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104. Mathematical modelling of emerging and re-emerging infectious diseases in human and animal populations

Author

Dorigatti, Ilaria and Pugliese, Andrea

Subjects
MED/17 MALATTIE INFETTIVE, MAT/05 ANALISI MATEMATICA, MAT/06 PROBABILITÀ E STATISTICA MATEMATICA
Abstract

The works presented in this thesis are very different one from the other but they all deal with the mathematical modelling of emerging infectious diseases which, beyond being the leitmotiv of this thesis, is an important research area in the field of epidemiology and public health. A minor but significant part of the thesis has a theoretical flavour. This part is dedicated to the mathematical analysis of the competition model between two HIV subtypes in presence of vaccination and cross-immunity proposed by Porco and Blower (1998). We find the sharp conditions under which vaccination leads to the coexistence of the strains and using arguments from bifurcation theory, draw conclusions on the equilibria stability and find that a rather unusual behaviour of histeresis-type might emerge after repeated variations of the vaccination rate within a certain range. The most of this thesis has been inspired by real outbreaks occurred in Italy over the last 10 years and is about the modelling of the 1999-2000 H7N1 avian influenza outbreak and of the 2009-2010 H1N1 pandemic influenza. From an applied perspective, parameter estimation is a key part of the modelling process and in this thesis statistical inference has been performed within both a classical framework (i.e. by maximum likelihood and least square methods) and a Bayesian setting (i.e. by Markov Chain Monte Carlo techniques). However, my contribution goes beyond the application of inferential techniques to specific case studies. The stochastic, spatially explicit, between-farm transmission model developed for the transmission of the H7N1 virus has indeed been used to simulate different control strategies and asses their relative effectiveness. The modelling framework presented here for the H1N1 pandemic in Italy constitutes a novel approach that can be applied to a variety of different infections detected by surveillance system in many countries. We have coupled a deterministic compartmental model with a statistical description of the reporting process and have taken into account for the presence of stochasticity in the surveillance system. We thus tackled some statistical challenging issues (such as the estimation of the fraction of H1N1 cases reporting influenza-like-illness symptoms) that had not been addressed before. Last, we apply different estimation methods usually adopted in epidemiology to real and simulated school outbreaks, in the attempt to explore the suitability of a specific individual-based model at reproducing empirically observed epidemics in specific social contexts.

Published
2011

105. Potential Biases in Estimating Absolute and Relative Case-Fatality Risks during Outbreaks

Author

Lipsitch, Marc, primary, Donnelly, Christl A., additional, Fraser, Christophe, additional, Blake, Isobel M., additional, Cori, Anne, additional, Dorigatti, Ilaria, additional, Ferguson, Neil M., additional, Garske, Tini, additional, Mills, Harriet L., additional, Riley, Steven, additional, Van Kerkhove, Maria D., additional, and Hernán, Miguel A., additional

Published
2015
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107. Mathematical modelling of emerging and re-emerging infectious diseases in human and animal populations

Author

Pugliese, Andrea, Dorigatti, Ilaria, Pugliese, Andrea, and Dorigatti, Ilaria

Abstract

The works presented in this thesis are very different one from the other but they all deal with the mathematical modelling of emerging infectious diseases which, beyond being the leitmotiv of this thesis, is an important research area in the field of epidemiology and public health. A minor but significant part of the thesis has a theoretical flavour. This part is dedicated to the mathematical analysis of the competition model between two HIV subtypes in presence of vaccination and cross-immunity proposed by Porco and Blower (1998). We find the sharp conditions under which vaccination leads to the coexistence of the strains and using arguments from bifurcation theory, draw conclusions on the equilibria stability and find that a rather unusual behaviour of histeresis-type might emerge after repeated variations of the vaccination rate within a certain range. The most of this thesis has been inspired by real outbreaks occurred in Italy over the last 10 years and is about the modelling of the 1999-2000 H7N1 avian influenza outbreak and of the 2009-2010 H1N1 pandemic influenza. From an applied perspective, parameter estimation is a key part of the modelling process and in this thesis statistical inference has been performed within both a classical framework (i.e. by maximum likelihood and least square methods) and a Bayesian setting (i.e. by Markov Chain Monte Carlo techniques). However, my contribution goes beyond the application of inferential techniques to specific case studies. The stochastic, spatially explicit, between-farm transmission model developed for the transmission of the H7N1 virus has indeed been used to simulate different control strategies and asses their relative effectiveness. The modelling framework presented here for the H1N1 pandemic in Italy constitutes a novel approach that can be applied to a variety of different infections detected by surveillance system in many countries. We have coupled a deterministic compartmental model with a statistical de

Published
2011

108. Exposure Patterns Driving Ebola Transmission in West Africa: A Retrospective Observational Study.

Author

null, null, Agua-Agum, Junerlyn, Ariyarajah, Archchun, Aylward, Bruce, Bawo, Luke, Bilivogui, Pepe, Blake, Isobel M., Brennan, Richard J., Cawthorne, Amy, Cleary, Eilish, Clement, Peter, Conteh, Roland, Cori, Anne, Dafae, Foday, Dahl, Benjamin, Dangou, Jean-Marie, Diallo, Boubacar, Donnelly, Christl A., Dorigatti, Ilaria, and Dye, Christopher

