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INFORMATION FOR

    Ted Cohen, DPH, MD, MPH

    Professor of Epidemiology (Microbial Diseases)
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    About

    Titles

    Professor of Epidemiology (Microbial Diseases)

    Biography

    Dr. Cohen is an infectious disease epidemiologist whose primary research focus is tuberculosis. He is particularly interested in understanding how TB drug-resistance and medical comorbidities such as HIV frustrate current efforts to control epidemics, with an ultimate goal of developing more effective approaches to limit the morbidity caused by this pathogen. Dr. Cohen's training is in epidemiology and clinical medicine, and his work includes mathematical modeling, fieldwork, and analysis of programmatic data. His research program is currently funded by NIH and US CDCAwards.

    Appointments

    Other Departments & Organizations

    Education & Training

    DPH
    Harvard School of Public Health (2006)
    MPH
    University of North Carolina, Chapel Hill (2001)
    MD
    Duke University (2001)
    BA
    Oberlin College, Neuroscience (1996)

    Research

    Overview

    2014-2018

    Evaluating health and economic effects of targeted strategies in TB/HIV epidemics

    NIH R01 AI112438-01

    Multiple PI (Ted Cohen lead PI, Josh Salomon co-PI)

    In this multiple-PI application, we propose to develop and analyze mathematical models of tuberculosis (TB) and HIV epidemics to examine whether targeted use of preventive therapy for latent TB infection (TLTBI) and active TB case-finding may prove more effective, and more cost-effective, than non-targeted use of interventions. We propose to use this model to evaluate the comparative effectiveness and efficiency of alternative choices in the design and implementation of targeted strategies. Toward this goal our project has three specific aims: (1) To develop a detailed simulation model of TB/HIV co-epidemics and calibrate the model to 9 high burden countries in sub-Saharan Africa; (2) To use this model to identify strategies for effective and cost-effective use of targeted screening for active tuberculosis; and (3) To use this model to identify strategies for effective and cost-effective use of targeted TLTBI.

    2014-2019

    MIDAS Center for Communicable Disease Dynamics

    NIH/NIGMS U54 GM088558

    Co-Investigator

    The goal of this project is to advance the quantitative study of communicable diseases through training/education, transdisciplinary research, and public health policy. The center develops statistical and novel modeling methods, trains mathematical modelers, performs outreach, and develops software for the analysis of communicable disease data.

    2013-2015

    TB Modeling and Analysis Consortium

    Bill and Melinda Gates Foundation

    Co-Investigator

    The overall aim of TB MAC is to improve global TB control by coordinating and promoting mathematical modeling and other quantitative research relevant to support evidence-based policy making and implementation. Its objectives were to (1) Review high-priority research questions concerning TB control that require mathematical modeling and other quantitative research, (2) Review data, information, and expertise to achieve consensus on current knowledge and knowledge gaps, methodological standards, and current best practice for TB control decision making, and (3) Disseminate information and tools to key stakeholders, including TB control programmers and donors


    2014-2018

    Mathematical models to improve drug dosing for limiting persistence in M. tuberculosis

    Gates Foundation

    Principal Investigator

    New modeling approaches that integrate readily available data on both pharmacokinetics and bacterial killing in vivo and in vitro, would be an attractive tool to inform the development of new anti-tuberculosis regimens. We hypothesize that more effective treatment strategies can be identified by considering chemical reaction kinetics in bacterial cells. Chemical parameters can be easily measured, such that predictions on antibacterial activity could be made very early in development. This would not only benefit TB therapy, but likely the development of antibiotics in general. Here, we propose to use mathematical models describing both reaction kinetics and growth and death of bacterial populations to achieve the following two aims: 1) Predict optimal treatment regimens (duration, dose size and frequency) for clearing persisting mycobacteria and 2) Develop a mechanistic understanding of dose-response curves

    2014-2015

    Improving estimates of the incidence of pediatric tuberculosis

    TB Alliance

    Principal Investigator

    The objective of this work is to develop a method to utilize multiple sources of available data to improve current estimates of the incidence of pediatric TB at country, regional, and global levels.

    Medical Research Interests

    Africa South of the Sahara; Drug Resistance, Microbial; Epidemiology; Europe, Eastern; HIV Infections; Models, Biological; Molecular Epidemiology; Public Health; South America; Tuberculosis

    Public Health Interests

    Antimicrobial Resistance; Disease Transmission; Emerging Infectious Diseases; GIS/Disease Mapping; Global Health; Health Care Management; HIV/AIDS; Infectious Diseases; Modeling; Tuberculosis; COVID-19

    Research at a Glance

    Yale Co-Authors

    Frequent collaborators of Ted Cohen's published research.

    Publications

    2024

    Academic Achievements & Community Involvement

    • honor

      elected member

    • activity

      Genomic, spatial and epidemiological analysis to inform targeted TB interventions in Moldova

    • honor

      NIH New Innovator Award (2009)

    • honor

      Merck Manual Scholar

    • honor

      Alpha Omega Alpha

    Get In Touch

    Contacts

    Academic Office Number
    Mailing Address

    Epidemiology of Microbial Diseases

    60 College Street

    New Haven, CT 06510

    United States

    Administrative Support

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