic treatment of human mobility and vector control. We found that a lockdown in which 70% of the population sheltered at home and which occurred in a season when a new serotype invaded could lead to a small average increase in cumulative DENV infections of up to 10%, depending on the time of year lockdown occurred. Lockdown had a more pronounced effect on the spatial distribution of DENV infections, with higher incidence under lockdown in regions with higher mosquito abundance. Transmission was also more focused in homes following lockdown. The proportion of people infected in their own home rose from 54% under normal conditions to 66% under lockdown, and the household secondary attack rate rose from 0.109 to 0.128, a 17% increase. When we considered that lockdown measures could disrupt regular, city-wide vector control campaigns, the increase in incidence was more pronounced than with lockdown alone, especially if lockdown occurred at the optimal time for vector control.Conclusions & significanceOur results indicate that an unintended outcome of lockdown measures may be to adversely alter the epidemiology of dengue. This observation has important implications for an improved understanding of dengue epidemiology and effective application of dengue vector control. When coordinating public health responses during a syndemic, it is important to monitor multiple infections and understand that an intervention against one disease may exacerbate another.
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- 2021
15. The impact of dengue illness on social distancing and caregiving behavior.
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Schaber, Kathryn L, Morrison, Amy C, Elson, William H, Astete-Vega, Helvio, Córdova-López, Jhonny J, Ríos López, Esther Jennifer, Flores, W Lorena Quiroz, Santillan, Alfonso S Vizcarra, Scott, Thomas W, Waller, Lance A, Kitron, Uriel, Barker, Christopher M, Perkins, T Alex, Rothman, Alan L, Vazquez-Prokopec, Gonzalo M, Elder, John P, and Paz-Soldan, Valerie A
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Biological Sciences ,Medical and Health Sciences ,Tropical Medicine - Abstract
BackgroundHuman mobility among residential locations can drive dengue virus (DENV) transmission dynamics. Recently, it was shown that individuals with symptomatic DENV infection exhibit significant changes in their mobility patterns, spending more time at home during illness. This change in mobility is predicted to increase the risk of acquiring infection for those living with or visiting the ill individual. It has yet to be considered, however, whether social contacts are also changing their mobility, either by socially distancing themselves from the infectious individual or increasing contact to help care for them. Social, or physical, distancing and caregiving could have diverse yet important impacts on DENV transmission dynamics; therefore, it is necessary to better understand the nature and frequency of these behaviors including their effect on mobility.Methodology and principal findingsThrough community-based febrile illness surveillance and RT-PCR infection confirmation, 67 DENV positive (DENV+) residents were identified in the city of Iquitos, Peru. Using retrospective interviews, data were collected on visitors and home-based care received during the illness. While 15% of participants lost visitors during their illness, 22% gained visitors; overall, 32% of all individuals (particularly females) received visitors while symptomatic. Caregiving was common (90%), particularly caring by housemates (91%) and caring for children (98%). Twenty-eight percent of caregivers changed their behavior enough to have their work (and, likely, mobility patterns) affected. This was significantly more likely when caring for individuals with low "health-related quality of well-being" during illness (Fisher's Exact, p = 0.01).Conclusions/significanceOur study demonstrates that social contacts of individuals with dengue modify their patterns of visitation and caregiving. The observed mobility changes could impact a susceptible individual's exposure to virus or a presymptomatic/clinically inapparent individual's contribution to onward transmission. Accounting for changes in social contact mobility is imperative in order to get a more accurate understanding of DENV transmission.
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- 2021
16. Model-based estimates of chikungunya epidemiological parameters and outbreak risk from varied data types
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Meyer, Alexander D., Guerrero, Sandra Mendoza, Dean, Natalie E., Anderson, Kathryn B., Stoddard, Steven T., and Perkins, T. Alex
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- 2023
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17. Disease-driven reduction in human mobility influences human-mosquito contacts and dengue transmission dynamics.
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Schaber, Kathryn L, Perkins, T Alex, Lloyd, Alun L, Waller, Lance A, Kitron, Uriel, Paz-Soldan, Valerie A, Elder, John P, Rothman, Alan L, Civitello, David J, Elson, William H, Morrison, Amy C, Scott, Thomas W, and Vazquez-Prokopec, Gonzalo M
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Bioinformatics ,Mathematical Sciences ,Biological Sciences ,Information and Computing Sciences - Abstract
Heterogeneous exposure to mosquitoes determines an individual's contribution to vector-borne pathogen transmission. Particularly for dengue virus (DENV), there is a major difficulty in quantifying human-vector contacts due to the unknown coupled effect of key heterogeneities. To test the hypothesis that the reduction of human out-of-home mobility due to dengue illness will significantly influence population-level dynamics and the structure of DENV transmission chains, we extended an existing modeling framework to include social structure, disease-driven mobility reductions, and heterogeneous transmissibility from different infectious groups. Compared to a baseline model, naïve to human pre-symptomatic infectiousness and disease-driven mobility changes, a model including both parameters predicted an increase of 37% in the probability of a DENV outbreak occurring; a model including mobility change alone predicted a 15.5% increase compared to the baseline model. At the individual level, models including mobility change led to a reduction of the importance of out-of-home onward transmission (R, the fraction of secondary cases predicted to be generated by an individual) by symptomatic individuals (up to -62%) at the expense of an increase in the relevance of their home (up to +40%). An individual's positive contribution to R could be predicted by a GAM including a non-linear interaction between an individual's biting suitability and the number of mosquitoes in their home (>10 mosquitoes and 0.6 individual attractiveness significantly increased R). We conclude that the complex fabric of social relationships and differential behavioral response to dengue illness cause the fraction of symptomatic DENV infections to concentrate transmission in specific locations, whereas asymptomatic carriers (including individuals in their pre-symptomatic period) move the virus throughout the landscape. Our findings point to the difficulty of focusing vector control interventions reactively on the home of symptomatic individuals, as this approach will fail to contain virus propagation by visitors to their house and asymptomatic carriers.
- Published
- 2021
18. Community incidence patterns drive the risk of SARS-CoV-2 outbreaks and alter intervention impacts in a high-risk institutional setting
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Moore, Sean M., España, Guido, Perkins, T. Alex, Guido, Robert M., Jucaban, Joaquin B., Hall, Tara L., Huhtanen, Mark E., Peel, Sheila A., Modjarrad, Kayvon, Hakre, Shilpa, and Scott, Paul T.
- Published
- 2023
- Full Text
- View/download PDF
19. Wastewater-Based Epidemiology: Global Collaborative to Maximize Contributions in the Fight Against COVID-19
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Bivins, Aaron, North, Devin, Ahmad, Arslan, Ahmed, Warish, Alm, Eric, Been, Frederic, Bhattacharya, Prosun, Bijlsma, Lubertus, Boehm, Alexandria B, Brown, Joe, Buttiglieri, Gianluigi, Calabro, Vincenza, Carducci, Annalaura, Castiglioni, Sara, Gurol, Zeynep Cetecioglu, Chakraborty, Sudip, Costa, Federico, Curcio, Stefano, de los Reyes, Francis L, Vela, Jeseth Delgado, Farkas, Kata, Fernandez-Casi, Xavier, Gerba, Charles, Gerrity, Daniel, Girones, Rosina, Gonzalez, Raul, Haramoto, Eiji, Harris, Angela, Holden, Patricia A, Islam, Tahmidul, Jones, Davey L, Kasprzyk-Hordern, Barbara, Kitajima, Masaaki, Kotlarz, Nadine, Kumar, Manish, Kuroda, Keisuke, La Rosa, Giuseppina, Malpei, Francesca, Mautus, Mariana, McLellan, Sandra L, Medema, Gertjan, Meschke, John Scott, Mueller, Jochen, Newton, Ryan J, Nilsson, David, Noble, Rachel T, van Nuijs, Alexander, Peccia, Jordan, Perkins, T Alex, Pickering, Amy J, Rose, Joan, Sanchez, Gloria, Smith, Adam, Stadler, Lauren, Stauber, Christine, Thomas, Kevin, van der Voorn, Tom, Wigginton, Krista, Zhu, Kevin, and Bibby, Kyle
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Environmental Sciences - Published
- 2020
20. Correction: Dengue illness impacts daily human mobility patterns in Iquitos, Peru.
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Schaber, Kathryn L, Paz-Soldan, Valerie A, Morrison, Amy C, Elson, William HD, Rothman, Alan L, Mores, Christopher N, Astete-Vega, Helvio, Scott, Thomas W, Waller, Lance A, Kitron, Uriel, Elder, John P, Barker, Christopher M, Perkins, T Alex, and Vazquez-Prokopec, Gonzalo M
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Biological Sciences ,Medical and Health Sciences ,Tropical Medicine - Abstract
[This corrects the article DOI: 10.1371/journal.pntd.0007756.].