Subjects
EBOLA viral disease transmission, EPIDEMICS, ZOONOSES, PREVENTIVE medicine, EBOLA virus disease, RESEARCH funding, RETROSPECTIVE studies, EBOLA virus
Abstract

Background: The ongoing West African Ebola epidemic began in December 2013 in Guinea, probably from a single zoonotic introduction. As a result of ineffective initial control efforts, an Ebola outbreak of unprecedented scale emerged. As of 4 May 2015, it had resulted in more than 19,000 probable and confirmed Ebola cases, mainly in Guinea (3,529), Liberia (5,343), and Sierra Leone (10,746). Here, we present analyses of data collected during the outbreak identifying drivers of transmission and highlighting areas where control could be improved.Methods and Findings: Over 19,000 confirmed and probable Ebola cases were reported in West Africa by 4 May 2015. Individuals with confirmed or probable Ebola ("cases") were asked if they had exposure to other potential Ebola cases ("potential source contacts") in a funeral or non-funeral context prior to becoming ill. We performed retrospective analyses of a case line-list, collated from national databases of case investigation forms that have been reported to WHO. These analyses were initially performed to assist WHO's response during the epidemic, and have been updated for publication. We analysed data from 3,529 cases in Guinea, 5,343 in Liberia, and 10,746 in Sierra Leone; exposures were reported by 33% of cases. The proportion of cases reporting a funeral exposure decreased over time. We found a positive correlation (r = 0.35, p < 0.001) between this proportion in a given district for a given month and the within-district transmission intensity, quantified by the estimated reproduction number (R). We also found a negative correlation (r = -0.37, p < 0.001) between R and the district proportion of hospitalised cases admitted within ≤4 days of symptom onset. These two proportions were not correlated, suggesting that reduced funeral attendance and faster hospitalisation independently influenced local transmission intensity. We were able to identify 14% of potential source contacts as cases in the case line-list. Linking cases to the contacts who potentially infected them provided information on the transmission network. This revealed a high degree of heterogeneity in inferred transmissions, with only 20% of cases accounting for at least 73% of new infections, a phenomenon often called super-spreading. Multivariable regression models allowed us to identify predictors of being named as a potential source contact. These were similar for funeral and non-funeral contacts: severe symptoms, death, non-hospitalisation, older age, and travelling prior to symptom onset. Non-funeral exposures were strongly peaked around the death of the contact. There was evidence that hospitalisation reduced but did not eliminate onward exposures. We found that Ebola treatment units were better than other health care facilities at preventing exposure from hospitalised and deceased individuals. The principal limitation of our analysis is limited data quality, with cases not being entered into the database, cases not reporting exposures, or data being entered incorrectly (especially dates, and possible misclassifications).Conclusions: Achieving elimination of Ebola is challenging, partly because of super-spreading. Safe funeral practices and fast hospitalisation contributed to the containment of this Ebola epidemic. Continued real-time data capture, reporting, and analysis are vital to track transmission patterns, inform resource deployment, and thus hasten and maintain elimination of the virus from the human population. [ABSTRACT FROM AUTHOR]

Published
2016
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112. Author Correction: Suppression of a SARS-CoV-2 outbreak in the Italian municipality of Vo’

Author

Lavezzo, Enrico, Franchin, Elisa, Ciavarella, Constanze, Cuomo-Dannenburg, Gina, Barzon, Luisa, Del Vecchio, Claudia, Rossi, Lucia, Manganelli, Riccardo, Loregian, Arianna, Navarin, Nicolò, Abate, Davide, Sciro, Manuela, Merigliano, Stefano, De Canale, Ettore, Vanuzzo, Maria Cristina, Besutti, Valeria, Saluzzo, Francesca, Onelia, Francesco, Pacenti, Monia, Parisi, Saverio G., Carretta, Giovanni, Donato, Daniele, Flor, Luciano, Cocchio, Silvia, Masi, Giulia, Sperduti, Alessandro, Cattarino, Lorenzo, Salvador, Renato, Nicoletti, Michele, Caldart, Federico, Castelli, Gioele, Nieddu, Eleonora, Labella, Beatrice, Fava, Ludovico, Drigo, Matteo, Gaythorpe, Katy A. M., Brazzale, Alessandra R., Toppo, Stefano, Trevisan, Marta, Baldo, Vincenzo, Donnelly, Christl A., Ferguson, Neil M., Dorigatti, Ilaria, and Crisanti, Andrea

Abstract

A Correction to this paper has been published: https://doi.org/10.1038/s41586-020-2956-7.

Published
2021
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113. Modelling climate-driven spatiotemporal transmission dynamics of Aedes-borne arboviruses

Author

Glover, Andrew Charles, Ferguson, Neil Morris, Dorigatti, Ilaria, and Woolhouse, Mark Edward John

Abstract

The distribution of Aedes spp. mosquitoes and the diseases they vector is heavily influenced by climate. A large body of work has previously characterised the role of temperature on various mosquito life-history traits. However, given these are largely derived from laboratory-studies, there is ongoing uncertainty surrounding whether these can be directly translated into field-settings. Here, a metapopulation model of Aedes-borne arbovirus transmission is presented that incorporates temperature-dependent parameters. To account for additional climate variables, existing maps of dengue force of infection are utilised to calibrate location-specific mosquito carrying capacities, enabling a background level of environmental suitability to be accounted for. The development process of the model is initially described in detail. Key model features are highlighted, such as stability criteria and spatial structure. A thorough sensitivity analysis of previous proposed thermal responses of mosquito life history traits is also conducted. The model is applied to both endemic and epidemic contexts, with particular focus on dengue and Zika in Colombia. Through these applications, it is demonstrated that the temperature dependency of the model can mechanistically explain the increased risk of Aedes-borne arbovirus outbreaks that are associated with El Nino-driven temperature patterns. A novel statistical approach is also developed to aid model fitting in highly stochastic systems, which has the potential to be applied in various contexts aside from infectious disease modelling.

