| Nome |
# |
|
Epidemic dynamics and host immune response: a nested approach, file e3835191-d976-72ef-e053-3705fe0ad821
|
412
|
|
Final attack ratio in SIR epidemic models for multigroup populations, file e3835194-3115-72ef-e053-3705fe0ad821
|
376
|
|
Potential Risk of Dengue and Chikungunya Outbreaks in Northern Italy Based on a Population Model of Aedes albopictus (Diptera: Culicidae), file e3835192-e6f8-72ef-e053-3705fe0ad821
|
267
|
|
The role of heterogeneity on the invasion probability of mosquito-borne diseases in multi-host models, file e3835192-01d8-72ef-e053-3705fe0ad821
|
260
|
|
Sex-biased prevalence in infections with heterosexual, direct, and vector-mediated transmission: A theoretical analysis, file e3835194-3c64-72ef-e053-3705fe0ad821
|
248
|
|
A structured population model with diffusion in structure space, file e3835195-2730-72ef-e053-3705fe0ad821
|
248
|
|
Estimation of age-specific rates of reactivation and immune boosting of the varicella zoster virus, file e3835193-a3c6-72ef-e053-3705fe0ad821
|
230
|
|
Host coexistence in a model for two host–one parasitoid interactions, file e3835193-a3c2-72ef-e053-3705fe0ad821
|
224
|
|
Current Trends in Dynamical Systems in Biology and Natural Sciences: (Preface), file e3835196-cf1f-72ef-e053-3705fe0ad821
|
207
|
|
On the formulation of epidemic models (an appraisal of Kermack and McKendrick), file e3835192-939f-72ef-e053-3705fe0ad821
|
201
|
|
Multiple coexistence equilibria in a two parasitoid-one host model, file e3835193-65d3-72ef-e053-3705fe0ad821
|
201
|
|
West Nile virus transmission and human infection risk in Veneto (Italy): a modelling analysis, file e3835195-1bd5-72ef-e053-3705fe0ad821
|
185
|
|
RiboAbacus: a model trained on polyribosome images predicts ribosome density and translational efficiency from mammalian transcriptomes, file e3835193-011b-72ef-e053-3705fe0ad821
|
172
|
|
Exploring vector-borne infection ecology in multi-host communities: A case study of West Nile virus, file e3835193-6083-72ef-e053-3705fe0ad821
|
161
|
|
Determinants of the spatiotemporal dynamics of the 2009 H1N1 pandemic in Europe: implications for real-time modelling, file e3835192-92cd-72ef-e053-3705fe0ad821
|
145
|
|
The Role of Climatic and Density Dependent Factors in Shaping Mosquito Population Dynamics: The Case of Culex pipiens in Northwestern Italy, file e3835195-2311-72ef-e053-3705fe0ad821
|
145
|
|
Detecting a Surprisingly Low Transmission Distance in the Early Phase of the 2009 Influenza Pandemic, file e3835194-323d-72ef-e053-3705fe0ad821
|
140
|
|
Perspectives on optimal control of varicella and herpes zoster by mass routine varicella vaccination, file e3835192-d3fc-72ef-e053-3705fe0ad821
|
128
|
|
A quantitative comparison of West Nile virus incidence from 2013 to 2018 in Emilia-Romagna, Italy, file e3835196-63a1-72ef-e053-3705fe0ad821
|
122
|
|
Optimized timing of parasitoid release: a mathematical model for biological control of Drosophila suzukii, file e3835198-8316-72ef-e053-3705fe0ad821
|
109
|
|
A model-based framework to identify optimal administration protocols for immunotherapies in castration-resistance prostate cancer, file e3835199-7dd5-72ef-e053-3705fe0ad821
|
87
|
|
Estimating transmission probability in schools for the 2009 H1N1 influenza pandemic in Italy, file e3835193-0867-72ef-e053-3705fe0ad821
|
81
|
|
Health Technology Assessment (HTA) dell’introduzione della vaccinazione antinfluenzale per la popolazione giovanile italiana con il vaccino Fluenz Tetra®
Health Technology Assessment (HTA) of the introduction of influenza vaccination for Italian children with Fluenz Tetra®, file c480216c-084c-4400-9f5f-2f05cfa2f035
|
80
|
|
A geometric analysis of the SIRS epidemiological model on a homogeneous network, file e3835199-1f7e-72ef-e053-3705fe0ad821
|
73
|
|
11th INTERNATIONAL CONFERENCE DYNAMICAL SYSTEMS APPLIED TO BIOLOGY AND NATURAL SCIENCES DSABNS 2020 - BOOK OF ABSTRACTS, file e3835196-cccb-72ef-e053-3705fe0ad821
|
42
|
|
Modelling the transmission dynamics of West Nile Virus in Emilia-Romagna region (Italy), file e3835196-4770-72ef-e053-3705fe0ad821
|
40
|
|
SUIHTER: A new mathematical model for COVID-19. Application to the analysis of the second epidemic outbreak in Italy, file e3835199-4d59-72ef-e053-3705fe0ad821
|
34
|
|
Modelling Immune Memory Development, file e3835199-71a9-72ef-e053-3705fe0ad821
|
24
|
|
An Economic Evaluation of the Adjuvanted Quadrivalent Influenza Vaccine Compared with Standard-Dose Quadrivalent Influenza Vaccine in the Spanish Older Adult Population, file 12a10555-c840-4a70-817a-2ff8dd96e967
|
23
|
|
Determinants of the spatiotemporal dynamics of the 2009 H1N1 pandemic in Europe: implications for real-time modelling, file e3835192-939a-72ef-e053-3705fe0ad821
|
23
|
|
SUIHTER: A new mathematical model for COVID-19. Application to the analysis of the second epidemic outbreak in Italy, file e3835199-7ca0-72ef-e053-3705fe0ad821
