Your search keyword '"Azman, Andrew"' showing total 13 results

1. Household transmission dynamics of seasonal human coronaviruses

Author

Quandelacy, Talia M, Hitchings, Matt D T, Lessler, Justin, Read, Jonathan M, Vukotich, Charles, Azman, Andrew S, Salje, Henrik, Zimmer, Shanta, Gao, Hongjiang, Zheteyeva, Yenlik, Uzicanin, Amra, Cummings, Derek A T, Quandelacy, Talia M, Hitchings, Matt D T, Lessler, Justin, Read, Jonathan M, Vukotich, Charles, Azman, Andrew S, Salje, Henrik, Zimmer, Shanta, Gao, Hongjiang, Zheteyeva, Yenlik, Uzicanin, Amra, and Cummings, Derek A T

Abstract

Background Household transmission studies inform how viruses spread among close contacts, but few characterize household transmission of endemic coronaviruses. Methods We used data collected from 223 households with school-age children participating in weekly disease surveillance over 2 respiratory virus seasons (December 2015 to May 2017), to describe clinical characteristics of endemic human coronaviruses (HCoV-229E, HcoV-HKU1, HcoV-NL63, HcoV-OC43) infections, and community and household transmission probabilities using a chain-binomial model correcting for missing data from untested households. Results Among 947 participants in 223 households, we observed 121 infections during the study, most commonly subtype HCoV-OC43. Higher proportions of infected children (<19 years) displayed influenza-like illness symptoms than infected adults (relative risk, 3.0; 95% credible interval [CrI], 1.5–6.9). The estimated weekly household transmission probability was 9% (95% CrI, 6–13) and weekly community acquisition probability was 7% (95% CrI, 5–10). We found no evidence for differences in community or household transmission probabilities by age or symptom status. Simulations suggest that our study was underpowered to detect such differences. Conclusions Our study highlights the need for large household studies to inform household transmission, the challenges in estimating household transmission probabilities from asymptomatic individuals, and implications for controlling endemic CoVs.

Published

2023

2. Rainfall and other meteorological factors as drivers of urban transmission of leptospirosis

Author

Azman, Andrew S., Cunha, Marcelo, Costa, Federico, Ribeiro, Guilherme S., Carvalho, Marilia S., Reis, Renato B., Nery Jr, Nivison, Pischel, Lauren, Gouveia, Edilane L., Santos, Andreia C., Queiroz, Adriano, Wunder Jr., Elsio A., Reis, Mitermayer G., Diggle, Peter J, Ko, Albert I., Azman, Andrew S., Cunha, Marcelo, Costa, Federico, Ribeiro, Guilherme S., Carvalho, Marilia S., Reis, Renato B., Nery Jr, Nivison, Pischel, Lauren, Gouveia, Edilane L., Santos, Andreia C., Queiroz, Adriano, Wunder Jr., Elsio A., Reis, Mitermayer G., Diggle, Peter J, and Ko, Albert I.

Abstract

Background: Leptospirosis is an important public health problem affecting vulnerable urban slum populations in developing country settings. However, the complex interaction of meteorological factors driving the temporal trends of leptospirosis remain incompletely understood. Methods and findings: From March 1996—March 2010, we investigated the association between the weekly incidence of leptospirosis and meteorological anomalies in the city of Salvador, Brazil by using a dynamic generalized linear model that accounted for time lags, overall trend, and seasonal variation. Our model showed an increase of leptospirosis cases associated with higher than expected rainfall, lower than expected temperature and higher than expected humidity. There was a lag of one-to-two weeks between weekly values for significant meteorological variables and leptospirosis incidence. Independent of the season, a weekly cumulative rainfall anomaly of 20 mm increased the risk of leptospirosis by 12% compared to a week following the expected seasonal pattern. Finally, over the 14-year study period, the annual incidence of leptospirosis decreased significantly by a factor of 2.7 (8.3 versus 3.0 per 100,000 people), independently of variations in climate. Conclusions: Strategies to control leptospirosis should focus on avoiding contact with contaminated sources of Leptospira as well as on increasing awareness in the population and health professionals within the short time window after low-level or extreme high-level rainfall events. Increased leptospirosis incidence was restricted to one-to-two weeks after those events suggesting that infectious Leptospira survival may be limited to short time intervals.

