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1. Incorporating data from multiple endpoints in the analysis of clinical trials: example from RSV vaccines

Author

Infectieziekten onderzoek1 (Bont), Infection & Immunity, CTI Bont, Child Health, Prunas, Ottavia, Willemsen, Joukje E, Bont, Louis, Pitzer, Virginia E, Warren, Joshua L, Weinberger, Daniel M, Infectieziekten onderzoek1 (Bont), Infection & Immunity, CTI Bont, Child Health, Prunas, Ottavia, Willemsen, Joukje E, Bont, Louis, Pitzer, Virginia E, Warren, Joshua L, and Weinberger, Daniel M

Published
2024

2. Evaluating strategies to improve rotavirus vaccine impact during the second year of life in Malawi.

Author

Pitzer, Virginia E, Pitzer, Virginia E, Bennett, Aisleen, Bar-Zeev, Naor, Jere, Khuzwayo C, Lopman, Benjamin A, Lewnard, Joseph A, Parashar, Umesh D, Cunliffe, Nigel A, Pitzer, Virginia E, Pitzer, Virginia E, Bennett, Aisleen, Bar-Zeev, Naor, Jere, Khuzwayo C, Lopman, Benjamin A, Lewnard, Joseph A, Parashar, Umesh D, and Cunliffe, Nigel A

Abstract

Rotavirus vaccination has substantially reduced the incidence of rotavirus-associated gastroenteritis (RVGE) in high-income countries, but vaccine impact and estimated effectiveness are lower in low-income countries for reasons that are poorly understood. We used mathematical modeling to quantify rotavirus vaccine impact and investigate reduced vaccine effectiveness, particularly during the second year of life, in Malawi, where vaccination was introduced in October 2012 with doses at 6 and 10 weeks. We fitted models to 12 years of prevaccination data and validated the models against postvaccination data to evaluate the magnitude and duration of vaccine protection. The observed rollout of vaccination in Malawi was predicted to lead to a 26 to 77% decrease in the overall incidence of moderate-to-severe RVGE in 2016, depending on assumptions about waning of vaccine-induced immunity and heterogeneity in vaccine response. Vaccine effectiveness estimates were predicted to be higher among 4- to 11-month-olds than 12- to 23-month-olds, even when vaccine-induced immunity did not wane, due to differences in the rate at which vaccinated and unvaccinated individuals acquire immunity from natural infection. We found that vaccine effectiveness during the first and second years of life could potentially be improved by increasing the proportion of infants who respond to vaccination or by lowering the rotavirus transmission rate. An additional dose of rotavirus vaccine at 9 months of age was predicted to lead to higher estimated vaccine effectiveness but to only modest (5 to 16%) reductions in RVGE incidence over the first 3 years after introduction, regardless of assumptions about waning of vaccine-induced immunity.

Published
2019

3. Community transmission of rotavirus infection in a vaccinated population in Blantyre, Malawi: a prospective household cohort study.

Author

Bennett, Aisleen, Bennett, Aisleen, Pollock, Louisa, Bar-Zeev, Naor, Lewnard, Joseph A, Jere, Khuzwayo C, Lopman, Benjamin, Iturriza-Gomara, Miren, Pitzer, Virginia E, Cunliffe, Nigel A, Bennett, Aisleen, Bennett, Aisleen, Pollock, Louisa, Bar-Zeev, Naor, Lewnard, Joseph A, Jere, Khuzwayo C, Lopman, Benjamin, Iturriza-Gomara, Miren, Pitzer, Virginia E, and Cunliffe, Nigel A

Abstract

BackgroundRotavirus vaccine effectiveness is reduced among children in low-income countries. Indirect (transmission-mediated) effects of rotavirus vaccine might contribute to the total population effect of vaccination. We aimed to examine risk factors for transmission of rotavirus to household contacts in Blantyre, Malawi, and estimated the effectiveness of rotavirus vaccine in preventing transmission of infection to household contacts.MethodsIn this prospective household cohort study, we recruited children born after Sept 17, 2012, and aged at least 6 weeks (vaccine-eligible children) with acute rotavirus gastroenteritis and their household contacts, in four government health facilities in Blantyre, Malawi. Clinical data, a bulk stool sample, and 1-2 mL of serum were collected from case children at presentation. Clinical data and stool samples were also prospectively collected from household contacts over 14 days from presentation. A single stool sample was collected from control households containing asymptomatic children who were frequency age-matched to case children. Samples were tested for rotavirus using semi-quantitative real-time PCR and for anti-rotavirus IgA using a semi-quantitative sandwich ELISA. Risk factors for household transmission of rotavirus infection and clinical disease, including disease severity and faecal shedding density, were identified using mixed effects logistic regression. Vaccine effectiveness against transmission was estimated as 1 minus the ratio of secondary attack rates in vaccinated and counterfactual unvaccinated populations, using vaccine effectiveness estimates from the associated diarrhoeal surveillance platform to estimate the counterfactual secondary attack rate without vaccination.FindingsBetween Feb 16, 2015, and Nov 11, 2016, we recruited 196 case households (705 members) and 55 control households (153 members). Household secondary attack rate for rotavirus infection was high (434 [65%] of 665 individuals) and secondary

Published
2021

5. The Surveillance for Enteric Fever in Asia Project (SEAP), Severe Typhoid Fever Surveillance in Africa (SETA), Surveillance of Enteric Fever in India (SEFI), and Strategic Typhoid Alliance Across Africa and Asia (STRATAA) Population-based Enteric Fever Studies: A Review of Methodological Similarities and Differences.

