[64] Anam, V., Guerrero, B.V., Srivastav, A.K., Stollenwerk, N., Aguiar, M. (2024). Within-host models unravelling the dynamics of dengue reinfections. Infectious Disease Modeling, 9(2):458-473.

[63] Saldaña, F., Stollenwerk, N., Van Dierdonck, J.B., Aguiar, M. (2024). Modeling spillover dynamics: understanding emerging pathogens of public health concern. Scientific Reports, 14:9823.

[62] Skwara, U., Mozyrska, D., Aguiar, M., Stollenwerk, N. (2024). Dynamics of vector-borne diseases through the lens of systems incorporating fractional-order derivatives. Chaos, Solitons & Fractals, 181:114643.

[61] Mar, J., Ibarrondo, O., Estadilla, C.D.S., Stollenwerk, N., Antoñanzas, F., Blasco-Aguado, R., Larrañaga, I., Bidaurrazaga, J.B., Aguiar, M. (2024). Cost-Effectiveness Analysis of Vaccines for COVID-19 According to Sex, Comorbidity and Socioeconomic Status: A Population Study. Pharmacoeconomics, 42:219–229.

[60] Steindorf, V., Oliva, S., Stollenwerk, N., Aguiar, M. (2024). Symmetry in a multi-strain epidemiological model with distributed delay as a general cross-protection period and disease enhancement factor. Communications in Nonlinear Science and Numerical Simulation, 128:107663.

[59] Saldaña, F., Kebir, A., Camacho-Gutiérrez, J.A., Aguiar, M. (2023). Optimal vaccination strategies for a heterogeneous population using multiple objectives: The case of L1- and L2-formulations. Mathematical Biosciences, 366:109103.

[58] Saldaña, F., Daza-Torres, M.L., Aguiar, M. (2023). Data-driven estimation of the instantaneous reproduction number and growth rates for the 2022 monkeypox outbreak in Europe. PLoS ONE, 18(9): e0290387.

[57] Srivastav, A.K., Steindorf, V., Stollenwerk, N., Aguiar, M. (2023). The effects of public health measures on severe dengue cases: An optimal control approach. Chaos, Solitons and Fractals, 172: 113577.