Published

2022

3. Building an integrated serosurveillance platform to inform public health interventions: Insights from an experts' meeting on serum biomarkers.

Author

Wiens, Kirsten E, Kamel, Mohamed Gomaa1, Wiens, Kirsten E, Jauregui, Barbara, Arnold, Benjamin F, Banke, Kathryn, Wade, Djibril, Hayford, Kyla, Costero-Saint Denis, Adriana, Hall, Robert H, Salje, Henrik, Rodriguez-Barraquer, Isabel, Azman, Andrew S, Vernet, Guy, Leung, Daniel T, Collaboration on Integrated Biomarkers Surveillance, Wiens, Kirsten E, Kamel, Mohamed Gomaa1, Wiens, Kirsten E, Jauregui, Barbara, Arnold, Benjamin F, Banke, Kathryn, Wade, Djibril, Hayford, Kyla, Costero-Saint Denis, Adriana, Hall, Robert H, Salje, Henrik, Rodriguez-Barraquer, Isabel, Azman, Andrew S, Vernet, Guy, Leung, Daniel T, and Collaboration on Integrated Biomarkers Surveillance

Abstract

The use of biomarkers to measure immune responses in serum is crucial for understanding population-level exposure and susceptibility to human pathogens. Advances in sample collection, multiplex testing, and computational modeling are transforming serosurveillance into a powerful tool for public health program design and response to infectious threats. In July 2018, 70 scientists from 16 countries met to perform a landscape analysis of approaches that support an integrated serosurveillance platform, including the consideration of issues for successful implementation. Here, we summarize the group's insights and proposed roadmap for implementation, including objectives, technical requirements, ethical issues, logistical considerations, and monitoring and evaluation.

Published

2022

4. Seroincidence of Enteric Fever, Juba, South Sudan.

Author

Aiemjoy, Kristen, Aiemjoy, Kristen, Rumunu, John, Hassen, Juma John, Wiens, Kirsten E, Garrett, Denise, Kamenskaya, Polina, Harris, Jason B, Azman, Andrew S, Teunis, Peter, Seidman, Jessica C, Wamala, Joseph F, Andrews, Jason R, Charles, Richelle C, Aiemjoy, Kristen, Aiemjoy, Kristen, Rumunu, John, Hassen, Juma John, Wiens, Kirsten E, Garrett, Denise, Kamenskaya, Polina, Harris, Jason B, Azman, Andrew S, Teunis, Peter, Seidman, Jessica C, Wamala, Joseph F, Andrews, Jason R, and Charles, Richelle C

Abstract

We applied a new serosurveillance tool to estimate typhoidal Salmonella burden using samples collected during 2020 from a population in Juba, South Sudan. By using dried blood spot testing, we found an enteric fever seroincidence rate of 30/100 person-years and cumulative incidence of 74% over a 4-year period.

Published

2022

5. Rainfall and other meteorological factors as drivers of urban transmission of leptospirosis

Author

Azman, Andrew S., Cunha, Marcelo, Costa, Federico, Ribeiro, Guilherme S., Carvalho, Marilia S., Reis, Renato B., Nery Jr, Nivison, Pischel, Lauren, Gouveia, Edilane L., Santos, Andreia C., Queiroz, Adriano, Wunder Jr., Elsio A., Reis, Mitermayer G., Diggle, Peter J, Ko, Albert I., Azman, Andrew S., Cunha, Marcelo, Costa, Federico, Ribeiro, Guilherme S., Carvalho, Marilia S., Reis, Renato B., Nery Jr, Nivison, Pischel, Lauren, Gouveia, Edilane L., Santos, Andreia C., Queiroz, Adriano, Wunder Jr., Elsio A., Reis, Mitermayer G., Diggle, Peter J, and Ko, Albert I.