Author

Carey, Megan E, Carey, Megan E, MacWright, William R, Im, Justin, Meiring, James E, Gibani, Malick M, Park, Se Eun, Longley, Ashley, Jeon, Hyon Jin, Hemlock, Caitlin, Yu, Alexander T, Soura, Abdramane, Aiemjoy, Kristen, Owusu-Dabo, Ellis, Terferi, Mekonnen, Islam, Sahidul, Lunguya, Octavie, Jacobs, Jan, Gordon, Melita, Dolecek, Christiane, Baker, Stephen, Pitzer, Virginia E, Yousafzai, Mohammad Tahir, Tonks, Susan, Clemens, John D, Date, Kashmira, Qadri, Firdausi, Heyderman, Robert S, Saha, Samir K, Basnyat, Buddha, Okeke, Iruka N, Qamar, Farah N, Voysey, Merryn, Luby, Stephen, Kang, Gagandeep, Andrews, Jason, Pollard, Andrew J, John, Jacob, Garrett, Denise, Marks, Florian, Carey, Megan E, Carey, Megan E, MacWright, William R, Im, Justin, Meiring, James E, Gibani, Malick M, Park, Se Eun, Longley, Ashley, Jeon, Hyon Jin, Hemlock, Caitlin, Yu, Alexander T, Soura, Abdramane, Aiemjoy, Kristen, Owusu-Dabo, Ellis, Terferi, Mekonnen, Islam, Sahidul, Lunguya, Octavie, Jacobs, Jan, Gordon, Melita, Dolecek, Christiane, Baker, Stephen, Pitzer, Virginia E, Yousafzai, Mohammad Tahir, Tonks, Susan, Clemens, John D, Date, Kashmira, Qadri, Firdausi, Heyderman, Robert S, Saha, Samir K, Basnyat, Buddha, Okeke, Iruka N, Qamar, Farah N, Voysey, Merryn, Luby, Stephen, Kang, Gagandeep, Andrews, Jason, Pollard, Andrew J, John, Jacob, Garrett, Denise, and Marks, Florian

Abstract

Building on previous multicountry surveillance studies of typhoid and others salmonelloses such as the Diseases of the Most Impoverished program and the Typhoid Surveillance in Africa Project, several ongoing blood culture surveillance studies are generating important data about incidence, severity, transmission, and clinical features of invasive Salmonella infections in sub-Saharan Africa and South Asia. These studies are also characterizing drug resistance patterns in their respective study sites. Each study answers a different set of research questions and employs slightly different methodologies, and the geographies under surveillance differ in size, population density, physician practices, access to healthcare facilities, and access to microbiologically safe water and improved sanitation. These differences in part reflect the heterogeneity of the epidemiology of invasive salmonellosis globally, and thus enable generation of data that are useful to policymakers in decision-making for the introduction of typhoid conjugate vaccines (TCVs). Moreover, each study is evaluating the large-scale deployment of TCVs, and may ultimately be used to assess post-introduction vaccine impact. The data generated by these studies will also be used to refine global disease burden estimates. It is important to ensure that lessons learned from these studies not only inform vaccination policy, but also are incorporated into sustainable, low-cost, integrated vaccine-preventable disease surveillance systems.

Published
2020

6. The Surveillance for Enteric Fever in Asia Project (SEAP), Severe Typhoid Fever Surveillance in Africa (SETA), Surveillance of Enteric Fever in India (SEFI), and Strategic Typhoid Alliance Across Africa and Asia (STRATAA) Population-based Enteric Fever Studies: A Review of Methodological Similarities and Differences.

Author

Carey, Megan E, Carey, Megan E, MacWright, William R, Im, Justin, Meiring, James E, Gibani, Malick M, Park, Se Eun, Longley, Ashley, Jeon, Hyon Jin, Hemlock, Caitlin, Yu, Alexander T, Soura, Abdramane, Aiemjoy, Kristen, Owusu-Dabo, Ellis, Terferi, Mekonnen, Islam, Sahidul, Lunguya, Octavie, Jacobs, Jan, Gordon, Melita, Dolecek, Christiane, Baker, Stephen, Pitzer, Virginia E, Yousafzai, Mohammad Tahir, Tonks, Susan, Clemens, John D, Date, Kashmira, Qadri, Firdausi, Heyderman, Robert S, Saha, Samir K, Basnyat, Buddha, Okeke, Iruka N, Qamar, Farah N, Voysey, Merryn, Luby, Stephen, Kang, Gagandeep, Andrews, Jason, Pollard, Andrew J, John, Jacob, Garrett, Denise, Marks, Florian, Carey, Megan E, Carey, Megan E, MacWright, William R, Im, Justin, Meiring, James E, Gibani, Malick M, Park, Se Eun, Longley, Ashley, Jeon, Hyon Jin, Hemlock, Caitlin, Yu, Alexander T, Soura, Abdramane, Aiemjoy, Kristen, Owusu-Dabo, Ellis, Terferi, Mekonnen, Islam, Sahidul, Lunguya, Octavie, Jacobs, Jan, Gordon, Melita, Dolecek, Christiane, Baker, Stephen, Pitzer, Virginia E, Yousafzai, Mohammad Tahir, Tonks, Susan, Clemens, John D, Date, Kashmira, Qadri, Firdausi, Heyderman, Robert S, Saha, Samir K, Basnyat, Buddha, Okeke, Iruka N, Qamar, Farah N, Voysey, Merryn, Luby, Stephen, Kang, Gagandeep, Andrews, Jason, Pollard, Andrew J, John, Jacob, Garrett, Denise, and Marks, Florian

Abstract

Building on previous multicountry surveillance studies of typhoid and others salmonelloses such as the Diseases of the Most Impoverished program and the Typhoid Surveillance in Africa Project, several ongoing blood culture surveillance studies are generating important data about incidence, severity, transmission, and clinical features of invasive Salmonella infections in sub-Saharan Africa and South Asia. These studies are also characterizing drug resistance patterns in their respective study sites. Each study answers a different set of research questions and employs slightly different methodologies, and the geographies under surveillance differ in size, population density, physician practices, access to healthcare facilities, and access to microbiologically safe water and improved sanitation. These differences in part reflect the heterogeneity of the epidemiology of invasive salmonellosis globally, and thus enable generation of data that are useful to policymakers in decision-making for the introduction of typhoid conjugate vaccines (TCVs). Moreover, each study is evaluating the large-scale deployment of TCVs, and may ultimately be used to assess post-introduction vaccine impact. The data generated by these studies will also be used to refine global disease burden estimates. It is important to ensure that lessons learned from these studies not only inform vaccination policy, but also are incorporated into sustainable, low-cost, integrated vaccine-preventable disease surveillance systems.