- Published
- 2020
21. Optimizing the deployment of ultra-low volume and targeted indoor residual spraying for dengue outbreak response.
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Cavany, Sean M, España, Guido, Lloyd, Alun L, Waller, Lance A, Kitron, Uriel, Astete, Helvio, Elson, William H, Vazquez-Prokopec, Gonzalo M, Scott, Thomas W, Morrison, Amy C, Reiner, Robert C, and Perkins, T Alex
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Mathematical Sciences ,Biological Sciences ,Information and Computing Sciences ,Bioinformatics - Abstract
Recent years have seen rising incidence of dengue and large outbreaks of Zika and chikungunya, which are all caused by viruses transmitted by Aedes aegypti mosquitoes. In most settings, the primary intervention against Aedes-transmitted viruses is vector control, such as indoor, ultra-low volume (ULV) spraying. Targeted indoor residual spraying (TIRS) has the potential to more effectively impact Aedes-borne diseases, but its implementation requires careful planning and evaluation. The optimal time to deploy these interventions and their relative epidemiological effects are, however, not well understood. We used an agent-based model of dengue virus transmission calibrated to data from Iquitos, Peru to assess the epidemiological effects of these interventions under differing strategies for deploying them. Specifically, we compared strategies where spray application was initiated when incidence rose above a threshold based on incidence in recent years to strategies where spraying occurred at the same time(s) each year. In the absence of spraying, the model predicted 361,000 infections [inter-quartile range (IQR): 347,000-383,000] in the period 2000-2010. The ULV strategy with the fewest median infections was spraying twice yearly, in March and October, which led to a median of 172,000 infections [IQR: 158,000-183,000], a 52% reduction from baseline. Compared to spraying once yearly in September, the best threshold-based strategy utilizing ULV had fewer median infections (254,000 vs. 261,000), but required more spraying (351 vs. 274 days). For TIRS, the best strategy was threshold-based, which led to the fewest infections of all strategies tested (9,900; [IQR: 8,720-11,400], a 94% reduction), and required fewer days spraying than the equivalent ULV strategy (280). Although spraying twice each year is likely to avert the most infections, our results indicate that a threshold-based strategy can become an alternative to better balance the translation of spraying effort into impact, particularly if used with a residual insecticide.
- Published
- 2020
22. Spatial repellents: The current roadmap to global recommendation of spatial repellents for public health use
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Achee, Nicole L., Perkins, T. Alex, Moore, Sean M., Liu, Fang, Sagara, Issaka, Van Hulle, Suzanne, Ochomo, Eric O., Gimnig, John E., Tissera, Hasitha A., Harvey, Steven A., Monroe, April, Morrison, Amy C., Scott, Thomas W., Reiner, Robert C., Jr., and Grieco, John P.
- Published
- 2023
- Full Text
- View/download PDF
23. Dengue illness impacts daily human mobility patterns in Iquitos, Peru.
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Schaber, Kathryn L, Paz-Soldan, Valerie A, Morrison, Amy C, Elson, William HD, Rothman, Alan L, Mores, Christopher N, Astete-Vega, Helvio, Scott, Thomas W, Waller, Lance A, Kitron, Uriel, Elder, John P, Barker, Christopher M, Perkins, T Alex, and Vazquez-Prokopec, Gonzalo M
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Humans ,Dengue Virus ,Dengue ,Fever ,Retrospective Studies ,Locomotion ,Adolescent ,Peru ,Female ,Male ,Illness Behavior ,Surveys and Questionnaires ,Biological Sciences ,Medical and Health Sciences ,Tropical Medicine - Abstract
BACKGROUND:Human mobility plays a central role in shaping pathogen transmission by generating spatial and/or individual variability in potential pathogen-transmitting contacts. Recent research has shown that symptomatic infection can influence human mobility and pathogen transmission dynamics. Better understanding the complex relationship between symptom severity, infectiousness, and human mobility requires quantification of movement patterns throughout infectiousness. For dengue virus (DENV), human infectiousness peaks 0-2 days after symptom onset, making it paramount to understand human movement patterns from the beginning of illness. METHODOLOGY AND PRINCIPAL FINDINGS:Through community-based febrile surveillance and RT-PCR assays, we identified a cohort of DENV+ residents of the city of Iquitos, Peru (n = 63). Using retrospective interviews, we measured the movements of these individuals when healthy and during each day of symptomatic illness. The most dramatic changes in mobility occurred during the first three days after symptom onset; individuals visited significantly fewer locations (Wilcoxon test, p = 0.017) and spent significantly more time at home (Wilcoxon test, p = 0.005), compared to when healthy. By 7-9 days after symptom onset, mobility measures had returned to healthy levels. Throughout an individual's symptomatic period, the day of illness and their subjective sense of well-being were the most significant predictors for the number of locations and houses they visited. CONCLUSIONS/SIGNIFICANCE:Our study is one of the first to collect and analyze human mobility data at a daily scale during symptomatic infection. Accounting for the observed changes in human mobility throughout illness will improve understanding of the impact of disease on DENV transmission dynamics and the interpretation of public health-based surveillance data.
- Published
- 2019
24. Model-based assessment of public health impact and cost-effectiveness of dengue vaccination following screening for prior exposure.
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España, Guido, Yao, Yutong, Anderson, Kathryn B, Fitzpatrick, Meagan C, Smith, David L, Morrison, Amy C, Wilder-Smith, Annelies, Scott, Thomas W, and Perkins, T Alex
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Humans ,Dengue ,Antibodies ,Viral ,Mass Screening ,Serologic Tests ,Vaccination ,Public Health ,Time Factors ,Computer Simulation ,Cost-Benefit Analysis ,World Health Organization ,Dengue Vaccines ,Antibodies ,Neutralizing ,Vaccination Coverage ,Antibodies ,Neutralizing ,Viral ,Biological Sciences ,Medical and Health Sciences ,Tropical Medicine - Abstract
The tetravalent dengue vaccine CYD-TDV (Dengvaxia) is the first licensed vaccine against dengue, but recent findings indicate an elevated risk of severe disease among vaccinees without prior dengue virus (DENV) exposure. The World Health Organization currently recommends CYD-TDV only for individuals with serological confirmation of past DENV exposure. Our objective was to evaluate the potential health impact and cost-effectiveness of vaccination following serological screening. To do so, we used an agent-based model to simulate DENV transmission with and without vaccination over a 10-year timeframe. Across a range of values for the proportion of vaccinees with prior DENV exposure, we projected the proportion of symptomatic and hospitalized cases averted as a function of the sensitivity and specificity of serological screening. Scenarios about the cost-effectiveness of screening and vaccination were chosen to be representative of Brazil and the Philippines. We found that public health impact depended primarily on sensitivity in high-transmission settings and on specificity in low-transmission settings. Cost-effectiveness could be achievable from the perspective of a public payer provided that sensitivity and the value of a disability-adjusted life-year were both high, but only in high-transmission settings. Requirements for reducing relative risk and achieving cost-effectiveness from an individual perspective were more restricted, due to the fact that those who test negative pay for screening but receive no benefit. Our results predict that cost-effectiveness could be achieved only in high-transmission areas of dengue-endemic countries with a relatively high per capita GDP, such as Panamá (13,680 USD), Brazil (8,649 USD), México (8,201 USD), or Thailand (5,807 USD). In conclusion, vaccination with CYD-TDV following serological screening could have a positive impact in some high-transmission settings, provided that screening is highly specific (to minimize individual harm), at least moderately sensitive (to maximize population benefit), and sufficiently inexpensive (depending on the setting).