Abstract

Background: Leptospirosis is an important public health problem affecting vulnerable urban slum populations in developing country settings. However, the complex interaction of meteorological factors driving the temporal trends of leptospirosis remain incompletely understood. Methods and findings: From March 1996—March 2010, we investigated the association between the weekly incidence of leptospirosis and meteorological anomalies in the city of Salvador, Brazil by using a dynamic generalized linear model that accounted for time lags, overall trend, and seasonal variation. Our model showed an increase of leptospirosis cases associated with higher than expected rainfall, lower than expected temperature and higher than expected humidity. There was a lag of one-to-two weeks between weekly values for significant meteorological variables and leptospirosis incidence. Independent of the season, a weekly cumulative rainfall anomaly of 20 mm increased the risk of leptospirosis by 12% compared to a week following the expected seasonal pattern. Finally, over the 14-year study period, the annual incidence of leptospirosis decreased significantly by a factor of 2.7 (8.3 versus 3.0 per 100,000 people), independently of variations in climate. Conclusions: Strategies to control leptospirosis should focus on avoiding contact with contaminated sources of Leptospira as well as on increasing awareness in the population and health professionals within the short time window after low-level or extreme high-level rainfall events. Increased leptospirosis incidence was restricted to one-to-two weeks after those events suggesting that infectious Leptospira survival may be limited to short time intervals.

Published

2022

6. High Hepatitis E Seroprevalence Among Displaced Persons in South Sudan.

Author

Azman, Andrew S, Azman, Andrew S, Bouhenia, Malika, Iyer, Anita S, Rumunu, John, Laku, Richard Lino, Wamala, Joseph F, Rodriguez-Barraquer, Isabel, Lessler, Justin, Gignoux, Etienne, Luquero, Francisco J, Leung, Daniel T, Gurley, Emily S, Ciglenecki, Iza, Azman, Andrew S, Azman, Andrew S, Bouhenia, Malika, Iyer, Anita S, Rumunu, John, Laku, Richard Lino, Wamala, Joseph F, Rodriguez-Barraquer, Isabel, Lessler, Justin, Gignoux, Etienne, Luquero, Francisco J, Leung, Daniel T, Gurley, Emily S, and Ciglenecki, Iza

Abstract

Large protracted outbreaks of hepatitis E virus (HEV) have been documented in displaced populations in Africa over the past decade though data are limited outside these exceptional settings. Serological studies can provide insights useful for improving surveillance and disease control. We conducted an age-stratified serological survey using samples previously collected for another research study from 206 residents of an internally displaced person camp in Juba, South Sudan. We tested serum for anti-HEV antibodies (IgM and IgG) and estimated the prevalence of recent and historical exposure to the virus. Using data on individuals' serostatus, camp arrival date, and state of origin, we used catalytic transmission models to estimate the relative risk of HEV infection in the camp compared with that in the participants' home states. The age-adjusted seroprevalence of anti-HEV IgG was 71% (95% confidence interval = 63-78), and 4% had evidence of recent exposure (IgM). We estimated HEV exposure rates to be more than 2-fold (hazard ratio = 2.3, 95% credible interval = 0.3-5.8) higher in the camp than in the participants' home states, although this difference was not statistically significant. HEV transmission may be higher than previously appreciated, even in the absence of reported cases. Improved surveillance in similar settings is needed to understand the burden of disease and minimize epidemic impact through early detection and response.

Published

2017

7. High Hepatitis E Seroprevalence Among Displaced Persons in South Sudan.

Author

Azman, Andrew S, Azman, Andrew S, Bouhenia, Malika, Iyer, Anita S, Rumunu, John, Laku, Richard Lino, Wamala, Joseph F, Rodriguez-Barraquer, Isabel, Lessler, Justin, Gignoux, Etienne, Luquero, Francisco J, Leung, Daniel T, Gurley, Emily S, Ciglenecki, Iza, Azman, Andrew S, Azman, Andrew S, Bouhenia, Malika, Iyer, Anita S, Rumunu, John, Laku, Richard Lino, Wamala, Joseph F, Rodriguez-Barraquer, Isabel, Lessler, Justin, Gignoux, Etienne, Luquero, Francisco J, Leung, Daniel T, Gurley, Emily S, and Ciglenecki, Iza