Published
2020

7. Epidemic dynamics of respiratory syncytial virus in current and future climates.

Author

Baker, Rachel E, Baker, Rachel E, Mahmud, Ayesha S, Wagner, Caroline E, Yang, Wenchang, Pitzer, Virginia E, Viboud, Cecile, Vecchi, Gabriel A, Metcalf, C Jessica E, Grenfell, Bryan T, Baker, Rachel E, Baker, Rachel E, Mahmud, Ayesha S, Wagner, Caroline E, Yang, Wenchang, Pitzer, Virginia E, Viboud, Cecile, Vecchi, Gabriel A, Metcalf, C Jessica E, and Grenfell, Bryan T

Abstract

A key question for infectious disease dynamics is the impact of the climate on future burden. Here, we evaluate the climate drivers of respiratory syncytial virus (RSV), an important determinant of disease in young children. We combine a dataset of county-level observations from the US with state-level observations from Mexico, spanning much of the global range of climatological conditions. Using a combination of nonlinear epidemic models with statistical techniques, we find consistent patterns of climate drivers at a continental scale explaining latitudinal differences in the dynamics and timing of local epidemics. Strikingly, estimated effects of precipitation and humidity on transmission mirror prior results for influenza. We couple our model with projections for future climate, to show that temperature-driven increases to humidity may lead to a northward shift in the dynamic patterns observed and that the likelihood of severe outbreaks of RSV hinges on projections for extreme rainfall.

Published
2019

8. Heterogeneous susceptibility to rotavirus infection and gastroenteritis in two birth cohort studies: Parameter estimation and epidemiological implications.

Author

Lewnard, Joseph A, Viboud, Cecile1, Lewnard, Joseph A, Lopman, Benjamin A, Parashar, Umesh D, Bennett, Aisleen, Bar-Zeev, Naor, Cunliffe, Nigel A, Samuel, Prasanna, Guerrero, M Lourdes, Ruiz-Palacios, Guillermo, Kang, Gagandeep, Pitzer, Virginia E, Lewnard, Joseph A, Viboud, Cecile1, Lewnard, Joseph A, Lopman, Benjamin A, Parashar, Umesh D, Bennett, Aisleen, Bar-Zeev, Naor, Cunliffe, Nigel A, Samuel, Prasanna, Guerrero, M Lourdes, Ruiz-Palacios, Guillermo, Kang, Gagandeep, and Pitzer, Virginia E

Abstract

Cohort studies, randomized trials, and post-licensure studies have reported reduced natural and vaccine-derived protection against rotavirus gastroenteritis (RVGE) in low- and middle-income countries. While susceptibility of children to rotavirus is known to vary within and between settings, implications for estimation of immune protection are not well understood. We sought to re-estimate naturally-acquired protection against rotavirus infection and RVGE, and to understand how differences in susceptibility among children impacted estimates. We re-analyzed data from studies conducted in Mexico City, Mexico and Vellore, India. Cumulatively, 573 rotavirus-unvaccinated children experienced 1418 rotavirus infections and 371 episodes of RVGE over 17,636 child-months. We developed a model that characterized susceptibility to rotavirus infection and RVGE among children, accounting for aspects of the natural history of rotavirus and differences in transmission rates between settings. We tested whether model-generated susceptibility measurements were associated with demographic and anthropometric factors, and with the severity of RVGE symptoms. We identified greater variation in susceptibility to rotavirus infection and RVGE in Vellore than in Mexico City. In both cohorts, susceptibility to rotavirus infection and RVGE were associated with male sex, lower birth weight, lower maternal education, and having fewer siblings; within Vellore, susceptibility was also associated with lower socioeconomic status. Children who were more susceptible to rotavirus also experienced higher rates of rotavirus-negative diarrhea, and higher risk of moderate-to-severe symptoms when experiencing RVGE. Simulations suggested that discrepant estimates of naturally-acquired immunity against RVGE can be attributed, in part, to between-setting differences in susceptibility of children, but result primarily from the interaction of transmission rates with age-dependent risk for infections to cause RVGE.

Published
2019

9. Epidemic dynamics of respiratory syncytial virus in current and future climates.

Author

Baker, Rachel E, Baker, Rachel E, Mahmud, Ayesha S, Wagner, Caroline E, Yang, Wenchang, Pitzer, Virginia E, Viboud, Cecile, Vecchi, Gabriel A, Metcalf, C Jessica E, Grenfell, Bryan T, Baker, Rachel E, Baker, Rachel E, Mahmud, Ayesha S, Wagner, Caroline E, Yang, Wenchang, Pitzer, Virginia E, Viboud, Cecile, Vecchi, Gabriel A, Metcalf, C Jessica E, and Grenfell, Bryan T

Abstract

A key question for infectious disease dynamics is the impact of the climate on future burden. Here, we evaluate the climate drivers of respiratory syncytial virus (RSV), an important determinant of disease in young children. We combine a dataset of county-level observations from the US with state-level observations from Mexico, spanning much of the global range of climatological conditions. Using a combination of nonlinear epidemic models with statistical techniques, we find consistent patterns of climate drivers at a continental scale explaining latitudinal differences in the dynamics and timing of local epidemics. Strikingly, estimated effects of precipitation and humidity on transmission mirror prior results for influenza. We couple our model with projections for future climate, to show that temperature-driven increases to humidity may lead to a northward shift in the dynamic patterns observed and that the likelihood of severe outbreaks of RSV hinges on projections for extreme rainfall.

Published
2019

12. Identifying climate drivers of infectious disease dynamics: recent advances and challenges ahead.

Author

Metcalf, C Jessica E, Metcalf, C Jessica E, Walter, Katharine S, Wesolowski, Amy, Buckee, Caroline O, Shevliakova, Elena, Tatem, Andrew J, Boos, William R, Weinberger, Daniel M, Pitzer, Virginia E, Metcalf, C Jessica E, Metcalf, C Jessica E, Walter, Katharine S, Wesolowski, Amy, Buckee, Caroline O, Shevliakova, Elena, Tatem, Andrew J, Boos, William R, Weinberger, Daniel M, and Pitzer, Virginia E

Abstract

Climate change is likely to profoundly modulate the burden of infectious diseases. However, attributing health impacts to a changing climate requires being able to associate changes in infectious disease incidence with the potentially complex influences of climate. This aim is further complicated by nonlinear feedbacks inherent in the dynamics of many infections, driven by the processes of immunity and transmission. Here, we detail the mechanisms by which climate drivers can shape infectious disease incidence, from direct effects on vector life history to indirect effects on human susceptibility, and detail the scope of variation available with which to probe these mechanisms. We review approaches used to evaluate and quantify associations between climate and infectious disease incidence, discuss the array of data available to tackle this question, and detail remaining challenges in understanding the implications of climate change for infectious disease incidence. We point to areas where synthesis between approaches used in climate science and infectious disease biology provide potential for progress.