Published
2023
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114. [Untitled]

Author

Cori, Anne, Donnelly, Christl A., Dorigatti, Ilaria, Ferguson, Neil M., Fraser, Christophe, Garske, Tini, Jombart, Thibaut, Nedjati-Gilani, Gemma, Nouvellet, Pierre, Riley, Steven, Maria Van Kerkhove, Mills, Harriet, Blake, Isobel M., Medical Research Council (MRC), and National Institute for Health Research

Subjects
Life Sciences & Biomedicine - Other Topics, Cost effectiveness, outbreak response, Communicable Diseases, Emerging, epidemic, COST-EFFECTIVENESS, 0302 clinical medicine, West African Ebola epidemic, 030212 general & internal medicine, WEST-AFRICA, education.field_of_study, public health, Articles, 11 Medical And Health Sciences, Checklist, 3. Good health, Africa, Western, data, Emerging infectious disease, HEALTH-CARE WORKERS, General Agricultural and Biological Sciences, Life Sciences & Biomedicine, VIRUS DISEASE, INFECTIOUS-DISEASE TRANSMISSION, 030231 tropical medicine, Population, DATA-COLLECTION, General Biochemistry, Genetics and Molecular Biology, Sierra leone, 03 medical and health sciences, SIERRA-LEONE, MATHEMATICAL-MODELS, INFLUENZA A/H1N1, Environmental health, Humans, mathematical modelling, Epidemics, education, Biology, Evolutionary Biology, Science & Technology, Data collection, Outbreak, Hemorrhagic Fever, Ebola, 06 Biological Sciences, Virology, Opinion Piece, Infectious disease (medical specialty), RISK-FACTORS
Abstract

Following the detection of an infectious disease outbreak, rapid epidemiological assessment is critical for guiding an effective public health response. To understand the transmission dynamics and potential impact of an outbreak, several types of data are necessary. Here we build on experience gained in the West African Ebola epidemic and prior emerging infectious disease outbreaks to set out a checklist of data needed to: (1) quantify severity and transmissibility; (2) characterize heterogeneities in transmission and their determinants; and (3) assess the effectiveness of different interventions. We differentiate data needs into individual-level data (e.g. a detailed list of reported cases), exposure data (e.g. identifying where/how cases may have been infected) and population-level data (e.g. size/demographics of the population(s) affected and when/where interventions were implemented). A remarkable amount of individual-level and exposure data was collected during the West African Ebola epidemic, which allowed the assessment of (1) and (2). However, gaps in population-level data (particularly around which interventions were applied when and where) posed challenges to the assessment of (3). Here we highlight recurrent data issues, give practical suggestions for addressing these issues and discuss priorities for improvements in data collection in future outbreaks. This article is part of the themed issue ‘The 2013–2016 West African Ebola epidemic: data, decision-making and disease control’.

115. Further Details and Sensitivity Analyses. from Heterogeneities in the case fatality ratio in the West African Ebola outbreak 2013–2016

Author

Garske, Tini, Cori, Anne, Archchun Ariyarajah, Blake, Isobel M., Dorigatti, Ilaria, Eckmanns, Tim, Fraser, Christophe, Hinsley, Wes, Jombart, Thibaut, Mills, Harriet L., Nedjati-Gilani, Gemma, Newton, Emily, Nouvellet, Pierre, Perkins, Devin, Riley, Steven, Schumacher, Dirk, Shah, Anita, Kerkhove, Maria D. Van, Dye, Christopher, Ferguson, Neil M., and Donnelly, Christl A.

Subjects
3. Good health
Abstract

Electronic Supplementary Material 3 for Garske et al, 2016, Heterogeneities in the Case Fatality Ratio in the West African Ebola Outbreak 2013 - 2016, Phil. Trans. R. Soc. B. doi: 10.1098/rstb.2016.0308.

116. Spatiotemporal variability in dengue transmission intensity in Jakarta, Indonesia

Author

O'Driscoll, Megan, Imai, Natsuko, Ferguson, Neil M, Hadinegoro, Sri Rezeki, Satari, Hindra Irawan, Tam, Clarence C, and Dorigatti, Ilaria

Subjects
Adult, Male, Adolescent, Infant, Newborn, Infant, Middle Aged, Models, Theoretical, 3. Good health, Dengue, Young Adult, Age Distribution, Spatio-Temporal Analysis, Indonesia, Child, Preschool, Disease Transmission, Infectious, Humans, Female, Cities, Child, Disease Notification, Aged
Abstract