|
21
|
|
Modelling West Nile virus transmission in Emilia-Romagna region (Italy): 2018 vs. previous seasons, file e3835196-8cac-72ef-e053-3705fe0ad821
|
19
|
|
Estimation of age-specific rates of reactivation and immune boosting of the varicella zoster virus, file e3835198-5b04-72ef-e053-3705fe0ad821
|
19
|
|
Time Scale Separation in the Vector Borne Disease Model SIRUV via Center Manifold Analysis, file e3835199-5af4-72ef-e053-3705fe0ad821
|
10
|
|
Optimized timing of parasitoid release: a mathematical model for biological control of Drosophila suzukii, file e3835198-8317-72ef-e053-3705fe0ad821
|
8
|
|
Evolutionary dynamics in an SI epidemic model with phenotype-structured susceptible compartment, file e3835199-4eef-72ef-e053-3705fe0ad821
|
8
|
|
Modeling the effect of immunotherapies on human castration-resistant prostate cancer, file e3835199-6c2d-72ef-e053-3705fe0ad821
|
5
|
|
Well-posedness of an infinite system of partial differential equations modelling parasitic infection in an age-structured host, file 555d0fcf-65bf-4afa-8095-ad939a624cba
|
3
|
|
A geometric analysis of the SIR, SIRS and SIRWS epidemiological models, file 8a8f65f5-bbac-46e6-b24b-0c4d3b04d28a
|
3
|
|
Optimized timing of parasitoid release: a mathematical model for biological control of Drosophila suzukii, file e3835194-a4cb-72ef-e053-3705fe0ad821
|
3
|
|
Model for the description of host-macroparasite interaction in a managed wild ungulate population (Modello per la descrizione dell'interazione ospite-macroparassita in popolazioni di ungulati selvatici sottoposte a gestione diretta), file e3835195-22c7-72ef-e053-3705fe0ad821
|
3
|
|
Mathematical models and wildlife diseases: techniques of parameters estimation for nematode infections, file e3835195-27a3-72ef-e053-3705fe0ad821
|
3
|
|
Final attack ratio in SIR epidemic models for multigroup populations, file e3835195-9045-72ef-e053-3705fe0ad821
|
3
|
|
Large-scale spatial dynamics of Drosophila suzukii in Trentino, Italy, file e3835198-d35a-72ef-e053-3705fe0ad821
|
3
|
|
Large-scale spatial dynamics of Drosophila suzukii in Trentino, Italy, file e3835198-d3b4-72ef-e053-3705fe0ad821
|
3
|
|
Spontaneous behavioural changes in response to pandemics, file e3835191-ce51-72ef-e053-3705fe0ad821
|
2
|
|
Exploring vector-borne infection ecology in multi-host communities: A case study of West Nile virus, file e3835195-3933-72ef-e053-3705fe0ad821
|
2
|
|
Spring temperature shapes West Nile virus transmission in Europe, file e3835197-d7a1-72ef-e053-3705fe0ad821
|
2
|
|
Investigating the spatiotemporal association between climate and West Nile Virus transmission, file e3835199-62c4-72ef-e053-3705fe0ad821
|
2
|
|
Quantifying the force of infection of West Nile virus in the European human population, file 3fbb7cb4-a313-4d07-a3f7-494d0d29ad38
|
1
|
|
Modelling the human force of infection of West Nile virus in Europe, file af2a60c3-5db0-4e16-bbca-5aafe34c1422
|
1
|
|
Effects of Tick Population Dynamics and Host Densities on the Persistence of Tick-borne Infections, file e3835191-cb26-72ef-e053-3705fe0ad821
|
1
|
|
Asymptotic behavior of a metapopulation model, file e3835191-cc8e-72ef-e053-3705fe0ad821
|
1
|
|
Multiple endemic states in age-structured SIR epidemic models, file e3835192-4b99-72ef-e053-3705fe0ad821
|
1
|
|
Model predictions and evaluation of possible control strategies for the 2009 A/H1N1v influenza pandemic in Italy, file e3835192-95e2-72ef-e053-3705fe0ad821
|
1
|
|
A Seasonal Model for West Nile Virus, file e3835194-30ac-72ef-e053-3705fe0ad821
|
1
|
|
Exploring vector-borne infection ecology in multi-host communities: a case study of West Nile virus, file e3835195-1adf-72ef-e053-3705fe0ad821
|
1
|
|
Effect of Ascaridia compar infection on rock partridge population dynamics: empirical and theoretical investigations, file e3835195-2107-72ef-e053-3705fe0ad821
|
1
|
|
Exclusion and spatial segregation in the apparent competition between two hosts sharing macroparasites, file e3835195-2529-72ef-e053-3705fe0ad821
|
1
|
|
The role of sex in parasite dynamics: Model simulations on transmission of Heligmosomoides polygyrus in populations of yellow-necked mice, Apodemus flavicollis, file e3835195-2b52-72ef-e053-3705fe0ad821
|
1
|
|
Temporal variation of Ixodes ricinus intensity on the rodent host Apodemus flavicollis in relation to local climatic conditions and host dynamics, file e3835195-35a3-72ef-e053-3705fe0ad821
|
1
|
|
Host coexistence in a model for two host–one parasitoid interactions, file e3835195-8072-72ef-e053-3705fe0ad821
|
1
|
|
Multiple coexistence equilibria in a two parasitoid-one host model, file e3835195-9044-72ef-e053-3705fe0ad821
|
1
|
|
A structured population model with diffusion in structure space, file e3835195-a948-72ef-e053-3705fe0ad821
|
1
|
|
null, file e3835197-994f-72ef-e053-3705fe0ad821
|
1
|
| Totale |
4.826 |