Published
2017

13. The burden of typhoid fever in low- and middle-income countries: A meta-regression approach.

Author

Antillón, Marina, Antillón, Marina, Warren, Joshua L, Crawford, Forrest W, Weinberger, Daniel M, Kürüm, Esra, Pak, Gi Deok, Marks, Florian, Pitzer, Virginia E, Antillón, Marina, Antillón, Marina, Warren, Joshua L, Crawford, Forrest W, Weinberger, Daniel M, Kürüm, Esra, Pak, Gi Deok, Marks, Florian, and Pitzer, Virginia E

Abstract

BackgroundUpcoming vaccination efforts against typhoid fever require an assessment of the baseline burden of disease in countries at risk. There are no typhoid incidence data from most low- and middle-income countries (LMICs), so model-based estimates offer insights for decision-makers in the absence of readily available data.MethodsWe developed a mixed-effects model fit to data from 32 population-based studies of typhoid incidence in 22 locations in 14 countries. We tested the contribution of economic and environmental indices for predicting typhoid incidence using a stochastic search variable selection algorithm. We performed out-of-sample validation to assess the predictive performance of the model.ResultsWe estimated that 17.8 million cases of typhoid fever occur each year in LMICs (95% credible interval: 6.9-48.4 million). Central Africa was predicted to experience the highest incidence of typhoid, followed by select countries in Central, South, and Southeast Asia. Incidence typically peaked in the 2-4 year old age group. Models incorporating widely available economic and environmental indicators were found to describe incidence better than null models.ConclusionsRecent estimates of typhoid burden may under-estimate the number of cases and magnitude of uncertainty in typhoid incidence. Our analysis permits prediction of overall as well as age-specific incidence of typhoid fever in LMICs, and incorporates uncertainty around the model structure and estimates of the predictors. Future studies are needed to further validate and refine model predictions and better understand year-to-year variation in cases.

Published
2017

14. Identifying climate drivers of infectious disease dynamics: recent advances and challenges ahead.

Author

Metcalf, C Jessica E, Metcalf, C Jessica E, Walter, Katharine S, Wesolowski, Amy, Buckee, Caroline O, Shevliakova, Elena, Tatem, Andrew J, Boos, William R, Weinberger, Daniel M, Pitzer, Virginia E, Metcalf, C Jessica E, Metcalf, C Jessica E, Walter, Katharine S, Wesolowski, Amy, Buckee, Caroline O, Shevliakova, Elena, Tatem, Andrew J, Boos, William R, Weinberger, Daniel M, and Pitzer, Virginia E

Abstract

Climate change is likely to profoundly modulate the burden of infectious diseases. However, attributing health impacts to a changing climate requires being able to associate changes in infectious disease incidence with the potentially complex influences of climate. This aim is further complicated by nonlinear feedbacks inherent in the dynamics of many infections, driven by the processes of immunity and transmission. Here, we detail the mechanisms by which climate drivers can shape infectious disease incidence, from direct effects on vector life history to indirect effects on human susceptibility, and detail the scope of variation available with which to probe these mechanisms. We review approaches used to evaluate and quantify associations between climate and infectious disease incidence, discuss the array of data available to tackle this question, and detail remaining challenges in understanding the implications of climate change for infectious disease incidence. We point to areas where synthesis between approaches used in climate science and infectious disease biology provide potential for progress.

Published
2017

15. The burden of typhoid fever in low- and middle-income countries: A meta-regression approach.

Author

Antillón, Marina, Carvalho, Marilia Sá1, Antillón, Marina, Warren, Joshua L, Crawford, Forrest W, Weinberger, Daniel M, Kürüm, Esra, Pak, Gi Deok, Marks, Florian, Pitzer, Virginia E, Antillón, Marina, Carvalho, Marilia Sá1, Antillón, Marina, Warren, Joshua L, Crawford, Forrest W, Weinberger, Daniel M, Kürüm, Esra, Pak, Gi Deok, Marks, Florian, and Pitzer, Virginia E

Abstract

BackgroundUpcoming vaccination efforts against typhoid fever require an assessment of the baseline burden of disease in countries at risk. There are no typhoid incidence data from most low- and middle-income countries (LMICs), so model-based estimates offer insights for decision-makers in the absence of readily available data.MethodsWe developed a mixed-effects model fit to data from 32 population-based studies of typhoid incidence in 22 locations in 14 countries. We tested the contribution of economic and environmental indices for predicting typhoid incidence using a stochastic search variable selection algorithm. We performed out-of-sample validation to assess the predictive performance of the model.ResultsWe estimated that 17.8 million cases of typhoid fever occur each year in LMICs (95% credible interval: 6.9-48.4 million). Central Africa was predicted to experience the highest incidence of typhoid, followed by select countries in Central, South, and Southeast Asia. Incidence typically peaked in the 2-4 year old age group. Models incorporating widely available economic and environmental indicators were found to describe incidence better than null models.ConclusionsRecent estimates of typhoid burden may under-estimate the number of cases and magnitude of uncertainty in typhoid incidence. Our analysis permits prediction of overall as well as age-specific incidence of typhoid fever in LMICs, and incorporates uncertainty around the model structure and estimates of the predictors. Future studies are needed to further validate and refine model predictions and better understand year-to-year variation in cases.

