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1. A High-Resolution, US-scale Digital Similar of Interacting Livestock, Wild Birds, and Human Ecosystems with Applications to Multi-host Epidemic Spread

Author

Adiga, Abhijin, Chopra, Ayush, Wilson, Mandy L., Ravi, S. S., Xie, Dawen, Swarup, Samarth, Lewis, Bryan, Raskar, Ramesh, and Marathe, Madhav V.

Subjects
Computer Science - Computational Engineering, Finance, and Science
Abstract

One Health issues, such as the spread of highly pathogenic avian influenza (HPAI), present significant challenges at the intersection of human, animal, and environmental health. Recent H5N1 outbreaks underscore the need for comprehensive modeling that capture the complex interactions between various entities in these interconnected ecosystems, encompassing livestock, wild birds, and human populations. To support such efforts, we present a synthetic spatiotemporal gridded dataset for the contiguous United States, referred to as a digital similar. The methodology for constructing this digital similar involves fusing diverse datasets using statistical and optimization techniques. The livestock component includes farm-level representations of multiple livestock types -- cattle, poultry, hogs, and sheep -- including further categorization into subtypes, such as milk and beef cows, chicken, turkeys, ducks, etc. It also includes location-level data for livestock-product processing centers. Weekly abundance data for key wild bird species involved in avian flu transmission are included along with temporal networks of movements. Gridded distributions of the human population, along with demographic and occupational features, capture the placement of agricultural workers and the general population. The digital similar is verified and validated in multiple ways.This dataset aims to provide a comprehensive basis for modeling complex phenomena at the wild-domestic-human interfaces.

Published
2024

2. Wastewater-based Epidemiology for COVID-19 Surveillance and Beyond: A Survey

Author

Chen, Chen, Wang, Yunfan, Kaur, Gursharn, Adiga, Aniruddha, Espinoza, Baltazar, Venkatramanan, Srinivasan, Warren, Andrew, Lewis, Bryan, Crow, Justin, Singh, Rekha, Lorentz, Alexandra, Toney, Denise, and Marathe, Madhav

Subjects
Statistics - Applications, Physics - Physics and Society, Quantitative Biology - Populations and Evolution
Abstract

The pandemic of COVID-19 has imposed tremendous pressure on public health systems and social economic ecosystems over the past years. To alleviate its social impact, it is important to proactively track the prevalence of COVID-19 within communities. The traditional way to estimate the disease prevalence is to estimate from reported clinical test data or surveys. However, the coverage of clinical tests is often limited and the tests can be labor-intensive, requires reliable and timely results, and consistent diagnostic and reporting criteria. Recent studies revealed that patients who are diagnosed with COVID-19 often undergo fecal shedding of SARS-CoV-2 virus into wastewater, which makes wastewater-based epidemiology for COVID-19 surveillance a promising approach to complement traditional clinical testing. In this paper, we survey the existing literature regarding wastewater-based epidemiology for COVID-19 surveillance and summarize the current advances in the area. Specifically, we have covered the key aspects of wastewater sampling, sample testing, and presented a comprehensive and organized summary of wastewater data analytical methods. Finally, we provide the open challenges on current wastewater-based COVID-19 surveillance studies, aiming to encourage new ideas to advance the development of effective wastewater-based surveillance systems for general infectious diseases.

Published
2024

3. Evaluation of FluSight influenza forecasting in the 2021–22 and 2022–23 seasons with a new target laboratory-confirmed influenza hospitalizations

Author

Mathis, Sarabeth M., Webber, Alexander E., León, Tomás M., Murray, Erin L., Sun, Monica, White, Lauren A., Brooks, Logan C., Green, Alden, Hu, Addison J., Rosenfeld, Roni, Shemetov, Dmitry, Tibshirani, Ryan J., McDonald, Daniel J., Kandula, Sasikiran, Pei, Sen, Yaari, Rami, Yamana, Teresa K., Shaman, Jeffrey, Agarwal, Pulak, Balusu, Srikar, Gururajan, Gautham, Kamarthi, Harshavardhan, Prakash, B. Aditya, Raman, Rishi, Zhao, Zhiyuan, Rodríguez, Alexander, Meiyappan, Akilan, Omar, Shalina, Baccam, Prasith, Gurung, Heidi L., Suchoski, Brad T., Stage, Steve A., Ajelli, Marco, Kummer, Allisandra G., Litvinova, Maria, Ventura, Paulo C., Wadsworth, Spencer, Niemi, Jarad, Carcelen, Erica, Hill, Alison L., Loo, Sara L., McKee, Clifton D., Sato, Koji, Smith, Claire, Truelove, Shaun, Jung, Sung-mok, Lemaitre, Joseph C., Lessler, Justin, McAndrew, Thomas, Ye, Wenxuan, Bosse, Nikos, Hlavacek, William S., Lin, Yen Ting, Mallela, Abhishek, Gibson, Graham C., Chen, Ye, Lamm, Shelby M., Lee, Jaechoul, Posner, Richard G., Perofsky, Amanda C., Viboud, Cécile, Clemente, Leonardo, Lu, Fred, Meyer, Austin G., Santillana, Mauricio, Chinazzi, Matteo, Davis, Jessica T., Mu, Kunpeng, Pastore y Piontti, Ana, Vespignani, Alessandro, Xiong, Xinyue, Ben-Nun, Michal, Riley, Pete, Turtle, James, Hulme-Lowe, Chis, Jessa, Shakeel, Nagraj, V. P., Turner, Stephen D., Williams, Desiree, Basu, Avranil, Drake, John M., Fox, Spencer J., Suez, Ehsan, Cojocaru, Monica G., Thommes, Edward W., Cramer, Estee Y., Gerding, Aaron, Stark, Ariane, Ray, Evan L., Reich, Nicholas G., Shandross, Li, Wattanachit, Nutcha, Wang, Yijin, Zorn, Martha W., Aawar, Majd Al, Srivastava, Ajitesh, Meyers, Lauren A., Adiga, Aniruddha, Hurt, Benjamin, Kaur, Gursharn, Lewis, Bryan L., Marathe, Madhav, Venkatramanan, Srinivasan, Butler, Patrick, Farabow, Andrew, Ramakrishnan, Naren, Muralidhar, Nikhil, Reed, Carrie, Biggerstaff, Matthew, and Borchering, Rebecca K.