- Published
- 2019
25. Estimating the impact of city-wide Aedes aegypti population control: An observational study in Iquitos, Peru.
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Reiner, Robert C, Stoddard, Steven T, Vazquez-Prokopec, Gonzalo M, Astete, Helvio, Perkins, T Alex, Sihuincha, Moises, Stancil, Jeffrey D, Smith, David L, Kochel, Tadeuz J, Halsey, Eric S, Kitron, Uriel, Morrison, Amy C, and Scott, Thomas W
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Animals ,Aedes ,Insecticides ,Cities ,Seasons ,Population Dynamics ,Mosquito Control ,Peru ,Female ,Male ,Spatio-Temporal Analysis ,Mosquito Vectors ,Biological Sciences ,Medical and Health Sciences ,Tropical Medicine - Abstract
During the last 50 years, the geographic range of the mosquito Aedes aegypti has increased dramatically, in parallel with a sharp increase in the disease burden from the viruses it transmits, including Zika, chikungunya, and dengue. There is a growing consensus that vector control is essential to prevent Aedes-borne diseases, even as effective vaccines become available. What remains unclear is how effective vector control is across broad operational scales because the data and the analytical tools necessary to isolate the effect of vector-oriented interventions have not been available. We developed a statistical framework to model Ae. aegypti abundance over space and time and applied it to explore the impact of citywide vector control conducted by the Ministry of Health (MoH) in Iquitos, Peru, over a 12-year period. Citywide interventions involved multiple rounds of intradomicile insecticide space spray over large portions of urban Iquitos (up to 40% of all residences) in response to dengue outbreaks. Our model captured significant levels of spatial, temporal, and spatio-temporal variation in Ae. aegypti abundance within and between years and across the city. We estimated the shape of the relationship between the coverage of neighborhood-level vector control and reductions in female Ae. aegypti abundance; i.e., the dose-response curve. The dose-response curve, with its associated uncertainties, can be used to gauge the necessary spraying effort required to achieve a desired effect and is a critical tool currently absent from vector control programs. We found that with complete neighborhood coverage MoH intra-domicile space spray would decrease Ae. aegypti abundance on average by 67% in the treated neighborhood. Our framework can be directly translated to other interventions in other locations with geolocated mosquito abundance data. Results from our analysis can be used to inform future vector-control applications in Ae. aegypti endemic areas globally.
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- 2019
26. Publisher Correction: Past and future spread of the arbovirus vectors Aedes aegypti and Aedes albopictus
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Kraemer, Moritz UG, Reiner, Robert C, Brady, Oliver J, Messina, Jane P, Gilbert, Marius, Pigott, David M, Yi, Dingdong, Johnson, Kimberly, Earl, Lucas, Marczak, Laurie B, Shirude, Shreya, Weaver, Nicole Davis, Bisanzio, Donal, Perkins, T Alex, Lai, Shengjie, Lu, Xin, Jones, Peter, Coelho, Giovanini E, Carvalho, Roberta G, Van Bortel, Wim, Marsboom, Cedric, Hendrickx, Guy, Schaffner, Francis, Moore, Chester G, Nax, Heinrich H, Bengtsson, Linus, Wetter, Erik, Tatem, Andrew J, Brownstein, John S, Smith, David L, Lambrechts, Louis, Cauchemez, Simon, Linard, Catherine, Faria, Nuno R, Pybus, Oliver G, Scott, Thomas W, Liu, Qiyong, Yu, Hongjie, Wint, GR William, Hay, Simon I, and Golding, Nick
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Microbiology ,Biological Sciences ,Prevention ,Good Health and Well Being ,Medical Microbiology - Abstract
In the version of this Article originally published, the affiliation for author Catherine Linard was incorrectly stated as '6Department of Infectious Disease Epidemiology, London School of Hygiene and Tropical Medicine, London, UK'. The correct affiliation is '9Spatial Epidemiology Lab (SpELL), Universite Libre de Bruxelles, Brussels, Belgium'. The affiliation for author Hongjie Yu was also incorrectly stated as '11Department of Statistics, Harvard University, Cambridge, MA, USA'. The correct affiliation is '15School of Health, Fudan University, Key Laboratory of Public Health Safety, Ministry of Education, Shanghai, China'. This has now been amended in all versions of the Article.
- Published
- 2019
27. Past and future spread of the arbovirus vectors Aedes aegypti and Aedes albopictus
- Author
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Kraemer, Moritz UG, Reiner, Robert C, Brady, Oliver J, Messina, Jane P, Gilbert, Marius, Pigott, David M, Yi, Dingdong, Johnson, Kimberly, Earl, Lucas, Marczak, Laurie B, Shirude, Shreya, Davis Weaver, Nicole, Bisanzio, Donal, Perkins, T Alex, Lai, Shengjie, Lu, Xin, Jones, Peter, Coelho, Giovanini E, Carvalho, Roberta G, Van Bortel, Wim, Marsboom, Cedric, Hendrickx, Guy, Schaffner, Francis, Moore, Chester G, Nax, Heinrich H, Bengtsson, Linus, Wetter, Erik, Tatem, Andrew J, Brownstein, John S, Smith, David L, Lambrechts, Louis, Cauchemez, Simon, Linard, Catherine, Faria, Nuno R, Pybus, Oliver G, Scott, Thomas W, Liu, Qiyong, Yu, Hongjie, Wint, GR William, Hay, Simon I, and Golding, Nick
- Subjects
Microbiology ,Biological Sciences ,Rare Diseases ,Vaccine Related ,Prevention ,Infectious Diseases ,Emerging Infectious Diseases ,Biodefense ,Vector-Borne Diseases ,Infection ,Good Health and Well Being ,Aedes ,Animals ,Arbovirus Infections ,Arboviruses ,Female ,Humans ,Mosquito Vectors ,Medical Microbiology - Abstract
The global population at risk from mosquito-borne diseases-including dengue, yellow fever, chikungunya and Zika-is expanding in concert with changes in the distribution of two key vectors: Aedes aegypti and Aedes albopictus. The distribution of these species is largely driven by both human movement and the presence of suitable climate. Using statistical mapping techniques, we show that human movement patterns explain the spread of both species in Europe and the United States following their introduction. We find that the spread of Ae. aegypti is characterized by long distance importations, while Ae. albopictus has expanded more along the fringes of its distribution. We describe these processes and predict the future distributions of both species in response to accelerating urbanization, connectivity and climate change. Global surveillance and control efforts that aim to mitigate the spread of chikungunya, dengue, yellow fever and Zika viruses must consider the so far unabated spread of these mosquitos. Our maps and predictions offer an opportunity to strategically target surveillance and control programmes and thereby augment efforts to reduce arbovirus burden in human populations globally.
- Published
- 2019
28. An agent-based model of dengue virus transmission shows how uncertainty about breakthrough infections influences vaccination impact projections.