Published
2017

16. The importance of thinking beyond the water-supply in cholera epidemics: A historical urban case-study.

Author

Phelps, Matthew D, Vinetz, Joseph M1, Phelps, Matthew D, Azman, Andrew S, Lewnard, Joseph A, Antillón, Marina, Simonsen, Lone, Andreasen, Viggo, Jensen, Peter KM, Pitzer, Virginia E, Phelps, Matthew D, Vinetz, Joseph M1, Phelps, Matthew D, Azman, Andrew S, Lewnard, Joseph A, Antillón, Marina, Simonsen, Lone, Andreasen, Viggo, Jensen, Peter KM, and Pitzer, Virginia E

Abstract

BACKGROUND:Planning interventions to respond to cholera epidemics requires an understanding of the major transmission routes. Interrupting short-cycle (household, foodborne) transmission may require different approaches as compared long-cycle (environmentally-mediated/waterborne) transmission. However, differentiating the relative contribution of short- and long-cycle routes has remained difficult, and most cholera outbreak control efforts focus on interrupting long-cycle transmission. Here we use high-resolution epidemiological and municipal infrastructure data from a cholera outbreak in 1853 Copenhagen to explore the relative contribution of short- and long-cycle transmission routes during a major urban epidemic. METHODOLOGY/PRINCIPAL FINDINGS:We fit a spatially explicit time-series meta-population model to 6,552 physician-reported cholera cases from Copenhagen in 1853. We estimated the contribution of long-cycle waterborne transmission between neighborhoods using historical municipal water infrastructure data, fitting the force of infection from hydraulic flow, then comparing model performance. We found the epidemic was characterized by considerable transmission heterogeneity. Some neighborhoods acted as localized transmission hotspots, while other neighborhoods were less affected or important in driving the epidemic. We found little evidence to support long-cycle transmission between hydrologically-connected neighborhoods. Collectively, these findings suggest short-cycle transmission was significant. CONCLUSIONS/SIGNIFICANCE:Spatially targeted cholera interventions, such as reactive vaccination or sanitation/hygiene campaigns in hotspot neighborhoods, would likely have been more effective in this epidemic than control measures aimed at interrupting long-cycle transmission, such as improving municipal water quality. We recommend public health planners consider programs aimed at interrupting short-cycle transmission as essential tools in the cholera control arsena

Published
2017

17. Antimicrobial Resistance Risks of Cholera Prophylaxis for United Nations Peacekeepers.

Author

Kunkel, Amber, Kunkel, Amber, Lewnard, Joseph A, Pitzer, Virginia E, Cohen, Ted, Kunkel, Amber, Kunkel, Amber, Lewnard, Joseph A, Pitzer, Virginia E, and Cohen, Ted

Abstract

More than 5 years after a United Nations peacekeeping battalion introduced cholera to Haiti, over 150,000 peacekeepers continue to be deployed annually from countries where cholera is endemic. The United Nations has thus far declined to provide antimicrobial chemoprophylaxis to peacekeepers, a policy based largely on concerns that the risks of drug resistance generation and spread would outweigh the potential benefits of preventing future cholera importations. In this study, we sought to better understand the relative benefits and risks of cholera chemoprophylaxis for peacekeepers in terms of antibiotic resistance. Using a stochastic model to quantify the potential impact of chemoprophylaxis on importation and transmission of drug-resistant and drug-sensitive Vibrio cholerae, we found that chemoprophylaxis would decrease the probability of cholera importation but would increase the expected number of drug-resistant infections if an importation event were to occur. Despite this potential increase, we found that at least 10 drug-sensitive infections would likely be averted per excess drug-resistant infection under a wide range of assumptions about the underlying prevalence of drug resistance and risk of acquired resistance. Given these findings, policymakers should reconsider whether the potential resistance risks of providing antimicrobial chemoprophylaxis to peacekeepers are sufficient to outweigh the anticipated benefits.

Published
2017

18. Naturally Acquired Immunity Against Rotavirus Infection and Gastroenteritis in Children: Paired Reanalyses of Birth Cohort Studies.

Author

Lewnard, Joseph A, Lewnard, Joseph A, Lopman, Benjamin A, Parashar, Umesh D, Bar-Zeev, Naor, Samuel, Prasanna, Guerrero, M Lourdes, Ruiz-Palacios, Guillermo M, Kang, Gagandeep, Pitzer, Virginia E, Lewnard, Joseph A, Lewnard, Joseph A, Lopman, Benjamin A, Parashar, Umesh D, Bar-Zeev, Naor, Samuel, Prasanna, Guerrero, M Lourdes, Ruiz-Palacios, Guillermo M, Kang, Gagandeep, and Pitzer, Virginia E

Abstract

BackgroundObservational studies in socioeconomically distinct populations have yielded conflicting conclusions about the strength of naturally acquired immunity against rotavirus gastroenteritis (RVGE), mirroring vaccine underperformance in low-income countries. We revisited birth cohort studies to understand naturally acquired protection against rotavirus infection and RVGE.MethodsWe reanalyzed data from 200 Mexican and 373 Indian children followed from birth to 2 and 3 years of age, respectively. We reassessed protection against RVGE, decomposing the incidence rate into the rate of rotavirus infection and the risk of RVGE given infection, and tested for serum antibody correlates of protection using regression models.ResultsRisk for primary, secondary, and subsequent infections to cause RVGE decreased per log-month of age by 28% (95% confidence interval [CI], 12%-41%), 69% (95% CI, 30%-86%), and 64% (95% CI, -186% to 95%), respectively, in Mexico City, and by 10% (95% CI, -1% to 19%), 51% (95% CI, 41%-59%) and 67% (95% CI, 57%-75%), respectively, in Vellore. Elevated serum immunoglobulin A and immunoglobulin G titers were associated with partial protection against rotavirus infection. Associations between older age and reduced risk for RVGE or moderate-to-severe RVGE given infection persisted after controlling for antibody levels.ConclusionsDissimilar estimates of protection against RVGE may be due in part to age-related, antibody-independent risk for rotavirus infections to cause RVGE.

Published
2017

19. The importance of thinking beyond the water-supply in cholera epidemics:A historical urban case-study

Author

Phelps, Matthew D., Azman, Andrew S., Lewnard, Joseph A., Antillón, Marina, Simonsen, Lone, Andreasen, Viggo, Jensen, Peter K. M., Pitzer, Virginia E., Phelps, Matthew D., Azman, Andrew S., Lewnard, Joseph A., Antillón, Marina, Simonsen, Lone, Andreasen, Viggo, Jensen, Peter K. M., and Pitzer, Virginia E.