Published
2024
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5. Novel multi-cluster workflow system to support real-time HPC-enabled epidemic science: Investigating the impact of vaccine acceptance on COVID-19 spread

Author

Bhattacharya, Parantapa, Machi, Dustin, Chen, Jiangzhuo, Hoops, Stefan, Lewis, Bryan, Mortveit, Henning, Venkatramanan, Srinivasan, Wilson, Mandy L., Marathe, Achla, Porebski, Przemyslaw, Klahn, Brian, Outten, Joseph, Vullikanti, Anil, Xie, Dawen, Adiga, Abhijin, Brown, Shawn, Barrett, Christopher, and Marathe, Madhav

Published
2024
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8. Evaluation of the US COVID-19 Scenario Modeling Hub for informing pandemic response under uncertainty

Author

Howerton, Emily, Contamin, Lucie, Mullany, Luke C., Qin, Michelle, Reich, Nicholas G., Bents, Samantha, Borchering, Rebecca K., Jung, Sung-mok, Loo, Sara L., Smith, Claire P., Levander, John, Kerr, Jessica, Espino, J., van Panhuis, Willem G., Hochheiser, Harry, Galanti, Marta, Yamana, Teresa, Pei, Sen, Shaman, Jeffrey, Rainwater-Lovett, Kaitlin, Kinsey, Matt, Tallaksen, Kate, Wilson, Shelby, Shin, Lauren, Lemaitre, Joseph C., Kaminsky, Joshua, Hulse, Juan Dent, Lee, Elizabeth C., McKee, Clifton D., Hill, Alison, Karlen, Dean, Chinazzi, Matteo, Davis, Jessica T., Mu, Kunpeng, Xiong, Xinyue, Pastore y Piontti, Ana, Vespignani, Alessandro, Rosenstrom, Erik T., Ivy, Julie S., Mayorga, Maria E., Swann, Julie L., España, Guido, Cavany, Sean, Moore, Sean, Perkins, Alex, Hladish, Thomas, Pillai, Alexander, Ben Toh, Kok, Longini, Jr., Ira, Chen, Shi, Paul, Rajib, Janies, Daniel, Thill, Jean-Claude, Bouchnita, Anass, Bi, Kaiming, Lachmann, Michael, Fox, Spencer J., Meyers, Lauren Ancel, Srivastava, Ajitesh, Porebski, Przemyslaw, Venkatramanan, Srini, Adiga, Aniruddha, Lewis, Bryan, Klahn, Brian, Outten, Joseph, Hurt, Benjamin, Chen, Jiangzhuo, Mortveit, Henning, Wilson, Amanda, Marathe, Madhav, Hoops, Stefan, Bhattacharya, Parantapa, Machi, Dustin, Cadwell, Betsy L., Healy, Jessica M., Slayton, Rachel B., Johansson, Michael A., Biggerstaff, Matthew, Truelove, Shaun, Runge, Michael C., Shea, Katriona, Viboud, Cécile, and Lessler, Justin

Published
2023
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9. Potential impact of annual vaccination with reformulated COVID-19 vaccines: Lessons from the US COVID-19 scenario modeling hub

Author

Jung, Sung-mok, Loo, Sara L., Howerton, Emily, Contamin, Lucie, Smith, Claire P., Carcelén, Erica C., Yan, Katie, Bents, Samantha J., Levander, John, Espino, Jessi, Lemaitre, Joseph C., Sato, Koji, McKee, Clifton D., Hill, Alison L., Chinazzi, Matteo, Davis, Jessica T., Mu, Kunpeng, Vespignani, Alessandro, Rosenstrom, Erik T., Rodriguez-Cartes, Sebastian A., Ivy, Julie S., Mayorga, Maria E., Swann, Julie L., España, Guido, Cavany, Sean, Moore, Sean M., Perkins, T. Alex, Chen, Shi, Paul, Rajib, Janies, Daniel, Thill, Jean-Claude, Srivastava, Ajitesh, Aawar, Majd Al, Bi, Kaiming, Bandekar, Shraddha Ramdas, Bouchnita, Anass, Fox, Spencer J., Meyers, Lauren Ancel, Porebski, Przemyslaw, Venkatramanan, Srini, Adiga, Aniruddha, Hurt, Benjamin, Klahn, Brian, Outten, Joseph, Chen, Jiangzhuo, Mortveit, Henning, Wilson, Amanda, Hoops, Stefan, Bhattacharya, Parantapa, Machi, Dustin, Vullikanti, Anil, Lewis, Bryan, Marathe, Madhav, Hochheiser, Harry, Runge, Michael C., Shea, Katriona, Truelove, Shaun, Viboud, Cécile, and Lessler, Justin

