"Exploring the threshold of epidemic spreading for a stochastic SIR model with local and global contacts."
G.Fabricius, A.Maltz.
Physica A 540, 123208 (2020).
"Pertussis epidemiology in Argentina: trends after the introduction of maternal immunization."
G. Fabricius, P. Martin Aispuro P, P. Bergero, M. Gabrielli, D. Bottero, and D.Hozbor.
Epidemiology and Infection 146, 858-866 (2018).
"Potential impact of changes in the schedule for primary DTP immunization as control strategy for pertussis."
P. Bergero, G.Fabricius, D. Hozbor, H. Theeten and N. Hens.
The Pediatric Infectious Disease Journal.37(2):e36–e42 (2018).
"La no obligatoriedad de la vacunación y su potencial impacto en la epidemiología de coqueluche."
P.Bergero, G. Fabricius, and D. Hozbor.
Archivos Argentinos de Pediatria 116, 418-425 (2018).
"SIR model with local and global infective contacts: A deterministic approach and applications"
Maltz, A., Fabricius, G.
Theoretical Population Biology, Volume 112, 1 December 2016, Pages 70-79
“Mathematical modeling of delayed pertussis vaccination in infants.”
P. Pesco, P.Bergero, G. Fabricius and D. Hozbor.
Vaccine 33, 5475-5480 (2015).
http://dx.doi.org/10.1016/j.vaccine.2015.07.005
“SIR model on a dynamical network and the endemic state of an infectious disease.”
M. Dottori and G. Fabricius.
Physica A 434, 25-35 (2015).
http://dx.doi.org /10.1016/j.physa.2015.04.007
“Modelling the effect of changes in vaccine effectiveness and transmission contact rates on pertussis epidemiology”.
P. Pesco, P.Bergero, G. Fabricius y D. Hozbor.
Epidemics 7, 13-21 (2014).