Abstract

Background: Planning interventions to respond to cholera epidemics requires an understanding of the major transmission routes. Interrupting short-cycle (household, foodborne) transmission may require different approaches as compared long-cycle (environmentally-mediated/waterborne) transmission. However, differentiating the relative contribution of short- and long-cycle routes has remained difficult, and most cholera outbreak control efforts focus on interrupting long-cycle transmission. Here we use high-resolution epidemiological and municipal infrastructure data from a cholera outbreak in 1853 Copenhagen to explore the relative contribution of short- and long-cycle transmission routes during a major urban epidemic. Methodology/Principal findings: We fit a spatially explicit time-series meta-population model to 6,552 physician-reported cholera cases from Copenhagen in 1853. We estimated the contribution of long-cycle waterborne transmission between neighborhoods using historical municipal water infrastructure data, fitting the force of infection from hydraulic flow, then comparing model performance. We found the epidemic was characterized by considerable transmission heterogeneity. Some neighborhoods acted as localized transmission hotspots, while other neighborhoods were less affected or important in driving the epidemic. We found little evidence to support long-cycle transmission between hydrologically-connected neighborhoods. Collectively, these findings suggest short-cycle transmission was significant. Conclusions/Significance: Spatially targeted cholera interventions, such as reactive vaccination or sanitation/hygiene campaigns in hotspot neighborhoods, would likely have been more effective in this epidemic than control measures aimed at interrupting long-cycle transmission, such as improving municipal water quality. We recommend public health planners consider programs aimed at interrupting short-cycle transmission as essential to, Background: Planning interventions to respond to cholera epidemics requires an understanding of the major transmission routes. Interrupting short-cycle (household, foodborne) transmission may require different approaches as compared long-cycle (environmentally-mediated/waterborne) transmission. However, differentiating the relative contribution of short- and long-cycle routes has remained difficult, and most cholera outbreak control efforts focus on interrupting long-cycle transmission. Here we use high-resolution epidemiological and municipal infrastructure data from a cholera outbreak in 1853 Copenhagen to explore the relative contribution of short- and long-cycle transmission routes during a major urban epidemic. Methodology/Principal findings: We fit a spatially explicit time-series meta-population model to 6,552 physician-reported cholera cases from Copenhagen in 1853. We estimated the contribution of long-cycle waterborne transmission between neighborhoods using historical municipal water infrastructure data, fitting the force of infection from hydraulic flow, then comparing model performance. We found the epidemic was characterized by considerable transmission heterogeneity. Some neighborhoods acted as localized transmission hotspots, while other neighborhoods were less affected or important in driving the epidemic. We found little evidence to support long-cycle transmission between hydrologically-connected neighborhoods. Collectively, these findings suggest short-cycle transmission was significant. Conclusions/Significance: Spatially targeted cholera interventions, such as reactive vaccination or sanitation/hygiene campaigns in hotspot neighborhoods, would likely have been more effective in this epidemic than control measures aimed at interrupting long-cycle transmission, such as improving municipal water quality. We recommend public health planners consider programs aimed at interrupting short-cycle transmission as essential to

Published
2017

20. The importance of thinking beyond the water-supply in cholera epidemics:A historical urban case-study

Author

Phelps, Matthew D., Azman, Andrew S., Lewnard, Joseph A., Antillón, Marina, Simonsen, Lone, Andreasen, Viggo, Jensen, Peter K. M., Pitzer, Virginia E., Phelps, Matthew D., Azman, Andrew S., Lewnard, Joseph A., Antillón, Marina, Simonsen, Lone, Andreasen, Viggo, Jensen, Peter K. M., and Pitzer, Virginia E.

Abstract

Background: Planning interventions to respond to cholera epidemics requires an understanding of the major transmission routes. Interrupting short-cycle (household, foodborne) transmission may require different approaches as compared long-cycle (environmentally-mediated/waterborne) transmission. However, differentiating the relative contribution of short- and long-cycle routes has remained difficult, and most cholera outbreak control efforts focus on interrupting long-cycle transmission. Here we use high-resolution epidemiological and municipal infrastructure data from a cholera outbreak in 1853 Copenhagen to explore the relative contribution of short- and long-cycle transmission routes during a major urban epidemic. Methodology/Principal findings: We fit a spatially explicit time-series meta-population model to 6,552 physician-reported cholera cases from Copenhagen in 1853. We estimated the contribution of long-cycle waterborne transmission between neighborhoods using historical municipal water infrastructure data, fitting the force of infection from hydraulic flow, then comparing model performance. We found the epidemic was characterized by considerable transmission heterogeneity. Some neighborhoods acted as localized transmission hotspots, while other neighborhoods were less affected or important in driving the epidemic. We found little evidence to support long-cycle transmission between hydrologically-connected neighborhoods. Collectively, these findings suggest short-cycle transmission was significant. Conclusions/Significance: Spatially targeted cholera interventions, such as reactive vaccination or sanitation/hygiene campaigns in hotspot neighborhoods, would likely have been more effective in this epidemic than control measures aimed at interrupting long-cycle transmission, such as improving municipal water quality. We recommend public health planners consider programs aimed at interrupting short-cycle transmission as essential to, Background: Planning interventions to respond to cholera epidemics requires an understanding of the major transmission routes. Interrupting short-cycle (household, foodborne) transmission may require different approaches as compared long-cycle (environmentally-mediated/waterborne) transmission. However, differentiating the relative contribution of short- and long-cycle routes has remained difficult, and most cholera outbreak control efforts focus on interrupting long-cycle transmission. Here we use high-resolution epidemiological and municipal infrastructure data from a cholera outbreak in 1853 Copenhagen to explore the relative contribution of short- and long-cycle transmission routes during a major urban epidemic. Methodology/Principal findings: We fit a spatially explicit time-series meta-population model to 6,552 physician-reported cholera cases from Copenhagen in 1853. We estimated the contribution of long-cycle waterborne transmission between neighborhoods using historical municipal water infrastructure data, fitting the force of infection from hydraulic flow, then comparing model performance. We found the epidemic was characterized by considerable transmission heterogeneity. Some neighborhoods acted as localized transmission hotspots, while other neighborhoods were less affected or important in driving the epidemic. We found little evidence to support long-cycle transmission between hydrologically-connected neighborhoods. Collectively, these findings suggest short-cycle transmission was significant. Conclusions/Significance: Spatially targeted cholera interventions, such as reactive vaccination or sanitation/hygiene campaigns in hotspot neighborhoods, would likely have been more effective in this epidemic than control measures aimed at interrupting long-cycle transmission, such as improving municipal water quality. We recommend public health planners consider programs aimed at interrupting short-cycle transmission as essential to