Subjects
United States. National Science Foundation, United States. Food and Drug Administration, United States. Centers for Disease Control and Prevention, Epidemics -- Models -- Usage -- Forecasts and trends, Vaccination -- Usage -- Forecasts and trends -- Models, Medical research -- Models -- Forecasts and trends -- Usage, Medicine, Experimental -- Models -- Forecasts and trends -- Usage, Mortality -- Models -- Usage -- Forecasts and trends, Influenza vaccines -- Usage, Influenza -- Models -- Usage -- Forecasts and trends, Drug approval -- Models -- Usage -- Forecasts and trends, Public health -- Models -- Usage -- Forecasts and trends, Market trend/market analysis, Biological sciences
Abstract

Background Coronavirus Disease 2019 (COVID-19) continues to cause significant hospitalizations and deaths in the United States. Its continued burden and the impact of annually reformulated vaccines remain unclear. Here, we present projections of COVID-19 hospitalizations and deaths in the United States for the next 2 years under 2 plausible assumptions about immune escape (20% per year and 50% per year) and 3 possible CDC recommendations for the use of annually reformulated vaccines (no recommendation, vaccination for those aged 65 years and over, vaccination for all eligible age groups based on FDA approval). Methods and findings The COVID-19 Scenario Modeling Hub solicited projections of COVID-19 hospitalization and deaths between April 15, 2023 and April 15, 2025 under 6 scenarios representing the intersection of considered levels of immune escape and vaccination. Annually reformulated vaccines are assumed to be 65% effective against symptomatic infection with strains circulating on June 15 of each year and to become available on September 1. Age- and state-specific coverage in recommended groups was assumed to match that seen for the first (fall 2021) COVID-19 booster. State and national projections from 8 modeling teams were ensembled to produce projections for each scenario and expected reductions in disease outcomes due to vaccination over the projection period. From April 15, 2023 to April 15, 2025, COVID-19 is projected to cause annual epidemics peaking November to January. In the most pessimistic scenario (high immune escape, no vaccination recommendation), we project 2.1 million (90% projection interval (PI) [1,438,000, 4,270,000]) hospitalizations and 209,000 (90% PI [139,000, 461,000]) deaths, exceeding pre-pandemic mortality of influenza and pneumonia. In high immune escape scenarios, vaccination of those aged 65+ results in 230,000 (95% confidence interval (CI) [104,000, 355,000]) fewer hospitalizations and 33,000 (95% CI [12,000, 54,000]) fewer deaths, while vaccination of all eligible individuals results in 431,000 (95% CI: 264,000-598,000) fewer hospitalizations and 49,000 (95% CI [29,000, 69,000]) fewer deaths. Conclusions COVID-19 is projected to be a significant public health threat over the coming 2 years. Broad vaccination has the potential to substantially reduce the burden of this disease, saving tens of thousands of lives each year., Author(s): Sung-mok Jung 1, Sara L. Loo 2, Emily Howerton 3, Lucie Contamin 4, Claire P. Smith 2, Erica C. Carcelén 2, Katie Yan 3, Samantha J. Bents 5, John [...]

Published
2024
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11. Examining Deep Learning Models with Multiple Data Sources for COVID-19 Forecasting

Author

Wang, Lijing, Adiga, Aniruddha, Venkatramanan, Srinivasan, Chen, Jiangzhuo, Lewis, Bryan, and Marathe, Madhav

Subjects
Computer Science - Machine Learning, Statistics - Applications
Abstract

The COVID-19 pandemic represents the most significant public health disaster since the 1918 influenza pandemic. During pandemics such as COVID-19, timely and reliable spatio-temporal forecasting of epidemic dynamics is crucial. Deep learning-based time series models for forecasting have recently gained popularity and have been successfully used for epidemic forecasting. Here we focus on the design and analysis of deep learning-based models for COVID-19 forecasting. We implement multiple recurrent neural network-based deep learning models and combine them using the stacking ensemble technique. In order to incorporate the effects of multiple factors in COVID-19 spread, we consider multiple sources such as COVID-19 confirmed and death case count data and testing data for better predictions. To overcome the sparsity of training data and to address the dynamic correlation of the disease, we propose clustering-based training for high-resolution forecasting. The methods help us to identify the similar trends of certain groups of regions due to various spatio-temporal effects. We examine the proposed method for forecasting weekly COVID-19 new confirmed cases at county-, state-, and country-level. A comprehensive comparison between different time series models in COVID-19 context is conducted and analyzed. The results show that simple deep learning models can achieve comparable or better performance when compared with more complicated models. We are currently integrating our methods as a part of our weekly forecasts that we provide state and federal authorities.

Published
2020

12. Models for COVID-19 Pandemic: A Comparative Analysis

Author

Adiga, Aniruddha, Dubhashi, Devdatt, Lewis, Bryan, Marathe, Madhav, Venkatramanan, Srinivasan, and Vullikanti, Anil

Subjects
Quantitative Biology - Populations and Evolution, Computer Science - Artificial Intelligence
Abstract

COVID-19 pandemic represents an unprecedented global health crisis in the last 100 years. Its economic, social and health impact continues to grow and is likely to end up as one of the worst global disasters since the 1918 pandemic and the World Wars. Mathematical models have played an important role in the ongoing crisis; they have been used to inform public policies and have been instrumental in many of the social distancing measures that were instituted worldwide. In this article we review some of the important mathematical models used to support the ongoing planning and response efforts. These models differ in their use, their mathematical form and their scope.