BACKGROUND: Approximately 70% of the global burden of dengue disease occurs on the Asian continent, where many large urban centres provide optimal environments for sustained endemic transmission and periodic epidemic cycles. Jakarta, the capital of Indonesia, is a densely populated megacity with hyperendemic dengue transmission. Characterization of the spatiotemporal distribution of dengue transmission intensity is of key importance for optimal implementation of novel control and prevention programmes, including vaccination. In this paper we use mathematical models to provide the first detailed description of spatial and temporal variability in dengue transmission intensity in Jakarta. METHODOLOGY/PRINCIPAL FINDINGS: We applied catalytic models in a Bayesian framework to age-stratified dengue case notification data to estimate dengue force of infection and reporting probabilities in 42 subdistricts of Jakarta. The model was fitted to yearly and average annual data covering a 10-year period between 2008 and 2017. We estimated a long-term average annual transmission intensity of 0.130 (95%CrI: 0.129-0.131) per year in Jakarta province, ranging from 0.090 (95%CrI: 0.077-0.103) to 0.164 (95%CrI: 0.153-0.174) across subdistricts. Annual average transmission intensity in Jakarta province during the 10-year period ranged from 0.012 (95%CrI: 0.011-0.013) in 2017 to 0.124 (95%CrI: 0.121-0.128) in 2016. CONCLUSIONS/SIGNIFICANCE: While the absolute number of dengue case notifications cannot be relied upon as a measure of endemicity, the age-distribution of reported dengue cases provides valuable insights into the underlying nature of transmission. Our estimates from yearly and average annual case notification data represent the first detailed estimates of dengue transmission intensity in Jakarta's subdistricts. These will be important to consider when assessing the population-level impact and cost-effectiveness of potential control and prevention programmes in Jakarta province, such as the controlled release of Wolbachia-carrying mosquitoes and vaccination.

117. Further Details and Sensitivity Analyses. from Heterogeneities in the case fatality ratio in the West African Ebola outbreak 2013–2016

Author

Garske, Tini, Cori, Anne, Archchun Ariyarajah, Blake, Isobel M., Dorigatti, Ilaria, Eckmanns, Tim, Fraser, Christophe, Hinsley, Wes, Jombart, Thibaut, Mills, Harriet L., Nedjati-Gilani, Gemma, Newton, Emily, Nouvellet, Pierre, Perkins, Devin, Riley, Steven, Schumacher, Dirk, Shah, Anita, Kerkhove, Maria D. Van, Dye, Christopher, Ferguson, Neil M., and Donnelly, Christl A.

Subjects
3. Good health
Abstract

Electronic Supplementary Material 3 for Garske et al, 2016, Heterogeneities in the Case Fatality Ratio in the West African Ebola Outbreak 2013 - 2016, Phil. Trans. R. Soc. B. doi: 10.1098/rstb.2016.0308.

119. Additional file 1 of Response to COVID-19 in South Korea and implications for lifting stringent interventions

Author

Dighe, Amy, Cattarino, Lorenzo, Cuomo-Dannenburg, Gina, Skarp, Janetta, Imai, Natsuko, Bhatia, Sangeeta, Gaythorpe, Katy A. M., Ainslie, Kylie E. C., Baguelin, Marc, Bhatt, Samir, Adhiratha Boonyasiri, Brazeau, Nicholas F., Cooper, Laura V., Coupland, Helen, Cucunuba, Zulma, Dorigatti, Ilaria, Eales, Oliver D., Elsland, Sabine L. Van, FitzJohn, Richard G., Green, William D., Haw, David J., Hinsley, Wes, Knock, Edward, Laydon, Daniel J., Mellan, Thomas, Swapnil Mishra, Nedjati-Gilani, Gemma, Nouvellet, Pierre, Pons-Salort, Margarita, Thompson, Hayley A., H. Juliette T. Unwin, Verity, Robert, Vollmer, Michaela A. C., Walters, Caroline E., Watson, Oliver J., Whittaker, Charles, Whittles, Lilith K., Ghani, Azra C., Donnelly, Christl A., Ferguson, Neil M., and Riley, Steven

Subjects
3. Good health
Abstract

Additional file 1 : Table S1. A detailed timeline of key events and policy changes throughout the COVID-19 outbreak in South Korea. Table S2. Most recent case definitions for suspected cases and patients under investigation for COVID-19 infection (Source: MOHW, last updated June 25th). Section 2. Contact tracing of individuals – detailed protocol for contact tracing in South Korea. Figure S1. A regional breakdown of the change in epidemiological links of confirmed cases over time. Table S3. The prior means and standard deviations explored in our sensitivity analysis of the Rt estimates.

120. Additional file 1 of Response to COVID-19 in South Korea and implications for lifting stringent interventions

Author

Dighe, Amy, Cattarino, Lorenzo, Cuomo-Dannenburg, Gina, Skarp, Janetta, Imai, Natsuko, Bhatia, Sangeeta, Gaythorpe, Katy A. M., Ainslie, Kylie E. C., Baguelin, Marc, Bhatt, Samir, Adhiratha Boonyasiri, Brazeau, Nicholas F., Cooper, Laura V., Coupland, Helen, Cucunuba, Zulma, Dorigatti, Ilaria, Eales, Oliver D., Elsland, Sabine L. Van, FitzJohn, Richard G., Green, William D., Haw, David J., Hinsley, Wes, Knock, Edward, Laydon, Daniel J., Mellan, Thomas, Swapnil Mishra, Nedjati-Gilani, Gemma, Nouvellet, Pierre, Pons-Salort, Margarita, Thompson, Hayley A., H. Juliette T. Unwin, Verity, Robert, Vollmer, Michaela A. C., Walters, Caroline E., Watson, Oliver J., Whittaker, Charles, Whittles, Lilith K., Ghani, Azra C., Donnelly, Christl A., Ferguson, Neil M., and Riley, Steven