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Perkins, T Alex, Reiner, Robert C, España, Guido, Ten Bosch, Quirine A, Verma, Amit, Liebman, Kelly A, Paz-Soldan, Valerie A, Elder, John P, Morrison, Amy C, Stoddard, Steven T, Kitron, Uriel, Vazquez-Prokopec, Gonzalo M, Scott, Thomas W, and Smith, David L
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Humans ,Dengue ,Viral Vaccines ,Calibration ,Uncertainty ,Computer Simulation ,Systems Analysis ,Child ,Peru ,Mathematical Sciences ,Biological Sciences ,Information and Computing Sciences ,Bioinformatics - Abstract
Prophylactic vaccination is a powerful tool for reducing the burden of infectious diseases, due to a combination of direct protection of vaccinees and indirect protection of others via herd immunity. Computational models play an important role in devising strategies for vaccination by making projections of its impacts on public health. Such projections are subject to uncertainty about numerous factors, however. For example, many vaccine efficacy trials focus on measuring protection against disease rather than protection against infection, leaving the extent of breakthrough infections (i.e., disease ameliorated but infection unimpeded) among vaccinees unknown. Our goal in this study was to quantify the extent to which uncertainty about breakthrough infections results in uncertainty about vaccination impact, with a focus on vaccines for dengue. To realistically account for the many forms of heterogeneity in dengue virus (DENV) transmission, which could have implications for the dynamics of indirect protection, we used a stochastic, agent-based model for DENV transmission informed by more than a decade of empirical studies in the city of Iquitos, Peru. Following 20 years of routine vaccination of nine-year-old children at 80% coverage, projections of the proportion of disease episodes averted varied by a factor of 1.76 (95% CI: 1.54-2.06) across the range of uncertainty about breakthrough infections. This was equivalent to the range of vaccination impact projected across a range of uncertainty about vaccine efficacy of 0.268 (95% CI: 0.210-0.329). Until uncertainty about breakthrough infections can be addressed empirically, our results demonstrate the importance of accounting for it in models of vaccination impact.
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- 2019
29. LEVERAGING MULTIPLE DATA TYPES TO ESTIMATE THE TRUE SIZE OF THE ZIKA EPIDEMIC IN THE AMERICAS
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Moore, Sean M, Oidtman, Rachel J, Soda, K James, Siraj, Amir S, Jr, Reiner Robert C, Barker, Chris M, and Perkins, T Alex
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Medical and Health Sciences ,Tropical Medicine - Published
- 2019
30. Biased efficacy estimates in phase-III dengue vaccine trials due to heterogeneous exposure and differential detectability of primary infections across trial arms
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España, Guido, Hogea, Cosmina, Guignard, Adrienne, Bosch, Quirine A ten, Morrison, Amy C, Smith, David L, Scott, Thomas W, Schmidt, Alexander, and Perkins, T Alex
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Epidemiology ,Biomedical and Clinical Sciences ,Health Sciences ,Emerging Infectious Diseases ,Clinical Research ,Biodefense ,Vector-Borne Diseases ,Rare Diseases ,Immunization ,Vaccine Related ,Prevention ,Infectious Diseases ,Infection ,Good Health and Well Being ,Adolescent ,Adult ,Bias ,Child ,Child ,Preschool ,Clinical Trials ,Phase III as Topic ,Dengue ,Dengue Vaccines ,Dengue Virus ,Humans ,Peru ,Randomized Controlled Trials as Topic ,Research Design ,Treatment Outcome ,Viremia ,Young Adult ,General Science & Technology - Abstract
Vaccine efficacy (VE) estimates are crucial for assessing the suitability of dengue vaccine candidates for public health implementation, but efficacy trials are subject to a known bias to estimate VE toward the null if heterogeneous exposure is not accounted for in the analysis of trial data. In light of many well-characterized sources of heterogeneity in dengue virus (DENV) transmission, our goal was to estimate the potential magnitude of this bias in VE estimates for a hypothetical dengue vaccine. To ensure that we realistically modeled heterogeneous exposure, we simulated city-wide DENV transmission and vaccine trial protocols using an agent-based model calibrated with entomological and epidemiological data from long-term field studies in Iquitos, Peru. By simulating a vaccine with a true VE of 0.8 in 1,000 replicate trials each designed to attain 90% power, we found that conventional methods underestimated VE by as much as 21% due to heterogeneous exposure. Accounting for the number of exposures in the vaccine and placebo arms eliminated this bias completely, and the more realistic option of including a frailty term to model exposure as a random effect reduced this bias partially. We also discovered a distinct bias in VE estimates away from the null due to lower detectability of primary DENV infections among seronegative individuals in the vaccinated group. This difference in detectability resulted from our assumption that primary infections in vaccinees who are seronegative at baseline resemble secondary infections, which experience a shorter window of detectable viremia due to a quicker immune response. This resulted in an artefactual finding that VE estimates for the seronegative group were approximately 1% greater than for the seropositive group. Simulation models of vaccine trials that account for these factors can be used to anticipate the extent of bias in field trials and to aid in their interpretation.
- Published
- 2019
31. Model-based analysis of experimental data from interconnected, row-configured huts elucidates multifaceted effects of a volatile chemical on Aedes aegypti mosquitoes
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ten Bosch, Quirine A, Castro-Llanos, Fanny, Manda, Hortance, Morrison, Amy C, Grieco, John P, Achee, Nicole L, and Perkins, T Alex
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Microbiology ,Medical Microbiology ,Biomedical and Clinical Sciences ,Biological Sciences ,Good Health and Well Being ,Aedes ,Animals ,Bayes Theorem ,Cyclopropanes ,Dengue ,Female ,Fluorobenzenes ,Housing ,Humans ,Insect Repellents ,Insecticides ,Markov Chains ,Mosquito Control ,Mosquito Vectors ,Volatilization ,Zika Virus Infection ,Aedes aegypti ,Bayesian parameter estimation ,Continuous-time Markov-chain models ,Spatial repellent ,Transfluthrin ,Vector control ,Zika ,Public Health and Health Services ,Mycology & Parasitology ,Tropical Medicine ,Medical microbiology - Abstract
BACKGROUND:Insecticides used against Aedes aegypti and other disease vectors can elicit a multitude of dose-dependent effects on behavioral and bionomic traits. Estimating the potential epidemiological impact of a product requires thorough understanding of these effects and their interplay at different dosages. Volatile spatial repellent (SR) products come with an additional layer of complexity due to the potential for altered movement of affected mosquitoes and diffusion of volatile particles of the product beyond the treated house. Here, we propose a paired experimental design and statistical inference framework for estimating these nuanced effects of volatile SRs. METHOD:We fitted a continuous-time Markov chain model in a Bayesian framework to data on marked mosquitoes released in interconnected experimental huts conducted in Iquitos, Peru. We estimated the effects of two dosages of transfluthrin on Ae. aegypti behaviors associated with human-vector contact: repellency, exiting and knockdown in the treated space and in connected, adjacent huts. We validated the framework using simulated data. RESULTS:The odds of a female Ae. aegypti being repelled, and thus prevented from entering a treated hut (HT), increased at both dosages (low dosage: odds = 1.64, 95% highest density interval (HDI) = 1.30-2.09; high dosage: odds = 1.35, HDI = 1.04-1.67). The relative risk of exiting from the treated hut was reduced (low: RR = 0.70, HDI = 0.62-1.09; high: RR = 0.70, HDI = 0.40-1.06), with this effect carrying over to untreated spaces two huts away from the treated hut (H2) (low: RR = 0.79, HDI = 0.59-1.01; high: RR = 0.66, HDI = 0.50-0.87). Knockdown rates were increased in both treated and downstream huts, particularly under high dosage (HT: RR = 8.37, HDI = 2.11-17.35; H1: RR = 1.39, HDI = 0.52-2.69; H2: RR = 2.22, HDI = 0.96-3.86). CONCLUSIONS:Our framework is effective at elucidating multiple effects of volatile chemicals used in SR products, as well as their downstream effects. For the examined formulations of transfluthrin, we found notable dose-dependent effects on repellency, movement and knockdown that carry over to adjacent, untreated spaces.
