An introduction to mathematical epidemiology M Martcheva Springer 61, 9-31, 2015 | 1544 | 2015 |
Progression age enhanced backward bifurcation in an epidemic model with super-infection M Martcheva, HR Thieme Journal of Mathematical Biology 46 (5), 385-424, 2003 | 187 | 2003 |
An epidemic model of a vector-borne disease with direct transmission and time delay HM Wei, XZ Li, M Martcheva Journal of Mathematical Analysis and Applications 342 (2), 895-908, 2008 | 178 | 2008 |
Dynamics of two-strain influenza with isolation and partial cross-immunity M Nuno, Z Feng, M Martcheva, C Castillo-Chavez SIAM Journal on Applied Mathematics 65 (3), 964-982, 2005 | 160 | 2005 |
Gender-structured population modeling: mathematical methods, numerics, and simulations M Iannelli, M Martcheva, FA Milner Siam, 2005 | 145 | 2005 |
Vaccination strategies and backward bifurcation in an age-since-infection structured model CM Kribs-Zaleta, M Martcheva Mathematical biosciences 177, 317-332, 2002 | 134 | 2002 |
Strain replacement in an epidemic model with super-infection and perfect vaccination M Iannelli, M Martcheva, XZ Li Mathematical Biosciences 195 (1), 23-46, 2005 | 129 | 2005 |
Diseases with chronic stage in a population with varying size M Martcheva, C Castillo-Chavez Mathematical Biosciences 182 (1), 1-25, 2003 | 117 | 2003 |
Vaccine-induced pathogen strain replacement: what are the mechanisms? M Martcheva, BM Bolker, RD Holt Journal of the Royal Society Interface 5 (18), 3-13, 2008 | 113 | 2008 |
An age-structured epidemic model of rotavirus with vaccination E Shim, Z Feng, M Martcheva, C Castillo-Chavez Journal of mathematical biology 53, 719-746, 2006 | 109 | 2006 |
The role of coinfection in multidisease dynamics M Martcheva, SS Pilyugin SIAM Journal on Applied Mathematics 66 (3), 843-872, 2006 | 93 | 2006 |
On the controllability of the Lotka–McKendrick model of population dynamics V Barbu, M Iannelli, M Martcheva Journal of Mathematical Analysis and Applications 253 (1), 142-165, 2001 | 91 | 2001 |
A cost-based comparison of quarantine strategies for new emerging diseases A Mubayi, CK Zaleta, M Martcheva, C Castillo-Chávez Mathematical Biosciences & Engineering 7 (3), 687-717, 2010 | 87 | 2010 |
Assessing the role of spatial heterogeneity and human movement in malaria dynamics and control O Prosper, N Ruktanonchai, M Martcheva Journal of Theoretical Biology 303, 1-14, 2012 | 73 | 2012 |
Structural and practical identifiability issues of immuno-epidemiological vector–host models with application to rift valley fever N Tuncer, H Gulbudak, VL Cannataro, M Martcheva Bulletin of mathematical biology 78, 1796-1827, 2016 | 71 | 2016 |
A non-autonomous multi-strain SIS epidemic model M Martcheva Journal of biological dynamics 3 (2-3), 235-251, 2009 | 71 | 2009 |
Spatial heterogeneity, host movement and mosquito-borne disease transmission MA Acevedo, O Prosper, K Lopiano, N Ruktanonchai, TT Caughlin, ... PloS one 10 (6), e0127552, 2015 | 70 | 2015 |
Age structured epidemic modeling XZ Li, J Yang, M Martcheva Springer Nature, 2020 | 62* | 2020 |
Optimal control of a malaria model with asymptomatic class and superinfection L Cai, X Li, N Tuncer, M Martcheva, AA Lashari Mathematical biosciences 288, 94-108, 2017 | 61 | 2017 |
Backward bifurcation, oscillations and chaos in an eco-epidemiological model with fear effect A Sha, S Samanta, M Martcheva, J Chattopadhyay Journal of biological dynamics 13 (1), 301-327, 2019 | 59 | 2019 |