Subjects
3. Good health
Abstract

Additional file 1 : Table S1. A detailed timeline of key events and policy changes throughout the COVID-19 outbreak in South Korea. Table S2. Most recent case definitions for suspected cases and patients under investigation for COVID-19 infection (Source: MOHW, last updated June 25th). Section 2. Contact tracing of individuals – detailed protocol for contact tracing in South Korea. Figure S1. A regional breakdown of the change in epidemiological links of confirmed cases over time. Table S3. The prior means and standard deviations explored in our sensitivity analysis of the Rt estimates.

121. Heterogeneities in the case fatality ratio in the West African Ebola outbreak 2013–2016

Author

Garske, Tini, Cori, Anne, Ariyarajah, Archchun, Blake, Isobel M., Dorigatti, Ilaria, Eckmanns, Tim, Fraser, Christophe, Hinsley, Wes, Jombart, Thibaut, Mills, Harriet, Nedjati-Gilani, Gemma, Newton, Emily, Nouvellet, Pierre, Perkins, Devin, Riley, Steven, Schumacher, Dirk, Shah, Anita, Maria Van Kerkhove, Dye, Christopher, Ferguson, Neil M., and Donnelly, Christl A.

Subjects
spatial heterogeneity, Ebola virus disease, case fatality ratio, severity, Articles, Hemorrhagic Fever, Ebola, outlier detection, Liberia, World Health Organization, mortality, Sierra Leone, Humans, Guinea, Public Health, Epidemics, Research Article
Abstract

The 2013–2016 Ebola outbreak in West Africa is the largest on record with 28 616 confirmed, probable and suspected cases and 11 310 deaths officially recorded by 10 June 2016, the true burden probably considerably higher. The case fatality ratio (CFR: proportion of cases that are fatal) is a key indicator of disease severity useful for gauging the appropriate public health response and for evaluating treatment benefits, if estimated accurately. We analysed individual-level clinical outcome data from Guinea, Liberia and Sierra Leone officially reported to the World Health Organization. The overall mean CFR was 62.9% (95% CI: 61.9% to 64.0%) among confirmed cases with recorded clinical outcomes. Age was the most important modifier of survival probabilities, but country, stage of the epidemic and whether patients were hospitalized also played roles. We developed a statistical analysis to detect outliers in CFR between districts of residence and treatment centres (TCs), adjusting for known factors influencing survival and identified eight districts and three TCs with a CFR significantly different from the average. From the current dataset, we cannot determine whether the observed variation in CFR seen by district or treatment centre reflects real differences in survival, related to the quality of care or other factors or was caused by differences in reporting practices or case ascertainment. This article is part of the themed issue ‘The 2013–2016 West African Ebola epidemic: data, decision-making and disease control’.

123. Correction : the epidemiology of Mayaro virus in the Americas: A systematic review and key parameter estimates for outbreak modelling

Author

Pontificia Universidad Javeriana. Facultad de Medicina. Departamento de Epidemiología Clínica y Bioestadística, Caicedo, Edgar-Yaset, Charniga, Kelly, Rueda, Amanecer, Dorigatti, Ilaria, Mendez, Yardany, Hamlet, Arran, Carrera, Jean-Paul, Cucunubá, Zulma M., Pontificia Universidad Javeriana. Facultad de Medicina. Departamento de Epidemiología Clínica y Bioestadística, Caicedo, Edgar-Yaset, Charniga, Kelly, Rueda, Amanecer, Dorigatti, Ilaria, Mendez, Yardany, Hamlet, Arran, Carrera, Jean-Paul, and Cucunubá, Zulma M.

Abstract

La epidemiología del virus Mayaro en las Américas: una revisión sistemática y estimaciones de parámetros clave para el modelado de brotes

124. Subnational analysis and modelling of the Ebola epidemic in West Africa, 2013-2016 : application of machine learning algorithms for case fatality imputation

Author

Forna, Alpha, Donnelly, Christl, Nouvellet, Pierre, and Dorigatti, Ilaria

Abstract

Background The 2013-2016 West African Ebola epidemic has been the largest to date with more than 11,000 deaths in the affected countries. The data collected have provided more insight into the case fatality ratio (CFR) and how it varies with age and other characteristics. However, the accuracy and precision of the naïve CFR remain limited because 44% of survival outcomes were unreported. Methods Using a machine learning (MaLe) model, Boosted Regression Tree (BRT), I imputed survival outcomes (i.e. survival or death) when unreported, corrected for model imperfection to estimate the CFR without imputation, with imputation and adjusted with imputation. I used semivariogram analysis and kriging to investigate subnational heterogeneities in CFR estimates. I used simulations to evaluate the performance of various MaLe inference methods for the estimation of CFR under different outbreak data scenarios. Results The adjusted CFR estimates were 82.8% (95% CI 45%.6-85.6%) overall and 89.1% (95% CI 40.8%-91.6%), 65.6% (95% CI 61.3%-69.6%) and 79.2% (95% CI 45.4%-84.1%) for Sierra Leone, Guinea and Liberia, respectively. BRT modelling accounted for most of the spatiotemporal variation and interactions in CFR, but moderate spatial autocorrelation remained. Combining district-level CFR estimates and kriged district-level residuals provided the best linear unbiased map of CFR. Temporal autocorrelation was not observed in the district-level residuals from the BRT estimates. Finally, I observed that the performance of MaLe inference methods for CFR imputation varies under different outbreak data scenarios. Conclusions Adjusted CFR estimates improved the naïve CFR estimates obtained without imputation and were more representative. Used in conjunction with other resources, adjusted CFR estimates and the unbiased CFR maps will inform future public health response to Ebola outbreaks. I confirm that, across the board, data imputation with adjustment for the sensitivity and specificity of MaLe inference methods reduces the bias in CFR estimates.