- Published
- 2018
32. Projecting vaccine demand and impact for emerging zoonotic pathogens
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Lerch, Anita, ten Bosch, Quirine A., L’Azou Jackson, Maïna, Bettis, Alison A., Bernuzzi, Mauro, Murphy, Georgina A. V., Tran, Quan M., Huber, John H., Siraj, Amir S., Bron, Gebbiena M., Elliott, Margaret, Hartlage, Carson S., Koh, Sojung, Strimbu, Kathyrn, Walters, Magdalene, Perkins, T. Alex, and Moore, Sean M.
- Published
- 2022
- Full Text
- View/download PDF
33. Contributions from the silent majority dominate dengue virus transmission.
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Ten Bosch, Quirine A, Clapham, Hannah E, Lambrechts, Louis, Duong, Veasna, Buchy, Philippe, Althouse, Benjamin M, Lloyd, Alun L, Waller, Lance A, Morrison, Amy C, Kitron, Uriel, Vazquez-Prokopec, Gonzalo M, Scott, Thomas W, and Perkins, T Alex
- Subjects
Animals ,Humans ,Aedes ,Dengue Virus ,Viremia ,Dengue ,Disease Reservoirs ,Models ,Biological ,Host-Pathogen Interactions ,Mosquito Vectors ,Models ,Biological ,Virology ,Microbiology ,Immunology ,Medical Microbiology - Abstract
Despite estimates that, each year, as many as 300 million dengue virus (DENV) infections result in either no perceptible symptoms (asymptomatic) or symptoms that are sufficiently mild to go undetected by surveillance systems (inapparent), it has been assumed that these infections contribute little to onward transmission. However, recent blood-feeding experiments with Aedes aegypti mosquitoes showed that people with asymptomatic and pre-symptomatic DENV infections are capable of infecting mosquitoes. To place those findings into context, we used models of within-host viral dynamics and human demographic projections to (1) quantify the net infectiousness of individuals across the spectrum of DENV infection severity and (2) estimate the fraction of transmission attributable to people with different severities of disease. Our results indicate that net infectiousness of people with asymptomatic infections is 80% (median) that of people with apparent or inapparent symptomatic infections (95% credible interval (CI): 0-146%). Due to their numerical prominence in the infectious reservoir, clinically inapparent infections in total could account for 84% (CI: 82-86%) of DENV transmission. Of infections that ultimately result in any level of symptoms, we estimate that 24% (95% CI: 0-79%) of onward transmission results from mosquitoes biting individuals during the pre-symptomatic phase of their infection. Only 1% (95% CI: 0.8-1.1%) of DENV transmission is attributable to people with clinically detected infections after they have developed symptoms. These findings emphasize the need to (1) reorient current practices for outbreak response to adoption of pre-emptive strategies that account for contributions of undetected infections and (2) apply methodologies that account for undetected infections in surveillance programs, when assessing intervention impact, and when modeling mosquito-borne virus transmission.
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- 2018
34. Spatiotemporal incidence of Zika and associated environmental drivers for the 2015-2016 epidemic in Colombia.
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Siraj, Amir S, Rodriguez-Barraquer, Isabel, Barker, Christopher M, Tejedor-Garavito, Natalia, Harding, Dennis, Lorton, Christopher, Lukacevic, Dejan, Oates, Gene, Espana, Guido, Kraemer, Moritz UG, Manore, Carrie, Johansson, Michael A, Tatem, Andrew J, Reiner, Robert C, and Perkins, T Alex
- Subjects
Humans ,Colombia ,Epidemics ,Zika Virus ,Zika Virus Infection ,2.4 Surveillance and distribution ,Infection - Abstract
Despite a long history of mosquito-borne virus epidemics in the Americas, the impact of the Zika virus (ZIKV) epidemic of 2015-2016 was unexpected. The need for scientifically informed decision-making is driving research to understand the emergence and spread of ZIKV. To support that research, we assembled a data set of key covariates for modeling ZIKV transmission dynamics in Colombia, where ZIKV transmission was widespread and the government made incidence data publically available. On a weekly basis between January 1, 2014 and October 1, 2016 at three administrative levels, we collated spatiotemporal Zika incidence data, nine environmental variables, and demographic data into a single downloadable database. These new datasets and those we identified, processed, and assembled at comparable spatial and temporal resolutions will save future researchers considerable time and effort in performing these data processing steps, enabling them to focus instead on extracting epidemiological insights from this important data set. Similar approaches could prove useful for filling data gaps to enable epidemiological analyses of future disease emergence events.
- Published
- 2018
35. Contributions from the silent majority dominate dengue virus transmission
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Bosch, Quirine A ten, Clapham, Hannah E, Lambrechts, Louis, Duong, Veasna, Buchy, Philippe, Althouse, Benjamin M, Lloyd, Alun L, Waller, Lance A, Morrison, Amy C, Kitron, Uriel, Vazquez-Prokopec, Gonzalo M, Scott, Thomas W, and Perkins, T Alex
- Subjects
Medical Microbiology ,Biomedical and Clinical Sciences ,Clinical Sciences ,Vector-Borne Diseases ,Rare Diseases ,Emerging Infectious Diseases ,Prevention ,Biodefense ,Infectious Diseases ,Vaccine Related ,Infection ,Good Health and Well Being ,Aedes ,Animals ,Dengue ,Dengue Virus ,Disease Reservoirs ,Host-Pathogen Interactions ,Humans ,Models ,Biological ,Mosquito Vectors ,Viremia ,Microbiology ,Immunology ,Virology ,Medical microbiology - Abstract
Despite estimates that, each year, as many as 300 million dengue virus (DENV) infections result in either no perceptible symptoms (asymptomatic) or symptoms that are sufficiently mild to go undetected by surveillance systems (inapparent), it has been assumed that these infections contribute little to onward transmission. However, recent blood-feeding experiments with Aedes aegypti mosquitoes showed that people with asymptomatic and pre-symptomatic DENV infections are capable of infecting mosquitoes. To place those findings into context, we used models of within-host viral dynamics and human demographic projections to (1) quantify the net infectiousness of individuals across the spectrum of DENV infection severity and (2) estimate the fraction of transmission attributable to people with different severities of disease. Our results indicate that net infectiousness of people with asymptomatic infections is 80% (median) that of people with apparent or inapparent symptomatic infections (95% credible interval (CI): 0-146%). Due to their numerical prominence in the infectious reservoir, clinically inapparent infections in total could account for 84% (CI: 82-86%) of DENV transmission. Of infections that ultimately result in any level of symptoms, we estimate that 24% (95% CI: 0-79%) of onward transmission results from mosquitoes biting individuals during the pre-symptomatic phase of their infection. Only 1% (95% CI: 0.8-1.1%) of DENV transmission is attributable to people with clinically detected infections after they have developed symptoms. These findings emphasize the need to (1) reorient current practices for outbreak response to adoption of pre-emptive strategies that account for contributions of undetected infections and (2) apply methodologies that account for undetected infections in surveillance programs, when assessing intervention impact, and when modeling mosquito-borne virus transmission.