Published
2020

13. Generating a Heterosexual Bipartite Network Embedded in Social Network

Author

Azizi, Asma, Qu, Zhuolin, Lewis, Bryan, and Mac Hyman, James

Subjects
Quantitative Biology - Quantitative Methods, Computer Science - Social and Information Networks, Physics - Physics and Society
Abstract

We describe how to generate a heterosexual network with a prescribed joint-degree distribution that is embedded in a prescribed large-scale social contact network. The structure of a sexual network plays an important role in how sexually transmitted infections (STIs) spread. Generating an ensemble of networks that mimics the real-world is crucial to evaluating robust mitigation strategies for controling STIs. Most of the current algorithms to generate sexual networks only use sexual activity data, such as the number of partners per month, to generate the sexual network. Real-world sexual networks also depend on biased mixing based on age, location, and social and work activities. We describe an approach to use a broad range of social activity data to generate possible heterosexual networks. We start with a large-scale simulation of thousands of people in a city as they go through their daily activities, including work, school, shopping, and activities at home. We extract a social network from these activities where the nodes are the people and the edges indicate a social interaction, such as working in the same location. This social network captures the correlations between people of different ages, living in different locations, their economic status, and other demographic factors. We use the social contact network to define a bipartite heterosexual network that is embedded within an extended social network. The resulting sexual network captures the biased mixing inherent in the social network, and models based on this pairing of networks can be used to investigate novel intervention strategies based on the social contacts of infected people. We illustrate the approach in a model for the spread of Chlamydia in the heterosexual network representing the young sexually active community in New Orleans.

Published
2020
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17. A Framework for Evaluating Epidemic Forecasts

Author

Tabataba, Farzaneh Sadat, Chakraborty, Prithwish, Ramakrishnan, Naren, Venkatramanan, Srinivasan, Chen, Jiangzhuo, Lewis, Bryan, and Marathe, Madhav

Subjects
Computer Science - Social and Information Networks, Physics - Physics and Society, Quantitative Biology - Populations and Evolution
Abstract

Background: Over the past few decades, numerous forecasting methods have been proposed in the field of epidemic forecasting. Such methods can be classified into different categories such as deterministic vs. probabilistic, comparative methods vs. generative methods, and so on. In some of the more popular comparative methods, researchers compare observed epidemiological data from early stages of an outbreak with the output of proposed models to forecast the future trend and prevalence of the pandemic. A significant problem in this area is the lack of standard well-defined evaluation measures to select the best algorithm among different ones, as well as for selecting the best possible configuration for a particular algorithm. Results: In this paper, we present an evaluation framework which allows for combining different features, error measures, and ranking schema to evaluate forecasts. We describe the various epidemic features (Epi-features) included to characterize the output of forecasting methods and provide suitable error measures that could be used to evaluate the accuracy of the methods with respect to these Epi-features. We focus on long-term predictions rather than short-term forecasting and demonstrate the utility of the framework by evaluating six forecasting methods for predicting influenza in the United States. Our results demonstrate that different error measures lead to different rankings even for a single Epi-feature. Further, our experimental analyses show that no single method dominates the rest in predicting all Epi-features, when evaluated across error measures. As an alternative, we provide various consensus ranking schema that summarizes individual rankings, thus accounting for different error measures. We believe that a comprehensive evaluation framework, as presented in this paper, will add value to the computational epidemiology community., Comment: Submitted to BMC infectious disease Journal, 2016. Accepted in 2017

Published
2017

18. Guided Deep List: Automating the Generation of Epidemiological Line Lists from Open Sources

Author

Ghosh, Saurav, Chakraborty, Prithwish, Lewis, Bryan L., Majumder, Maimuna S., Cohn, Emily, Brownstein, John S., Marathe, Madhav V., and Ramakrishnan, Naren

Subjects
Computer Science - Computation and Language, Computer Science - Information Retrieval
Abstract

Real-time monitoring and responses to emerging public health threats rely on the availability of timely surveillance data. During the early stages of an epidemic, the ready availability of line lists with detailed tabular information about laboratory-confirmed cases can assist epidemiologists in making reliable inferences and forecasts. Such inferences are crucial to understand the epidemiology of a specific disease early enough to stop or control the outbreak. However, construction of such line lists requires considerable human supervision and therefore, difficult to generate in real-time. In this paper, we motivate Guided Deep List, the first tool for building automated line lists (in near real-time) from open source reports of emerging disease outbreaks. Specifically, we focus on deriving epidemiological characteristics of an emerging disease and the affected population from reports of illness. Guided Deep List uses distributed vector representations (ala word2vec) to discover a set of indicators for each line list feature. This discovery of indicators is followed by the use of dependency parsing based techniques for final extraction in tabular form. We evaluate the performance of Guided Deep List against a human annotated line list provided by HealthMap corresponding to MERS outbreaks in Saudi Arabia. We demonstrate that Guided Deep List extracts line list features with increased accuracy compared to a baseline method. We further show how these automatically extracted line list features can be used for making epidemiological inferences, such as inferring demographics and symptoms-to-hospitalization period of affected individuals., Comment: This paper has been submitted to a conference

Published
2017

19. Numerical tolerance for spectral decompositions of random matrices

Author

Athreya, Avanti, Kane, Michael, Lewis, Bryan, Lubberts, Zachary, Lyzinski, Vince, Park, Youngser, Priebe, Carey E., and Tang, Minh