Published
2020
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125. Refining baseline estimates of dengue transmissibility and implications for control

Author

Imai, Natsuko, Ferguson, Neil M., Cauchemez, Simon, and Dorigatti, Ilaria

Subjects
614.5
Abstract

Climate change, globalisation and increased travel, increasing urban populations, overcrowding, continued poverty, and the breakdown of public health infrastructure are among the factors contributing to the 30-fold increase in total dengue incidence in the past 50 years. Consequently, with an estimated 40% of the world's population at risk of infection, dengue is now the world's most important mosquito-borne viral infection. However estimates of dengue transmissibility and burden remain ambiguous. Since the majority of infections are asymptomatic, surveillance systems substantially underestimate true rates of infection. With advances in the development of novel control measures and the recent licensing of the Sanofi Dengvaxia® dengue vaccine, obtaining robust estimates of average dengue transmission intensity is key for estimating both the burden of disease from dengue and the likely impact of interventions. Given the highly spatially heterogeneous nature of dengue transmission, future planning, implementation, and evaluation of control programs are likely to require a spatially targeted approach. Here we collate existing age-stratified seroprevalence and incidence data and develop catalytic models to estimate the burden of dengue as quantified by the force of infection and basic reproduction number. We identified a paucity of serotype-specific age stratified seroprevalence surveys in particular but showed that non-serotype specific data could give robust estimates of baseline transmission. Chapters explore whether estimates derived from different data types are comparable. Using these estimates we mapped the estimated number of dengue cases across the globe at a high spatial resolution allowing us to assess the likely impact of targeted control measures.

Published
2016
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126. Modelling climate-driven spatiotemporal transmission dynamics of aedes-borne arboviruses

Author

Glover, Andrew Charles, Ferguson, Neil Morris, Dorigatti, Ilaria, Woolhouse, Mark Edward John, and The Dr Nina Barr PhD Studentship, The University of Edinburgh

Abstract

The distribution of Aedes spp. mosquitoes and the diseases they vector is heavily influenced by climate. A large body of work has previously characterised the role of temperature on various mosquito life-history traits. However, given these are largely derived from laboratory-studies, there is ongoing uncertainty surrounding whether these can be directly translated into field-settings. Here, a metapopulation model of Aedes-borne arbovirus transmission is presented that incorporates temperature-dependent parameters. To account for additional climate variables, existing maps of dengue force of infection are utilised to calibrate location-specific mosquito carrying capacities, enabling a background level of environmental suitability to be accounted for. The development process of the model is initially described in detail. Key model features are highlighted, such as stability criteria and spatial structure. A thorough sensitivity analysis of previous proposed thermal responses of mosquito life history traits is also conducted. The model is applied to both endemic and epidemic contexts, with particular focus on dengue and Zika in Colombia. Through these applications, it is demonstrated that the temperature dependency of the model can mechanistically explain the increased risk of Aedes-borne arbovirus outbreaks that are associated with El Nino-driven temperature patterns. A novel statistical approach is also developed to aid model fitting in highly stochastic systems, which has the potential to be applied in various contexts aside from infectious disease modelling. Open Access

Published
2022

127. After Ebola in West Africa--Unpredictable Risks, Preventable Epidemics.

Author

Agua-Agum, Junerlyn, Allegranzi, Benedetta, Ariyarajah, Archchun, Aylward, R. Bruce, Blake, Isobel M., Barboza, Philippe, Bausch, Daniel, Brennan, Richard J., Clement, Peter, Coffey, Pasqualina, Cori, Anne, Donnelly, Christl A., Dorigatti, Ilaria, Drury, Patrick, Durski, Kara, Dye, Christopher, Eckmanns, Tim, Ferguson, Neil M., Fraser, Christophe, and Garcia, Erika

Abstract

The article reports on the epidemic of the Ebola virus disease in West Africa between December 2013 to April 2016. The Ebola epidemic has reinforced understandings about the epidemiology and control of EVD, but the risk of human infection from animals and from survivors of EVD remains unpredictable. It explains that public health security in Africa depends on the resources and investment to strengthen national health systems with next generation vaccines, drugs, and diagnostics.

Published
2016
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128. West African Ebola epidemic after one year--slowing but not yet under control.