- Published
- 2018
36. Impacts of K-12 school reopening on the COVID-19 epidemic in Indiana, USA
- Author
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España, Guido, Cavany, Sean, Oidtman, Rachel, Barbera, Carly, Costello, Alan, Lerch, Anita, Poterek, Marya, Tran, Quan, Wieler, Annaliese, Moore, Sean, and Perkins, T. Alex
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- 2021
- Full Text
- View/download PDF
37. Estimating unobserved SARS-CoV-2 infections in the United States
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Perkins, T. Alex, Cavany, Sean M., Moore, Sean M., Oidtman, Rachel J., Lerch, Anita, and Poterek, Marya
- Published
- 2020
38. The Long-Term Safety, Public Health Impact, and Cost-Effectiveness of Routine Vaccination with a Recombinant, Live-Attenuated Dengue Vaccine (Dengvaxia): A Model Comparison Study.
- Author
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Flasche, Stefan, Jit, Mark, Rodríguez-Barraquer, Isabel, Coudeville, Laurent, Recker, Mario, Koelle, Katia, Milne, George, Hladish, Thomas J, Perkins, T Alex, Cummings, Derek AT, Dorigatti, Ilaria, Laydon, Daniel J, España, Guido, Kelso, Joel, Longini, Ira, Lourenco, Jose, Pearson, Carl AB, Reiner, Robert C, Mier-Y-Terán-Romero, Luis, Vannice, Kirsten, and Ferguson, Neil
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Humans ,Vaccines ,Synthetic ,Vaccines ,Attenuated ,Vaccination ,Seroepidemiologic Studies ,Public Health ,Safety ,Models ,Theoretical ,Child ,Cost-Benefit Analysis ,Dengue Vaccines ,Vaccines ,Synthetic ,Attenuated ,Models ,Theoretical ,General & Internal Medicine ,Medical and Health Sciences - Abstract
BackgroundLarge Phase III trials across Asia and Latin America have recently demonstrated the efficacy of a recombinant, live-attenuated dengue vaccine (Dengvaxia) over the first 25 mo following vaccination. Subsequent data collected in the longer-term follow-up phase, however, have raised concerns about a potential increase in hospitalization risk of subsequent dengue infections, in particular among young, dengue-naïve vaccinees. We here report predictions from eight independent modelling groups on the long-term safety, public health impact, and cost-effectiveness of routine vaccination with Dengvaxia in a range of transmission settings, as characterised by seroprevalence levels among 9-y-olds (SP9). These predictions were conducted for the World Health Organization to inform their recommendations on optimal use of this vaccine.Methods and findingsThe models adopted, with small variations, a parsimonious vaccine mode of action that was able to reproduce quantitative features of the observed trial data. The adopted mode of action assumed that vaccination, similarly to natural infection, induces transient, heterologous protection and, further, establishes a long-lasting immunogenic memory, which determines disease severity of subsequent infections. The default vaccination policy considered was routine vaccination of 9-y-old children in a three-dose schedule at 80% coverage. The outcomes examined were the impact of vaccination on infections, symptomatic dengue, hospitalised dengue, deaths, and cost-effectiveness over a 30-y postvaccination period. Case definitions were chosen in accordance with the Phase III trials. All models predicted that in settings with moderate to high dengue endemicity (SP9 ≥ 50%), the default vaccination policy would reduce the burden of dengue disease for the population by 6%-25% (all simulations: -3%-34%) and in high-transmission settings (SP9 ≥ 70%) by 13%-25% (all simulations: 10%- 34%). These endemicity levels are representative of the participating sites in both Phase III trials. In contrast, in settings with low transmission intensity (SP9 ≤ 30%), the models predicted that vaccination could lead to a substantial increase in hospitalisation because of dengue. Modelling reduced vaccine coverage or the addition of catch-up campaigns showed that the impact of vaccination scaled approximately linearly with the number of people vaccinated. In assessing the optimal age of vaccination, we found that targeting older children could increase the net benefit of vaccination in settings with moderate transmission intensity (SP9 = 50%). Overall, vaccination was predicted to be potentially cost-effective in most endemic settings if priced competitively. The results are based on the assumption that the vaccine acts similarly to natural infection. This assumption is consistent with the available trial results but cannot be directly validated in the absence of additional data. Furthermore, uncertainties remain regarding the level of protection provided against disease versus infection and the rate at which vaccine-induced protection declines.ConclusionsDengvaxia has the potential to reduce the burden of dengue disease in areas of moderate to high dengue endemicity. However, the potential risks of vaccination in areas with limited exposure to dengue as well as the local costs and benefits of routine vaccination are important considerations for the inclusion of Dengvaxia into existing immunisation programmes. These results were important inputs into WHO global policy for use of this licensed dengue vaccine.
- Published
- 2016
39. After the games are over: life‐history trade‐offs drive dispersal attenuation following range expansion
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Perkins, T Alex, Boettiger, Carl, and Phillips, Benjamin L
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Climate Change Impacts and Adaptation ,Environmental Sciences ,Fitness ,life-history evolution ,natural selection ,theory ,traveling wave ,life‐history evolution ,Ecology ,Evolutionary Biology ,Evolutionary biology ,Ecological applications - Abstract
Increased dispersal propensity often evolves on expanding range edges due to the Olympic Village effect, which involves the fastest and fittest finding themselves together in the same place at the same time, mating, and giving rise to like individuals. But what happens after the range's leading edge has passed and the games are over? Although empirical studies indicate that dispersal propensity attenuates following range expansion, hypotheses about the mechanisms driving this attenuation have not been clearly articulated or tested. Here, we used a simple model of the spatiotemporal dynamics of two phenotypes, one fast and the other slow, to propose that dispersal attenuation beyond preexpansion levels is only possible in the presence of trade-offs between dispersal and life-history traits. The Olympic Village effect ensures that fast dispersers preempt locations far from the range's previous limits. When trade-offs are absent, this preemptive spatial advantage has a lasting impact, with highly dispersive individuals attaining equilibrium frequencies that are strictly higher than their introduction frequencies. When trade-offs are present, dispersal propensity decays rapidly at all locations. Our model's results about the postcolonization trajectory of dispersal evolution are clear and, in principle, should be observable in field studies. We conclude that empirical observations of postcolonization dispersal attenuation offer a novel way to detect the existence of otherwise elusive trade-offs between dispersal and life-history traits.
- Published
- 2016
40. Calling in sick: impacts of fever on intra-urban human mobility
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Perkins, T Alex, Paz-Soldan, Valerie A, Stoddard, Steven T, Morrison, Amy C, Forshey, Brett M, Long, Kanya C, Halsey, Eric S, Kochel, Tadeusz J, Elder, John P, Kitron, Uriel, Scott, Thomas W, and Vazquez-Prokopec, Gonzalo M
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Biological Sciences ,Vector-Borne Diseases ,Biodefense ,Emerging Infectious Diseases ,Infectious Diseases ,Infection ,Good Health and Well Being ,Case-Control Studies ,Cities ,Dengue ,Fever ,Humans ,Likelihood Functions ,Models ,Theoretical ,Peru ,Retrospective Studies ,Travel ,activity space ,contact ,dengue ,infection ,movement ,network ,Agricultural and Veterinary Sciences ,Medical and Health Sciences ,Agricultural ,veterinary and food sciences ,Biological sciences ,Environmental sciences - Abstract
Pathogens inflict a wide variety of disease manifestations on their hosts, yet the impacts of disease on the behaviour of infected hosts are rarely studied empirically and are seldom accounted for in mathematical models of transmission dynamics. We explored the potential impacts of one of the most common disease manifestations, fever, on a key determinant of pathogen transmission, host mobility, in residents of the Amazonian city of Iquitos, Peru. We did so by comparing two groups of febrile individuals (dengue-positive and dengue-negative) with an afebrile control group. A retrospective, semi-structured interview allowed us to quantify multiple aspects of mobility during the two-week period preceding each interview. We fitted nested models of each aspect of mobility to data from interviews and compared models using likelihood ratio tests to determine whether there were statistically distinguishable differences in mobility attributable to fever or its aetiology. Compared with afebrile individuals, febrile study participants spent more time at home, visited fewer locations, and, in some cases, visited locations closer to home and spent less time at certain types of locations. These multifaceted impacts are consistent with the possibility that disease-mediated changes in host mobility generate dynamic and complex changes in host contact network structure.