Subjects
Statistics - Computation, Mathematics - Numerical Analysis
Abstract

We precisely quantify the impact of statistical error in the quality of a numerical approximation to a random matrix eigendecomposition, and under mild conditions, we use this to introduce an optimal numerical tolerance for residual error in spectral decompositions of random matrices. We demonstrate that terminating an eigendecomposition algorithm when the numerical error and statistical error are of the same order results in computational savings with no loss of accuracy. We also repair a flaw in a ubiquitous termination condition, one in wide employ in several computational linear algebra implementations. We illustrate the practical consequences of our stopping criterion with an analysis of simulated and real networks. Our theoretical results and real-data examples establish that the tradeoff between statistical and numerical error is of significant import for data science., Comment: 20 pages, 2 figures

Published
2016

20. Efficient Thresholded Correlation using Truncated Singular Value Decomposition

Author

Baglama, James, Kane, Michael, Lewis, Bryan, and Poliakov, Alex

Subjects
Statistics - Computation
Abstract

Efficiently computing a subset of a correlation matrix consisting of values above a specified threshold is important to many practical applications. Real-world problems in genomics, machine learning, finance other applications can produce correlation matrices too large to explicitly form and tractably compute. Often, only values corresponding to highly-correlated vectors are of interest, and those values typically make up a small fraction of the overall correlation matrix. We present a method based on the singular value decomposition (SVD) and its relationship to the data covariance structure that can efficiently compute thresholded subsets of very large correlation matrices., Comment: 12 pages

Published
2015

21. Scatter Matrix Concordance: A Diagnostic for Regressions on Subsets of Data

Author

Kane, Michael J., Lewis, Bryan, Tatikonda, Sekhar, and Urbanek, Simon

Subjects
Statistics - Machine Learning
Abstract

Linear regression models depend directly on the design matrix and its properties. Techniques that efficiently estimate model coefficients by partitioning rows of the design matrix are increasingly popular for large-scale problems because they fit well with modern parallel computing architectures. We propose a simple measure of {\em concordance} between a design matrix and a subset of its rows that estimates how well a subset captures the variance-covariance structure of a larger data set. We illustrate the use of this measure in a heuristic method for selecting row partition sizes that balance statistical and computational efficiency goals in real-world problems.

Published
2015
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22. Impact of waning immunity against SARS-CoV-2 severity exacerbated by vaccine hesitancy.

Author

Saad-Roy, Chadi M., Morris, Sinead E., Boots, Mike, Baker, Rachel E., Lewis, Bryan L., Farrar, Jeremy, Marathe, Madhav V., Graham, Andrea L., Levin, Simon A., Wagner, Caroline E., Metcalf, C. Jessica E., and Grenfell, Bryan T.

Subjects
VACCINE hesitancy, VACCINATION status, COVID-19 pandemic, IMMUNITY
Abstract

The SARS-CoV-2 pandemic has generated a considerable number of infections and associated morbidity and mortality across the world. Recovery from these infections, combined with the onset of large-scale vaccination, have led to rapidly-changing population-level immunological landscapes. In turn, these complexities have highlighted a number of important unknowns related to the breadth and strength of immunity following recovery or vaccination. Using simple mathematical models, we investigate the medium-term impacts of waning immunity against severe disease on immuno-epidemiological dynamics. We find that uncertainties in the duration of severity-blocking immunity (imparted by either infection or vaccination) can lead to a large range of medium-term population-level outcomes (i.e. infection characteristics and immune landscapes). Furthermore, we show that epidemiological dynamics are sensitive to the strength and duration of underlying host immune responses; this implies that determining infection levels from hospitalizations requires accurate estimates of these immune parameters. More durable vaccines both reduce these uncertainties and alleviate the burden of SARS-CoV-2 in pessimistic outcomes. However, heterogeneity in vaccine uptake drastically changes immune landscapes toward larger fractions of individuals with waned severity-blocking immunity. In particular, if hesitancy is substantial, more robust vaccines have almost no effects on population-level immuno-epidemiology, even if vaccination rates are compensatorily high among vaccine-adopters. This pessimistic scenario for vaccination heterogeneity arises because those few individuals that are vaccine-adopters are so readily re-vaccinated that the duration of vaccinal immunity has no appreciable consequences on their immune status. Furthermore, we find that this effect is heightened if vaccine-hesitants have increased transmissibility (e.g. due to riskier behavior). Overall, our results illustrate the necessity to characterize both transmission-blocking and severity-blocking immune time scales. Our findings also underline the importance of developing robust next-generation vaccines with equitable mass vaccine deployment. Author summary: While the SARS-CoV-2 outbreak continues, the deployment of vaccines in many regions has blunted the severity of SARS-CoV-2 infections and decreased hospitalizations. However, the medium-term impacts of the duration of severity-blocking immunity, and its potential interactions with heterogeneous vaccine uptake (e.g. from vaccine hesitancy) or more robust vaccines, remain unknown. To titrate these effects, we use immuno-epidemiological models to examine potential future scenarios. We find that sufficient vaccine hesitancy (and correspondingly higher vaccination rates among adopters) can rapidly increase the fraction of individuals infected after waned severity-blocking immunity even when robust vaccines are deployed. This result underlines that pharmaceutical developments for broadly protective vaccines should be combined with campaigns to increase vaccine uptake globally. We also show that this fraction is highly dependent on underlying immune uncertainties, which illustrates the importance of accurately measuring immune parameters for proper prediction based on hospitalization data. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Evaluation of FluSight influenza forecasting in the 2021-22 and 2022-23 seasons with a new target laboratory-confirmed influenza hospitalizations