Author

Agua-Agum, Junerlyn, Ariyarajah, Archchun, Aylward, Bruce, Blake, Isobel M, Brennan, Richard, Cori, Anne, Donnelly, Christl A, Dorigatti, Ilaria, Dye, Christopher, Eckmanns, Tim, Ferguson, Neil M, Formenty, Pierre, Fraser, Christophe, Garcia, Erika, Garske, Tini, Hinsley, Wes, Holmes, David, Hugonnet, Stéphane, Iyengar, Swathi, and Jombart, Thibaut

Published
2015
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129. Ebola Virus Disease among Male and Female Persons in West Africa.

Author

Agua-Agum, Junerlyn, Ariyarajah, Archchun, Blake, Isobel M., Cori, Anne, Donnelly, Christl A., Dorigatti, Ilaria, Dye, Christopher, Eckmanns, Tim, Ferguson, Neil M., Fraser, Christophe, Garske, Tini, Hinsley, Wes, Jombart, Thibaut, Mills, Harriet L., Nedjati-Gilani, Gemma, Newton, Emily, Nouvellet, Pierre, Perkins, Devin, Riley, Steven, and Schumacher, Dirk

Subjects
*EBOLA virus disease, *SEXUAL dimorphism, *SEX factors in disease, *SYMPTOMS, *HOSPITAL care, *DEATH rate, *SEX distribution, *SURVIVAL, *EBOLA virus
Abstract

The article discusses a study on how Ebola virus disease (EVD) affects male and female persons in West Africa. The study investigated the sex-related differences in incubation period, time from symptom onset to hospitalization, and case fatality rate. It found that female patients had higher survival rate than male patients. According to the authors, the findings suggest that awareness of sex-specific differences might benefit public health measures to reduce community-based transmission.

Published
2016
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130. Heterogeneities in the case fatality ratio in the West African Ebola outbreak 2013-2016.

Author

Garske T, Cori A, Ariyarajah A, Blake IM, Dorigatti I, Eckmanns T, Fraser C, Hinsley W, Jombart T, Mills HL, Nedjati-Gilani G, Newton E, Nouvellet P, Perkins D, Riley S, Schumacher D, Shah A, Van Kerkhove MD, Dye C, Ferguson NM, and Donnelly CA

Subjects
Guinea epidemiology, Hemorrhagic Fever, Ebola mortality, Humans, Liberia epidemiology, Mortality, Public Health statistics & numerical data, Sierra Leone epidemiology, World Health Organization, Epidemics statistics & numerical data, Hemorrhagic Fever, Ebola epidemiology
Abstract

The 2013-2016 Ebola outbreak in West Africa is the largest on record with 28 616 confirmed, probable and suspected cases and 11 310 deaths officially recorded by 10 June 2016, the true burden probably considerably higher. The case fatality ratio (CFR: proportion of cases that are fatal) is a key indicator of disease severity useful for gauging the appropriate public health response and for evaluating treatment benefits, if estimated accurately. We analysed individual-level clinical outcome data from Guinea, Liberia and Sierra Leone officially reported to the World Health Organization. The overall mean CFR was 62.9% (95% CI: 61.9% to 64.0%) among confirmed cases with recorded clinical outcomes. Age was the most important modifier of survival probabilities, but country, stage of the epidemic and whether patients were hospitalized also played roles. We developed a statistical analysis to detect outliers in CFR between districts of residence and treatment centres (TCs), adjusting for known factors influencing survival and identified eight districts and three TCs with a CFR significantly different from the average. From the current dataset, we cannot determine whether the observed variation in CFR seen by district or treatment centre reflects real differences in survival, related to the quality of care or other factors or was caused by differences in reporting practices or case ascertainment.This article is part of the themed issue 'The 2013-2016 West African Ebola epidemic: data, decision-making and disease control'., (© 2017 The Authors.)

Published
2017
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131. Key data for outbreak evaluation: building on the Ebola experience.

Author

Cori A, Donnelly CA, Dorigatti I, Ferguson NM, Fraser C, Garske T, Jombart T, Nedjati-Gilani G, Nouvellet P, Riley S, Van Kerkhove MD, Mills HL, and Blake IM

Subjects
Africa, Western epidemiology, Checklist, Epidemics prevention & control, Humans, Public Health, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging prevention & control, Communicable Diseases, Emerging transmission, Communicable Diseases, Emerging virology, Hemorrhagic Fever, Ebola epidemiology, Hemorrhagic Fever, Ebola prevention & control, Hemorrhagic Fever, Ebola transmission, Hemorrhagic Fever, Ebola virology
Abstract

Following the detection of an infectious disease outbreak, rapid epidemiological assessment is critical for guiding an effective public health response. To understand the transmission dynamics and potential impact of an outbreak, several types of data are necessary. Here we build on experience gained in the West African Ebola epidemic and prior emerging infectious disease outbreaks to set out a checklist of data needed to: (1) quantify severity and transmissibility; (2) characterize heterogeneities in transmission and their determinants; and (3) assess the effectiveness of different interventions. We differentiate data needs into individual-level data (e.g. a detailed list of reported cases), exposure data (e.g. identifying where/how cases may have been infected) and population-level data (e.g. size/demographics of the population(s) affected and when/where interventions were implemented). A remarkable amount of individual-level and exposure data was collected during the West African Ebola epidemic, which allowed the assessment of (1) and (2). However, gaps in population-level data (particularly around which interventions were applied when and where) posed challenges to the assessment of (3). Here we highlight recurrent data issues, give practical suggestions for addressing these issues and discuss priorities for improvements in data collection in future outbreaks.This article is part of the themed issue 'The 2013-2016 West African Ebola epidemic: data, decision-making and disease control'., (© 2017 The Authors.)