- Published
- 2016
41. Quantifying the Epidemiological Impact of Vector Control on Dengue.
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Reiner, Robert C, Achee, Nicole, Barrera, Roberto, Burkot, Thomas R, Chadee, Dave D, Devine, Gregor J, Endy, Timothy, Gubler, Duane, Hombach, Joachim, Kleinschmidt, Immo, Lenhart, Audrey, Lindsay, Steven W, Longini, Ira, Mondy, Mathias, Morrison, Amy C, Perkins, T Alex, Vazquez-Prokopec, Gonzalo, Reiter, Paul, Ritchie, Scott A, Smith, David L, Strickman, Daniel, and Scott, Thomas W
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Animals ,Humans ,Aedes ,Dengue ,Insecticides ,Mosquito Control ,Mosquito Vectors ,Tropical Medicine ,Biological Sciences ,Medical and Health Sciences - Published
- 2016
42. Coupled Heterogeneities and Their Impact on Parasite Transmission and Control
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Vazquez-Prokopec, Gonzalo M, Perkins, T Alex, Waller, Lance A, Lloyd, Alun L, Reiner, Robert C, Scott, Thomas W, and Kitron, Uriel
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Medical Microbiology ,Biomedical and Clinical Sciences ,Infectious Diseases ,Prevention ,2.2 Factors relating to the physical environment ,Aetiology ,Infection ,Good Health and Well Being ,Animals ,Dengue ,Dengue Virus ,Host-Parasite Interactions ,Humans ,Parasites ,Parasitic Diseases ,dengue ,risk heterogeneity ,superspreader ,transmission heterogeneity ,vector-borne pathogen ,within-host dynamics ,Biological Sciences ,Agricultural and Veterinary Sciences ,Medical and Health Sciences ,Mycology & Parasitology ,Veterinary sciences ,Medical microbiology - Abstract
Most host-parasite systems exhibit remarkable heterogeneity in the contribution to transmission of certain individuals, locations, host infectious states, or parasite strains. While significant advancements have been made in the understanding of the impact of transmission heterogeneity in epidemic dynamics and parasite persistence and evolution, the knowledge base of the factors contributing to transmission heterogeneity is limited. We argue that research efforts should move beyond considering the impact of single sources of heterogeneity and account for complex couplings between conditions with potential synergistic impacts on parasite transmission. Using theoretical approaches and empirical evidence from various host-parasite systems, we investigate the ecological and epidemiological significance of couplings between heterogeneities and discuss their potential role in transmission dynamics and the impact of control.
- Published
- 2016
43. Vectorial capacity and vector control: reconsidering sensitivity to parameters for malaria elimination
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Brady, Oliver J, Godfray, H Charles J, Tatem, Andrew J, Gething, Peter W, Cohen, Justin M, McKenzie, F Ellis, Perkins, T Alex, Reiner, Robert C, Tusting, Lucy S, Sinka, Marianne E, Moyes, Catherine L, Eckhoff, Philip A, Scott, Thomas W, Lindsay, Steven W, Hay, Simon I, and Smith, David L
- Subjects
Medical Microbiology ,Biomedical and Clinical Sciences ,Clinical Sciences ,Prevention ,Vector-Borne Diseases ,Infectious Diseases ,Malaria ,Rare Diseases ,Prevention of disease and conditions ,and promotion of well-being ,3.2 Interventions to alter physical and biological environmental risks ,Infection ,Good Health and Well Being ,Animals ,Anopheles ,Disease Eradication ,Health Policy ,Humans ,Insecticides ,Life Cycle Stages ,Mosquito Control ,Public Health Surveillance ,Elimination ,Modelling ,Operational research ,Policy ,Vector control ,Microbiology ,Public Health and Health Services ,Tropical Medicine ,Clinical sciences ,Medical microbiology ,Epidemiology - Abstract
BackgroundMajor gains have been made in reducing malaria transmission in many parts of the world, principally by scaling-up coverage with long-lasting insecticidal nets and indoor residual spraying. Historically, choice of vector control intervention has been largely guided by a parameter sensitivity analysis of George Macdonald's theory of vectorial capacity that suggested prioritizing methods that kill adult mosquitoes. While this advice has been highly successful for transmission suppression, there is a need to revisit these arguments as policymakers in certain areas consider which combinations of interventions are required to eliminate malaria.Methods and resultsUsing analytical solutions to updated equations for vectorial capacity we build on previous work to show that, while adult killing methods can be highly effective under many circumstances, other vector control methods are frequently required to fill effective coverage gaps. These can arise due to pre-existing or developing mosquito physiological and behavioral refractoriness but also due to additive changes in the relative importance of different vector species for transmission. Furthermore, the optimal combination of interventions will depend on the operational constraints and costs associated with reaching high coverage levels with each intervention.ConclusionsReaching specific policy goals, such as elimination, in defined contexts requires increasingly non-generic advice from modelling. Our results emphasize the importance of measuring baseline epidemiology, intervention coverage, vector ecology and program operational constraints in predicting expected outcomes with different combinations of interventions.
- Published
- 2016
44. Lying in wait: the resurgence of dengue virus after the Zika epidemic in Brazil
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Brito, Anderson Fernandes, Machado, Lais Ceschini, Oidtman, Rachel J., Siconelli, Márcio Junio Lima, Tran, Quan Minh, Fauver, Joseph R., Carvalho, Rodrigo Dias de Oliveira, Dezordi, Filipe Zimmer, Pereira, Mylena Ribeiro, de Castro-Jorge, Luiza Antunes, Minto, Elaine Cristina Manini, Passos, Luzia Márcia Romanholi, Kalinich, Chaney C., Petrone, Mary E., Allen, Emma, España, Guido Camargo, Huang, Angkana T., Cummings, Derek A. T., Baele, Guy, Franca, Rafael Freitas Oliveira, da Fonseca, Benedito Antônio Lopes, Perkins, T. Alex, Wallau, Gabriel Luz, and Grubaugh, Nathan D.
- Published
- 2021
- Full Text
- View/download PDF
45. Heterogeneous local dynamics revealed by classification analysis of spatially disaggregated time series data
- Author
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Perkins, T. Alex, Rodriguez-Barraquer, Isabel, Manore, Carrie, Siraj, Amir S., España, Guido, Barker, Christopher M., Johansson, Michael A., and Reiner, Robert C., Jr.
- Published
- 2019
- Full Text
- View/download PDF
46. Mapping global variation in human mobility
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Kraemer, Moritz U. G., Sadilek, Adam, Zhang, Qian, Marchal, Nahema A., Tuli, Gaurav, Cohn, Emily L., Hswen, Yulin, Perkins, T. Alex, Smith, David L., Reiner, Jr, Robert C., and Brownstein, John S.