Author

Mathis, Sarabeth M., primary, Webber, Alexander E., additional, León, Tomás M., additional, Murray, Erin L., additional, Sun, Monica, additional, White, Lauren A., additional, Brooks, Logan C., additional, Green, Alden, additional, Hu, Addison J., additional, McDonald, Daniel J., additional, Rosenfeld, Roni, additional, Shemetov, Dmitry, additional, Tibshirani, Ryan J., additional, Kandula, Sasikiran, additional, Pei, Sen, additional, Shaman, Jeffrey, additional, Yaari, Rami, additional, Yamana, Teresa K., additional, Agarwal, Pulak, additional, Balusu, Srikar, additional, Gururajan, Gautham, additional, Kamarthi, Harshavardhan, additional, Prakash, B. Aditya, additional, Raman, Rishi, additional, Rodríguez, Alexander, additional, Zhao, Zhiyuan, additional, Meiyappan, Akilan, additional, Omar, Shalina, additional, Baccam, Prasith, additional, Gurung, Heidi L., additional, Stage, Steve A., additional, Suchoski, Brad T., additional, Ajelli, Marco, additional, Kummer, Allisandra G., additional, Litvinova, Maria, additional, Ventura, Paulo C., additional, Wadsworth, Spencer, additional, Niemi, Jarad, additional, Carcelen, Erica, additional, Hill, Alison L, additional, Jung, Sung-mok, additional, Lemaitre, Joseph C., additional, Lessler, Justin, additional, Loo, Sara L, additional, McKee, Clifton D., additional, Sato, Koji, additional, Smith, Claire, additional, Truelove, Shaun, additional, McAndrew, Thomas, additional, Ye, Wenxuan, additional, Bosse, Nikos, additional, Hlavacek, William S., additional, Lin, Yen Ting, additional, Mallela, Abhishek, additional, Chen, Ye, additional, Lamm, Shelby M., additional, Lee, Jaechoul, additional, Posner, Richard G., additional, Perofsky, Amanda C., additional, Viboud, Cécile, additional, Clemente, Leonardo, additional, Lu, Fred, additional, Meyer, Austin G, additional, Santillana, Mauricio, additional, Chinazzi, Matteo, additional, Davis, Jessica T., additional, Mu, Kunpeng, additional, Pastore y Piontti, Ana, additional, Vespignani, Alessandro, additional, Xiong, Xinyue, additional, Ben-Nun, Michal, additional, Riley, Pete, additional, Turtle, James, additional, Hulme-Lowe, Chis, additional, Jessa, Shakeel, additional, Nagraj, V.P., additional, Turner, Stephen D., additional, Williams, Desiree, additional, Basu, Avranil, additional, Drake, John M., additional, Fox, Spencer J., additional, Gibson, Graham C., additional, Suez, Ehsan, additional, Thommes, Edward W., additional, Cojocaru, Monica G., additional, Cramer, Estee Y., additional, Gerding, Aaron, additional, Stark, Ariane, additional, Ray, Evan L., additional, Reich, Nicholas G., additional, Shandross, Li, additional, Wattanachit, Nutcha, additional, Wang, Yijin, additional, Zorn, Martha W., additional, Aawar, Majd Al, additional, Srivastava, Ajitesh, additional, Meyers, Lauren A., additional, Adiga, Aniruddha, additional, Hurt, Benjamin, additional, Kaur, Gursharn, additional, Lewis, Bryan L., additional, Marathe, Madhav, additional, Venkatramanan, Srinivasan, additional, Butler, Patrick, additional, Farabow, Andrew, additional, Muralidhar, Nikhil, additional, Ramakrishnan, Naren, additional, Reed, Carrie, additional, Biggerstaff, Matthew, additional, and Borchering, Rebecca K., additional

Published
2023
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24. A Multi-Team Multi-Model Collaborative Covid-19 Forecasting Hub for India

Author

Adiga, Aniruddha, primary, Hurt, Benjamin, additional, Kaur, Gursharn, additional, Lewis, Bryan, additional, Marathe, Madhav, additional, Porebski, Przemyslaw, additional, Venkatramanan, Srinivasan, additional, Dukkipati, Ambedkar, additional, Gracious, Tony, additional, Gupta, Shubham, additional, Rathod, Nihesh, additional, Sundaresan, Rajesh, additional, Yasodharan, Sarath, additional, Bhimala, Kantha Rao, additional, Mudkavi, Vidyadhar, additional, Patra, Gopal Krishna, additional, and Athreya, Siva, additional

Published
2023
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26. The Potential Impact of Increased Hospital Capacity to Contain and Control Ebola in Liberia

Author

Lofgren, Eric T., Rivers, Caitlin M., Marathe, Madhav V., Eubank, Stephen G., and Lewis, Bryan L.

Subjects
Quantitative Biology - Populations and Evolution
Abstract

West Africa is currently experiencing a severe outbreak of Ebola virus disease (EVD). As part of the international effort to address this outbreak, the United States has committed to building specialized Ebola treatment facilities with 1700 beds. However, the effectiveness of this increase in the available healthcare facilities to treat Ebola is unclear, especially in light of the rapidly increasing number of cases. Adapting a previously validated mathematical model of Ebola in West Africa, we examine the potential impact of an increase in hospital capacity to mitigate the impact of Ebola under several scenarios, ranging from the planned scenario of 1700 beds in 10 weeks to a considerably more aggressive approach of twice the number of beds in 5 weeks. We find that even for the most aggressive scenarios, while increasing the availability of healthcare reduces the number of Ebola cases and slows the outbreak, it is not sufficient to stop the epidemic within the next three months. We find that only a combination of increased hospital beds and a dramatic decrease in the rate of transmission within the community can bring the epidemic under control within the near future.

