Anderson, K.S.; Center for Personalized Diagnostics, Biodesign Institute, Arizona State UniversityUnited States
affiliation
Simon A Levin Mathematical, Computational and Modeling Sciences Center, Biodesign Institute, Arizona State University, Tempe, AZ, United States; Center for Personalized Diagnostics, Biodesign Institute, Arizona State University, Tempe, AZ, United States; National Laboratory for Zoonotic Diseases and Special Pathogens, Public Health Agency of Canada, Winnipeg, MB, Canada
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%0 Journal Article
%1 Chowell2015148
%A Chowell, D.
%A Castillo-Chavez, C.
%A Krishna, S.
%A Qiu, X.
%A Anderson, K.S.
%D 2015
%I Lancet Publishing Group
%J The Lancet Infectious Diseases
%K Communicable Control; Diagnosis; Disease Early Ebola Ebola; Fever, Hemorrhagic Humans; Infectious; Letter; Models, Statistical Transmission, and chain contact control; detection; diagnosis; disease early epidemic; examination; fever; hemorrhagic human; infection journal; mathematical model; nonhuman; polymerase prevention priority procedures; reaction; screening; statistical transmission, transmission; virus virus;
%N 2
%P 148-149
%R http://dx.doi.org/10.1016/S1473-3099(14)71084-9
%T Modelling the effect of early detection of Ebola
%U http://dx.doi.org/10.1016/S1473-3099(14)71084-9
%V 15
@article{Chowell2015148,
added-at = {2017-11-10T22:48:29.000+0100},
affiliation = {Simon A Levin Mathematical, Computational and Modeling Sciences Center, Biodesign Institute, Arizona State University, Tempe, AZ, United States; Center for Personalized Diagnostics, Biodesign Institute, Arizona State University, Tempe, AZ, United States; National Laboratory for Zoonotic Diseases and Special Pathogens, Public Health Agency of Canada, Winnipeg, MB, Canada},
author = {Chowell, D. and Castillo-Chavez, C. and Krishna, S. and Qiu, X. and Anderson, K.S.},
biburl = {https://www.bibsonomy.org/bibtex/2934a5c3d2e1c3fab863e84321c38d0e4/ccchavez},
coden = {LIDAB},
correspondence_address1 = {Anderson, K.S.; Center for Personalized Diagnostics, Biodesign Institute, Arizona State UniversityUnited States},
date-added = {2017-11-10 21:45:26 +0000},
date-modified = {2017-11-10 21:45:26 +0000},
document_type = {Letter},
doi = {http://dx.doi.org/10.1016/S1473-3099(14)71084-9},
interhash = {fc6c310329355db5a3995c94a1534633},
intrahash = {934a5c3d2e1c3fab863e84321c38d0e4},
issn = {14733099},
journal = {The Lancet Infectious Diseases},
keywords = {Communicable Control; Diagnosis; Disease Early Ebola Ebola; Fever, Hemorrhagic Humans; Infectious; Letter; Models, Statistical Transmission, and chain contact control; detection; diagnosis; disease early epidemic; examination; fever; hemorrhagic human; infection journal; mathematical model; nonhuman; polymerase prevention priority procedures; reaction; screening; statistical transmission, transmission; virus virus;},
language = {English},
number = 2,
pages = {148-149},
publisher = {Lancet Publishing Group},
pubmed_id = {25749063},
timestamp = {2017-11-10T22:48:29.000+0100},
title = {Modelling the effect of early detection of Ebola},
url = {http://dx.doi.org/10.1016/S1473-3099(14)71084-9},
volume = 15,
year = 2015
}