Published
2017

21. Strategies to Prevent Cholera Introduction during International Personnel Deployments: A Computational Modeling Analysis Based on the 2010 Haiti Outbreak.

Author

Lewnard, Joseph A, Lewnard, Joseph A, Antillón, Marina, Gonsalves, Gregg, Miller, Alice M, Ko, Albert I, Pitzer, Virginia E, Lewnard, Joseph A, Lewnard, Joseph A, Antillón, Marina, Gonsalves, Gregg, Miller, Alice M, Ko, Albert I, and Pitzer, Virginia E

Abstract

BackgroundIntroduction of Vibrio cholerae to Haiti during the deployment of United Nations (UN) peacekeepers in 2010 resulted in one of the largest cholera epidemics of the modern era. Following the outbreak, a UN-commissioned independent panel recommended three pre-deployment intervention strategies to minimize the risk of cholera introduction in future peacekeeping operations: screening for V. cholerae carriage, administering prophylactic antimicrobial chemotherapies, or immunizing with oral cholera vaccines. However, uncertainty regarding the effectiveness of these approaches has forestalled their implementation by the UN. We assessed how the interventions would have impacted the likelihood of the Haiti cholera epidemic.Methods and findingsWe developed a stochastic model for cholera importation and transmission, fitted to reported cases during the first weeks of the 2010 outbreak in Haiti. Using this model, we estimated that diagnostic screening reduces the probability of cases occurring by 82% (95% credible interval: 75%, 85%); however, false-positive test outcomes may hamper this approach. Antimicrobial chemoprophylaxis at time of departure and oral cholera vaccination reduce the probability of cases by 50% (41%, 57%) and by up to 61% (58%, 63%), respectively. Chemoprophylaxis beginning 1 wk before departure confers a 91% (78%, 96%) reduction independently, and up to a 98% reduction (94%, 99%) if coupled with vaccination. These results are not sensitive to assumptions about the background cholera incidence rate in the endemic troop-sending country. Further research is needed to (1) validate the sensitivity and specificity of rapid test approaches for detecting asymptomatic carriage, (2) compare prophylactic efficacy across antimicrobial regimens, and (3) quantify the impact of oral cholera vaccine on transmission from asymptomatic carriers.ConclusionsScreening, chemoprophylaxis, and vaccination are all effective strategies to prevent cholera introduction during

Published
2016

22. Time series analysis of malaria in Afghanistan: using ARIMA models to predict future trends in incidence.

Author

Anwar, Mohammad Y, Anwar, Mohammad Y, Lewnard, Joseph A, Parikh, Sunil, Pitzer, Virginia E, Anwar, Mohammad Y, Anwar, Mohammad Y, Lewnard, Joseph A, Parikh, Sunil, and Pitzer, Virginia E

Abstract

BackgroundMalaria remains endemic in Afghanistan. National control and prevention strategies would be greatly enhanced through a better ability to forecast future trends in disease incidence. It is, therefore, of interest to develop a predictive tool for malaria patterns based on the current passive and affordable surveillance system in this resource-limited region.MethodsThis study employs data from Ministry of Public Health monthly reports from January 2005 to September 2015. Malaria incidence in Afghanistan was forecasted using autoregressive integrated moving average (ARIMA) models in order to build a predictive tool for malaria surveillance. Environmental and climate data were incorporated to assess whether they improve predictive power of models.ResultsTwo models were identified, each appropriate for different time horizons. For near-term forecasts, malaria incidence can be predicted based on the number of cases in the four previous months and 12 months prior (Model 1); for longer-term prediction, malaria incidence can be predicted using the rates 1 and 12 months prior (Model 2). Next, climate and environmental variables were incorporated to assess whether the predictive power of proposed models could be improved. Enhanced vegetation index was found to have increased the predictive accuracy of longer-term forecasts.ConclusionResults indicate ARIMA models can be applied to forecast malaria patterns in Afghanistan, complementing current surveillance systems. The models provide a means to better understand malaria dynamics in a resource-limited context with minimal data input, yielding forecasts that can be used for public health planning at the national level.

Published
2016

23. Time series analysis of malaria in Afghanistan: using ARIMA models to predict future trends in incidence.

Author

Anwar, Mohammad Y, Anwar, Mohammad Y, Lewnard, Joseph A, Parikh, Sunil, Pitzer, Virginia E, Anwar, Mohammad Y, Anwar, Mohammad Y, Lewnard, Joseph A, Parikh, Sunil, and Pitzer, Virginia E

Abstract

BackgroundMalaria remains endemic in Afghanistan. National control and prevention strategies would be greatly enhanced through a better ability to forecast future trends in disease incidence. It is, therefore, of interest to develop a predictive tool for malaria patterns based on the current passive and affordable surveillance system in this resource-limited region.MethodsThis study employs data from Ministry of Public Health monthly reports from January 2005 to September 2015. Malaria incidence in Afghanistan was forecasted using autoregressive integrated moving average (ARIMA) models in order to build a predictive tool for malaria surveillance. Environmental and climate data were incorporated to assess whether they improve predictive power of models.ResultsTwo models were identified, each appropriate for different time horizons. For near-term forecasts, malaria incidence can be predicted based on the number of cases in the four previous months and 12 months prior (Model 1); for longer-term prediction, malaria incidence can be predicted using the rates 1 and 12 months prior (Model 2). Next, climate and environmental variables were incorporated to assess whether the predictive power of proposed models could be improved. Enhanced vegetation index was found to have increased the predictive accuracy of longer-term forecasts.ConclusionResults indicate ARIMA models can be applied to forecast malaria patterns in Afghanistan, complementing current surveillance systems. The models provide a means to better understand malaria dynamics in a resource-limited context with minimal data input, yielding forecasts that can be used for public health planning at the national level.