Published
2014

27. Modeling the Impact of Interventions on an Epidemic of Ebola in Sierra Leone and Liberia

Author

Rivers, Caitlin M., Lofgren, Eric T., Marathe, Madhav, Eubank, Stephen, and Lewis, Bryan L.

Subjects
Quantitative Biology - Populations and Evolution
Abstract

An Ebola outbreak of unparalleled size is currently affecting several countries in West Africa, and international efforts to control the outbreak are underway. However, the efficacy of these interventions, and their likely impact on an Ebola epidemic of this size, is unknown. Forecasting and simulation of these interventions may inform public health efforts. We use existing data from Liberia and Sierra Leone to parameterize a mathematical model of Ebola and use this model to forecast the progression of the epidemic, as well as the efficacy of several interventions, including increased contact tracing, improved infection control practices, the use of a hypothetical pharmaceutical intervention to improve survival in hospitalized patients. Model forecasts until Dec. 31, 2014 show an increasingly severe epidemic with no sign of having reached a peak. Modeling results suggest that increased contact tracing, improved infection control, or a combination of the two can have a substantial impact on the number of Ebola cases, but these interventions are not sufficient to halt the progress of the epidemic. The hypothetical pharmaceutical intervention, while impacting mortality, had a smaller effect on the forecasted trajectory of the epidemic. Near-term, practical interventions to address the ongoing Ebola epidemic may have a beneficial impact on public health, but they will not result in the immediate halting, or even obvious slowing of the epidemic. A long-term commitment of resources and support will be necessary to address the outbreak.

Published
2014

29. Forecasting influenza activity using machine-learned mobility map

Author

Venkatramanan, Srinivasan, Sadilek, Adam, Fadikar, Arindam, Barrett, Christopher L., Biggerstaff, Matthew, Chen, Jiangzhuo, Dotiwalla, Xerxes, Eastham, Paul, Gipson, Bryant, Higdon, Dave, Kucuktunc, Onur, Lieber, Allison, Lewis, Bryan L., Reynolds, Zane, Vullikanti, Anil K., Wang, Lijing, and Marathe, Madhav

Published
2021
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34. Modeling relaxed policies for discontinuation of methicillin-resistant Staphylococcus aureuscontact precautions

Author

Cui, Jiaming, Heavey, Jack, Lin, Leo, Klein, Eili Y., Madden, Gregory R., Sifri, Costi D., Lewis, Bryan, Vullikanti, Anil K., and Prakash, B. Aditya

Abstract

AbstractObjective:To evaluate the economic costs of reducing the University of Virginia Hospital’s present “3-negative” policy, which continues methicillin-resistant Staphylococcus aureus(MRSA) contact precautions until patients receive 3 consecutive negative test results, to either 2 or 1 negative.Design:Cost-effective analysis.Settings:The University of Virginia Hospital.Patients:The study included data from 41,216 patients from 2015 to 2019.Methods:We developed a model for MRSA transmission in the University of Virginia Hospital, accounting for both environmental contamination and interactions between patients and providers, which were derived from electronic health record (EHR) data. The model was fit to MRSA incidence over the study period under the current 3-negative clearance policy. A counterfactual simulation was used to estimate outcomes and costs for 2- and 1-negative policies compared with the current 3-negative policy.Results:Our findings suggest that 2-negative and 1-negative policies would have led to 6 (95% CI, −30 to 44; P< .001) and 17 (95% CI, −23 to 59; −10.1% to 25.8%; P< .001) more MRSA cases, respectively, at the hospital over the study period. Overall, the 1-negative policy has statistically significantly lower costs ($628,452; 95% CI, $513,592–$752,148) annually (P< .001) in US dollars, inflation-adjusted for 2023) than the 2-negative policy ($687,946; 95% CI, $562,522–$812,662) and 3-negative ($702,823; 95% CI, $577,277–$846,605).Conclusions:A single negative MRSA nares PCR test may provide sufficient evidence to discontinue MRSA contact precautions, and it may be the most cost-effective option.

Published
2024
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35. Methods of using real-time social media technologies for detection and remote monitoring of HIV outcomes

Author

Young, Sean D, Rivers, Caitlin, and Lewis, Bryan

Subjects
Public Health, Health Sciences, Pediatric Research Initiative, Prevention, Behavioral and Social Science, HIV/AIDS, Infection, Good Health and Well Being, Disease Outbreaks, HIV Infections, Humans, Internet, Prevalence, Social Media, United States, Social networking, HIV detection, HIV prevention, Big data, Digital epidemiology, Human Movement and Sports Sciences, Public Health and Health Services, Epidemiology, Public health
Abstract