Published
2017
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132. 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

Flasche S, Jit M, Rodríguez-Barraquer I, Coudeville L, Recker M, Koelle K, Milne G, Hladish TJ, Perkins TA, Cummings DA, Dorigatti I, Laydon DJ, España G, Kelso J, Longini I, Lourenco J, Pearson CA, Reiner RC, Mier-Y-Terán-Romero L, Vannice K, and Ferguson N

Subjects
Child, Cost-Benefit Analysis, Dengue Vaccines adverse effects, Humans, Seroepidemiologic Studies, Vaccination adverse effects, Vaccination economics, Vaccines, Attenuated adverse effects, Vaccines, Attenuated economics, Vaccines, Attenuated standards, Vaccines, Synthetic adverse effects, Vaccines, Synthetic economics, Vaccines, Synthetic standards, Dengue Vaccines economics, Dengue Vaccines standards, Models, Theoretical, Public Health, Safety, Vaccination methods
Abstract

Background: Large 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 Findings: The 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., Conclusions: Dengvaxia 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., Competing Interests: I have read the journal's policy and the authors of this manuscript have the following competing interests: LC is employed by Sanofi Pasteur. KV is a staff member of the World Health Organization. TAP and GE receive support from GlaxoSmithKline for unrelated work on dengue vaccine modelling. IL, TJH, and CABP have received travel support from Sanofi Pasteur to present other work on dengue vaccine modelling. Sanofi Pasteur has not funded any of their research and was not involved in any research decisions related to their work presented. NF gave advice to Sanofi-Pasteur and the World Health Organization on the efficacy profile and potential public health impact of Dengvaxia. He is also collaborating with Sanofi-Pasteur on secondary analyses of Dengvaxia clinical trial data. He has received no remuneration, grant income, expense payments or in-kind benefit from Sanofi-Pasteur. DATC and IRB have advised WHO on the use of the Sanofi vaccine in a number of meetings and as part of a consortium of modelers who estimated the potential impact of the vaccine. On occasion they received travel expenses for visits to WHO. They have also advised Sanofi Pasteur Ltd. on the implications their work has for use of their vaccine. They have not received any financial or in-kind payment from Sanofi. All other authors have declared that no competing interests exist.

Published
2016
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133. Benefits and risks of the Sanofi-Pasteur dengue vaccine: Modeling optimal deployment.

Author

Ferguson NM, Rodríguez-Barraquer I, Dorigatti I, Mier-Y-Teran-Romero L, Laydon DJ, and Cummings DA

Subjects
Adolescent, Child, Child, Preschool, Clinical Trials as Topic, Dengue immunology, Dengue transmission, Dengue Vaccines administration & dosage, Hospitalization, Humans, Models, Theoretical, Risk Assessment, Vaccination, Vaccines, Attenuated administration & dosage, Vaccines, Attenuated immunology, Dengue prevention & control, Dengue Vaccines immunology, Dengue Virus, Immunogenicity, Vaccine
Abstract

The first approved dengue vaccine has now been licensed in six countries. We propose that this live attenuated vaccine acts like a silent natural infection in priming or boosting host immunity. A transmission dynamic model incorporating this hypothesis fits recent clinical trial data well and predicts that vaccine effectiveness depends strongly on the age group vaccinated and local transmission intensity. Vaccination in low-transmission settings may increase the incidence of more severe "secondary-like" infection and, thus, the numbers hospitalized for dengue. In moderate transmission settings, we predict positive impacts overall but increased risks of hospitalization with dengue disease for individuals who are vaccinated when seronegative. However, in high-transmission settings, vaccination benefits both the whole population and seronegative recipients. Our analysis can help inform policy-makers evaluating this and other candidate dengue vaccines., (Copyright © 2016, American Association for the Advancement of Science.)

Published
2016
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134. EPIDEMIOLOGY. Countering the Zika epidemic in Latin America.

Author

Ferguson NM, Cucunubá ZM, Dorigatti I, Nedjati-Gilani GL, Donnelly CA, Basáñez MG, Nouvellet P, and Lessler J

Subjects
Administrative Personnel, Epidemiological Monitoring, Humans, Latin America epidemiology, World Health Organization, Zika Virus Infection transmission, Epidemics prevention & control, Zika Virus, Zika Virus Infection epidemiology, Zika Virus Infection prevention & control
Published
2016
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135. Ebola virus disease among children in West Africa.

Author

Agua-Agum J, Ariyarajah A, Blake IM, Cori A, Donnelly CA, Dorigatti I, Dye C, Eckmanns T, Ferguson NM, Fowler RA, Fraser C, Garske T, Hinsley W, Jombart T, Mills HL, Murthy S, Nedjati Gilani G, Nouvellet P, Pelletier L, Riley S, Schumacher D, Shah A, and Van Kerkhove MD

Subjects
Adolescent, Adult, Africa, Western epidemiology, Age Factors, Child, Child, Preschool, Disease Progression, Epidemics, Female, Humans, Incidence, Infant, Infant, Newborn, Male, Cost of Illness, Hemorrhagic Fever, Ebola epidemiology, Hemorrhagic Fever, Ebola mortality, Infectious Disease Incubation Period
Published
2015
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