Published
2016

24. Strategies to Prevent Cholera Introduction during International Personnel Deployments: A Computational Modeling Analysis Based on the 2010 Haiti Outbreak.

Author

Lewnard, Joseph A, von Seidlein, Lorenz1, Lewnard, Joseph A, Antillón, Marina, Gonsalves, Gregg, Miller, Alice M, Ko, Albert I, Pitzer, Virginia E, Lewnard, Joseph A, von Seidlein, Lorenz1, Lewnard, Joseph A, Antillón, Marina, Gonsalves, Gregg, Miller, Alice M, Ko, Albert I, and Pitzer, Virginia E

Abstract

BackgroundIntroduction of Vibrio cholerae to Haiti during the deployment of United Nations (UN) peacekeepers in 2010 resulted in one of the largest cholera epidemics of the modern era. Following the outbreak, a UN-commissioned independent panel recommended three pre-deployment intervention strategies to minimize the risk of cholera introduction in future peacekeeping operations: screening for V. cholerae carriage, administering prophylactic antimicrobial chemotherapies, or immunizing with oral cholera vaccines. However, uncertainty regarding the effectiveness of these approaches has forestalled their implementation by the UN. We assessed how the interventions would have impacted the likelihood of the Haiti cholera epidemic.Methods and findingsWe developed a stochastic model for cholera importation and transmission, fitted to reported cases during the first weeks of the 2010 outbreak in Haiti. Using this model, we estimated that diagnostic screening reduces the probability of cases occurring by 82% (95% credible interval: 75%, 85%); however, false-positive test outcomes may hamper this approach. Antimicrobial chemoprophylaxis at time of departure and oral cholera vaccination reduce the probability of cases by 50% (41%, 57%) and by up to 61% (58%, 63%), respectively. Chemoprophylaxis beginning 1 wk before departure confers a 91% (78%, 96%) reduction independently, and up to a 98% reduction (94%, 99%) if coupled with vaccination. These results are not sensitive to assumptions about the background cholera incidence rate in the endemic troop-sending country. Further research is needed to (1) validate the sensitivity and specificity of rapid test approaches for detecting asymptomatic carriage, (2) compare prophylactic efficacy across antimicrobial regimens, and (3) quantify the impact of oral cholera vaccine on transmission from asymptomatic carriers.ConclusionsScreening, chemoprophylaxis, and vaccination are all effective strategies to prevent cholera introduction during

Published
2016

25. In-season and out-of-season variation of rotavirus genotype distribution and age of infection across 12 European countries before the introduction of routine vaccination, 2007/08 to 2012/13

Author

Hungerford, Daniel, Vivancos, Roberto, Read, Jonathan M., Pitzer, Virginia E., Cunliffe, Nigel, French, Neil, Iturriza-Gómara, Miren, EuroRotaNet network members, Hungerford, Daniel, Vivancos, Roberto, Read, Jonathan M., Pitzer, Virginia E., Cunliffe, Nigel, French, Neil, Iturriza-Gómara, Miren, and EuroRotaNet network members

Abstract

The EuroRotaNet surveillance network has conducted rotavirus genotype surveillance since 2007 in 16 European countries. Using epidemiological and microbiological data from 39,786 genotyped rotavirus-positive specimens collected between September 2007 and August 2013, we assessed genotype distribution and age distribution of rotavirus gastroenteritis (RVGE) cases in and out of peak season in 12 countries which were yet to implement routine rotavirus vaccination. In multinomial multivariate logistic regression, adjusting for year, country and age, the odds of infection caused by genotype-constellation 2 DS-1-like stains (adjusted multinomial odds ratio (aM-OR) = 1.25; 95% confidence interval (CI): 1.13-1.37; p < 0.001), mixed or untypable genotypes (aM-OR = 1.55; 95% CI: 1.40-1.72; p < 0.001) and less common genotypes (aM-OR = 2.11; 95% CI:1.78-2.51; p < 0.001) increased out of season relative to G1P[8]. Age varied significantly between seasons; the proportion of RVGE cases younger than 12 months in the United Kingdom increased from 34% in season to 39% out of season (aM-OR = 1.66; 95% CI: 1.20-2.30), and the proportion five years and older increased from 9% in season to 17% out of season (aM-OR = 2.53; 95% CI: 1.67-3.82). This study provides further understanding of the rotavirus ecology before vaccine introduction, which will help interpret epidemiological changes in countries introducing or expanding rotavirus vaccination programmes.

Published
2016

26. High turnover drives prolonged persistence of influenza in managed pig herds

Author

Pitzer, Virginia E., Aguas, Ricardo, Riley, Steven, Loeffen, Willie L.A., Wood, James L.N., Grenfell, Bryan T., Pitzer, Virginia E., Aguas, Ricardo, Riley, Steven, Loeffen, Willie L.A., Wood, James L.N., and Grenfell, Bryan T.

Abstract

Pigs have long been hypothesized to play a central role in the emergence of novel human influenza A virus (IAV) strains, by serving as mixing vessels for mammalian and avian variants. However, the key issue of viral persistence in swine populations at different scales is ill understood. We address this gap using epidemiological models calibrated against seroprevalence data from Dutch finishing pigs to estimate the 'critical herd size' (CHS) for IAV persistence. We then examine the viral phylogenetic evidence for persistence by comparing human and swine IAV. Models suggest a CHS of approximately 3000 pigs above which influenza was likely to persist, i.e. orders of magnitude lower than persistence thresholds for IAV and other acute viruses in humans. At national and regional scales, we found much stronger empirical signatures of prolonged persistence of IAV in swine compared with human populations. These striking levels of persistence in small populations are driven by the high recruitment rate of susceptible piglets, and have significant implications for management of swine and for overall patterns of genetic diversity of IAV.

Published
2016

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