ObjectiveRecent availability of "big data" might be used to study whether and how sexual risk behaviors are communicated on real-time social networking sites and how data might inform HIV prevention and detection. This study seeks to establish methods of using real-time social networking data for HIV prevention by assessing 1) whether geolocated conversations about HIV risk behaviors can be extracted from social networking data, 2) the prevalence and content of these conversations, and 3) the feasibility of using HIV risk-related real-time social media conversations as a method to detect HIV outcomes.MethodsIn 2012, tweets (N=553,186,061) were collected online and filtered to include those with HIV risk-related keywords (e.g., sexual behaviors and drug use). Data were merged with AIDSVU data on HIV cases. Negative binomial regressions assessed the relationship between HIV risk tweeting and prevalence by county, controlling for socioeconomic status measures.ResultsOver 9800 geolocated tweets were extracted and used to create a map displaying the geographical location of HIV-related tweets. There was a significant positive relationship (p

Published
2014

36. Potential impact of annual vaccination with reformulated COVID-19 vaccines: lessons from the U.S. COVID-19 Scenario Modeling Hub

Author

Jung, Sung-mok, primary, Loo, Sara L, additional, Howerton, Emily, additional, Contamin, Lucie, additional, Smith, Claire P, additional, Carcelén, Erica C, additional, Yan, Katie, additional, Bents, Samantha J, additional, Espino, Jessi, additional, Levander, John, additional, Reich, Nicholas G, additional, Lemaitre, Joseph C, additional, Sato, Koji, additional, McKee, Clifton D, additional, Hill, Alison L, additional, Chinazzi, Matteo, additional, Davis, Jessica T, additional, Mu, Kunpeng, additional, Vespignani, Alessandro, additional, Rosenstrom, Erik T, additional, Rodriguez-Cartes, Sebastian A, additional, Ivy, Julie S, additional, Mayorga, Maria E, additional, Swann, Julie L, additional, España, Guido, additional, Cavany, Sean, additional, Moore, Sean M, additional, Perkins, Alex, additional, Chen, Shi, additional, Paul, Rajib, additional, Janies, Daniel, additional, Thill, Jean-Claude, additional, Srivastava, Ajitesh, additional, Aawar, Majd Al, additional, Bi, Kaiming, additional, Bandekar, Shraddha Ramdas, additional, Bouchnita, Anass, additional, Fox, Spencer J, additional, Meyers, Lauren Ancel, additional, Porebski, Przemyslaw, additional, Venkatramanan, Srinivasan, additional, Adiga, Aniruddha, additional, Lewis, Bryan, additional, Klahn, Brian, additional, Hurt, Benjamin, additional, Chen, Jiangzhuo, additional, Wilson, Amanda, additional, Hoops, Stefan, additional, Bhattacharya, Parantapa, additional, Machi, Dustin, additional, Outten, Joseph, additional, Mortveit, Henning, additional, Vullikanti, Anil, additional, Marathe, Madhav, additional, Hochheiser, Harry, additional, Runge, Michael C, additional, Shea, Katriona, additional, Truelove, Shaun, additional, Viboud, Cécile, additional, and Lessler, Justin, additional

Published
2023
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37. Scenario Design for Infectious Disease Projections: Integrating Concepts from Decision Analysis and Experimental Design

Author

Runge, Michael C, primary, Shea, Katriona, additional, Howerton, Emily, additional, Yan, Katie, additional, Hochheiser, Harry, additional, Rosenstrom, Erik, additional, Probert, William J M, additional, Borchering, Rebecca, additional, Marathe, Madhav V, additional, Lewis, Bryan, additional, Venkatramanan, Srinivasan, additional, Truelove, Shaun A, additional, Lessler, Justin, additional, and Viboud, Cecile, additional

Published
2023
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40. Adoptive kinship and the British League of Help : commemoration of the Great War through the adoption of French communities

Author

Lewis, Bryan F.

Subjects
944.0815
Abstract

The British League of Help was formed in 1920 as a charitable body with a single purpose: to provide aid to communities in the areas of northern France devastated during the Great War. It pursued its objective by encouraging British cities and towns to become a 'Godparent' to a small town or village that had been destroyed; the village was 'adopted', a relationship was established with the people who had returned to their ruined homes, and various types of aid relevant to their particular needs were provided. The success of the scheme is indicated by the number of relationships: some eighty British cities and towns adopted ninety-five French towns and villages, and considerable material help and moral support was made available.

Published
2006

44. The 5th Kidney Cancer Research Summit: Research Accelerating Cures for Renal Cell Carcinoma in 2023.

Author

Choueiri, Toni K, Pal, Sumanta K, Lewis, Bryan, Poteat, Susan, Pels, Kevin, and Hammers, Hans

Subjects
LIPID metabolism, THERAPEUTIC use of monoclonal antibodies, BIOLOGICAL models, CARCINOGENESIS, CONFERENCES & conventions, METASTASIS, KIDNEY tumors, INFORMATION resources, TUMOR markers, MEDICAL research, CELL death, IMMUNOTHERAPY
Abstract

The 5th Kidney Cancer Research Summit was a hybrid event hosted in Boston, MA in July 2023. As in previous editions, the conference attracted a wide representation of global thought leaders in kidney cancer spanning all stages of clinical and laboratory research. Sessions covered tumor metabolism, novel immune pathways, advances in clinical trials and immunotherapy, and progress toward biomarkers. The abstract presentations were published as a supplement in The Oncologist (https://academic.oup.com/oncolo/issue/28/Supplement%5f1). Aiming to be more concise than comprehensive, this commentary summarizes the most important emerging areas of kidney cancer research discussed and debated among the stakeholders at the conference, with relevant updates that have occurred since. [ABSTRACT FROM AUTHOR]

Published
2024
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46. Linear Models

Author

Arnold, Taylor, primary, Kane, Michael, additional, and Lewis, Bryan W., additional

Published
2019
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