Abstract

Large protracted outbreaks of hepatitis E virus (HEV) have been documented in displaced populations in Africa over the past decade though data are limited outside these exceptional settings. Serological studies can provide insights useful for improving surveillance and disease control. We conducted an age-stratified serological survey using samples previously collected for another research study from 206 residents of an internally displaced person camp in Juba, South Sudan. We tested serum for anti-HEV antibodies (IgM and IgG) and estimated the prevalence of recent and historical exposure to the virus. Using data on individuals' serostatus, camp arrival date, and state of origin, we used catalytic transmission models to estimate the relative risk of HEV infection in the camp compared with that in the participants' home states. The age-adjusted seroprevalence of anti-HEV IgG was 71% (95% confidence interval = 63-78), and 4% had evidence of recent exposure (IgM). We estimated HEV exposure rates to be more than 2-fold (hazard ratio = 2.3, 95% credible interval = 0.3-5.8) higher in the camp than in the participants' home states, although this difference was not statistically significant. HEV transmission may be higher than previously appreciated, even in the absence of reported cases. Improved surveillance in similar settings is needed to understand the burden of disease and minimize epidemic impact through early detection and response.

Published

2017

8. Biased efficacy estimates in phase-III dengue vaccine trials due to heterogeneous exposure and differential detectability of primary infections across trial arms.

Author

España, Guido, Azman, Andrew S1, España, Guido, Hogea, Cosmina, Guignard, Adrienne, Ten Bosch, Quirine A, Morrison, Amy C, Smith, David L, Scott, Thomas W, Schmidt, Alexander, Perkins, T Alex, España, Guido, Azman, Andrew S1, España, Guido, Hogea, Cosmina, Guignard, Adrienne, Ten Bosch, Quirine A, Morrison, Amy C, Smith, David L, Scott, Thomas W, Schmidt, Alexander, and Perkins, T Alex

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

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

Author

Phelps, Matthew, Phelps, Matthew, Azman, Andrew, Lewnard, Joseph, Antillón, Marina, Simonsen, Lone, Andreasen, Viggo, Jensen, Peter, Pitzer, Virginia, Phelps, Matthew, Phelps, Matthew, Azman, Andrew, Lewnard, Joseph, Antillón, Marina, Simonsen, Lone, Andreasen, Viggo, Jensen, Peter, and Pitzer, Virginia

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 ars

Published

2017

10. 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

11. 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

12. 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

13. Dengue Virus (DENV) Neutralizing Antibody Kinetics in Children After Symptomatic Primary and Postprimary DENV Infection.

Author

Clapham, Hannah E, Clapham, Hannah E, Rodriguez-Barraquer, Isabel, Azman, Andrew S, Althouse, Benjamin M, Salje, Henrik, Gibbons, Robert V, Rothman, Alan L, Jarman, Richard G, Nisalak, Ananda, Thaisomboonsuk, Butsaya, Kalayanarooj, Siripen, Nimmannitya, Suchitra, Vaughn, David W, Green, Sharone, Yoon, In-Kyu, Cummings, Derek AT, Clapham, Hannah E, Clapham, Hannah E, Rodriguez-Barraquer, Isabel, Azman, Andrew S, Althouse, Benjamin M, Salje, Henrik, Gibbons, Robert V, Rothman, Alan L, Jarman, Richard G, Nisalak, Ananda, Thaisomboonsuk, Butsaya, Kalayanarooj, Siripen, Nimmannitya, Suchitra, Vaughn, David W, Green, Sharone, Yoon, In-Kyu, and Cummings, Derek AT

Abstract

The immune response to dengue virus (DENV) infection is complex and not fully understood. Using longitudinal data from 181 children with dengue in Thailand who were followed for up to 3 years, we describe neutralizing antibody kinetics following symptomatic DENV infection. We observed that antibody titers varied by serotype, homotypic vs heterotypic responses, and primary versus postprimary infections. The rates of change in antibody titers over time varied between primary and postprimary responses. For primary infections, titers increased from convalescence to 6 months. By comparing homotypic and heterotypic antibody titers, we saw an increase in type specificity from convalescence to 6 months for primary DENV3 infections but not primary DENV1 infections. In postprimary cases, there was a decrease in titers from convalescence up until 6 months after infection. Beginning 1 year after both primary and postprimary infections, there was evidence of increasing antibody titers, with greater increases in children with lower titers, suggesting that antibody titers were boosted due to infection and that higher levels of neutralizing antibody may be more likely to confer a sterilizing immune response. These findings may help to model virus transmission dynamics and provide baseline data to support the development of vaccines and therapeutics.

Published

2016