- Published
- 2020
- Full Text
- View/download PDF
47. A critical assessment of vector control for dengue prevention.
- Author
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Achee, Nicole L, Gould, Fred, Perkins, T Alex, Reiner, Robert C, Morrison, Amy C, Ritchie, Scott A, Gubler, Duane J, Teyssou, Remy, and Scott, Thomas W
- Subjects
Animals ,Humans ,Aedes ,Dengue Virus ,Dengue ,Public Health ,Insect Vectors ,Mosquito Control ,Epidemics ,Tropical Medicine ,Biological Sciences ,Medical and Health Sciences - Abstract
Recently, the Vaccines to Vaccinate (v2V) initiative was reconfigured into the Partnership for Dengue Control (PDC), a multi-sponsored and independent initiative. This redirection is consistent with the growing consensus among the dengue-prevention community that no single intervention will be sufficient to control dengue disease. The PDC's expectation is that when an effective dengue virus (DENV) vaccine is commercially available, the public health community will continue to rely on vector control because the two strategies complement and enhance one another. Although the concept of integrated intervention for dengue prevention is gaining increasingly broader acceptance, to date, no consensus has been reached regarding the details of how and what combination of approaches can be most effectively implemented to manage disease. To fill that gap, the PDC proposed a three step process: (1) a critical assessment of current vector control tools and those under development, (2) outlining a research agenda for determining, in a definitive way, what existing tools work best, and (3) determining how to combine the best vector control options, which have systematically been defined in this process, with DENV vaccines. To address the first step, the PDC convened a meeting of international experts during November 2013 in Washington, DC, to critically assess existing vector control interventions and tools under development. This report summarizes those deliberations.
- Published
- 2015
48. Adult vector control, mosquito ecology and malaria transmission
- Author
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Brady, Oliver J, Godfray, H Charles J, Tatem, Andrew J, Gething, Peter W, Cohen, Justin M, McKenzie, F Ellis, Perkins, T Alex, Reiner, Robert C, Tusting, Lucy S, Scott, Thomas W, Lindsay, Steven W, Hay, Simon I, and Smith, David L
- Subjects
Infectious Diseases ,Malaria ,Rare Diseases ,Vector-Borne Diseases ,Prevention of disease and conditions ,and promotion of well-being ,3.2 Interventions to alter physical and biological environmental risks ,Infection ,Good Health and Well Being ,Adult ,Animals ,Anopheles ,Culicidae ,Ecology ,Health Policy ,Humans ,Insect Vectors ,Larva ,Life Cycle Stages ,Models ,Biological ,Mosquito Control ,Population Density ,Population Dynamics ,Larval control ,Malaria control policy ,Micro-simulation models ,Plasmodium falciparum ,Plasmodium vivax ,Vectorial capacity ,Medical and Health Sciences - Abstract
BackgroundStandard advice regarding vector control is to prefer interventions that reduce the lifespan of adult mosquitoes. The basis for this advice is a decades-old sensitivity analysis of 'vectorial capacity', a concept relevant for most malaria transmission models and based solely on adult mosquito population dynamics. Recent advances in micro-simulation models offer an opportunity to expand the theory of vectorial capacity to include both adult and juvenile mosquito stages in the model.MethodsIn this study we revisit arguments about transmission and its sensitivity to mosquito bionomic parameters using an elasticity analysis of developed formulations of vectorial capacity.ResultsWe show that reducing adult survival has effects on both adult and juvenile population size, which are significant for transmission and not accounted for in traditional formulations of vectorial capacity. The elasticity of these effects is dependent on various mosquito population parameters, which we explore. Overall, control is most sensitive to methods that affect adult mosquito mortality rates, followed by blood feeding frequency, human blood feeding habit, and lastly, to adult mosquito population density.ConclusionsThese results emphasise more strongly than ever the sensitivity of transmission to adult mosquito mortality, but also suggest the high potential of combinations of interventions including larval source management. This must be done with caution, however, as policy requires a more careful consideration of costs, operational difficulties and policy goals in relation to baseline transmission.
- Published
- 2015
49. Mapping residual transmission for malaria elimination
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Reiner, Robert C, Le Menach, Arnaud, Kunene, Simon, Ntshalintshali, Nyasatu, Hsiang, Michelle S, Perkins, T Alex, Greenhouse, Bryan, Tatem, Andrew J, Cohen, Justin M, Smith, David L, Bejon, Philip, and Drake, John
- Subjects
Medical Microbiology ,Biomedical and Clinical Sciences ,Clinical Sciences ,Prevention ,Malaria ,Infectious Diseases ,Rare Diseases ,Vector-Borne Diseases ,Infection ,Good Health and Well Being ,Basic Reproduction Number ,Communicable Disease Control ,Disease Eradication ,Disease Transmission ,Infectious ,Epidemiological Monitoring ,Eswatini ,Topography ,Medical ,ecology ,epidemiology ,global health ,human ,malaria elimination ,plasmodium falciparum ,spatio-temporal transmission dynamics ,Biochemistry and Cell Biology ,Biological sciences ,Biomedical and clinical sciences ,Health sciences - Abstract
Eliminating malaria from a defined region involves draining the endemic parasite reservoir and minimizing local malaria transmission around imported malaria infections . In the last phases of malaria elimination, as universal interventions reap diminishing marginal returns, national resources must become increasingly devoted to identifying where residual transmission is occurring. The needs for accurate measures of progress and practical advice about how to allocate scarce resources require new analytical methods to quantify fine-grained heterogeneity in malaria risk. Using routine national surveillance data from Swaziland (a sub-Saharan country on the verge of elimination), we estimated individual reproductive numbers. Fine-grained maps of reproductive numbers and local malaria importation rates were combined to show 'malariogenic potential', a first for malaria elimination. As countries approach elimination, these individual-based measures of transmission risk provide meaningful metrics for planning programmatic responses and prioritizing areas where interventions will contribute most to malaria elimination.
- Published
- 2015
50. A global assembly of adult female mosquito mark-release-recapture data to inform the control of mosquito-borne pathogens
- Author
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Guerra, Carlos A, Reiner, Robert C, Perkins, T Alex, Lindsay, Steve W, Midega, Janet T, Brady, Oliver J, Barker, Christopher M, Reisen, William K, Harrington, Laura C, Takken, Willem, Kitron, Uriel, Lloyd, Alun L, Hay, Simon I, Scott, Thomas W, and Smith, David L
- Subjects
Vector-Borne Diseases ,Emerging Infectious Diseases ,Infectious Diseases ,Infection ,Good Health and Well Being ,Animals ,Communicable Diseases ,Culicidae ,Female ,Global Health ,Humans ,Insect Vectors ,Male ,Mosquito Control ,Population Dynamics ,Species Specificity ,Mosquito ,Vector ,Mark-release-recapture ,Database ,Pathogen transmission models ,Medical Microbiology ,Public Health and Health Services ,Mycology & Parasitology ,Tropical Medicine - Abstract
BackgroundPathogen transmission by mosquitos is known to be highly sensitive to mosquito bionomic parameters. Mosquito mark-release-recapture (MMRR) experiments are a standard method for estimating such parameters including dispersal, population size and density, survival, blood feeding frequency and blood meal host preferences.MethodsWe assembled a comprehensive database describing adult female MMRR experiments. Bibliographic searches were used to build a digital library of MMRR studies and selected data describing the reported outcomes were extracted.ResultsThe resulting database contained 774 unique adult female MMRR experiments involving 58 vector mosquito species from the three main genera of importance to human health: Aedes, Anopheles and Culex. Crude examination of these data revealed patterns associated with geography as well as mosquito genus, consistent with bionomics varying by species-specific life history and ecological context. Recapture success varied considerably and was significantly different amongst genera, with 8, 4 and 1% of adult females recaptured for Aedes, Anopheles and Culex species, respectively. A large proportion of experiments (59%) investigated dispersal and survival and many allowed disaggregation of the release and recapture data. Geographic coverage was limited to just 143 localities around the world.ConclusionsThis MMRR database is a substantial contribution to the compilation of global data that can be used to better inform basic research and public health interventions, to identify and fill knowledge gaps and to enrich theory and evidence-based ecological and epidemiological studies of mosquito vectors, pathogen transmission and disease prevention. The database revealed limited geographic coverage and a relative scarcity of information for vector species of substantial public health relevance. It represents, however, a wealth of entomological information not previously compiled and of particular interest for mosquito-borne pathogen transmission models.
- Published
- 2014
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