Micotil
Banned
- Joined
- Nov 13, 2010
- Messages
- 895
- Reaction score
- 102
- Points
- 18


[h=1]Modelling Parasite Transmission and Control[/h]
Series: Advances in Experimental Medicine and Biology, Vol. 673
Michael, Edwin; Spear, Robert C. (Eds.)
1st Edition., 2010, 212 p
ISBN 978-1-4419-6063-4
[h=3]Table of Contents[/h]PART 1. MODELLING PARASITE TRANSMISSION
1. Progress in Modelling Malaria Transmission
2. Vector Transmission Heterogeneity and the Population Dynamics and Control of Lymphatic Filariasis
3. Modelling Multi‑Species Parasite Transmission
4. Metapopulation Models in Tick‑Borne Disease Transmission Modelling
5. Modelling Stochastic Transmission Processes in Helminth Infections
6. Modelling Environmentally‑Mediated Infectious Diseases of Humans: Transmission Dynamics of Schistosomiasis in China
PART 2. APPLICATION OF MODELS TO PARASITE CONTROL
7. Parameter Estimation and Site‑Specific Calibration of Disease Transmission Models8. Modelling Malaria Population Structure and Its Implications for Control
9. Mathematical Modelling of the Epidemiology of Tuberculosis
10. Modelling Trachoma for Control Programmes
11. Transmission Models and Management of Lymphatic Filariasis Elimination
12. Disease Transmission Models for Public Health Decision‑Making: Designing Intervention Strategies for Schistosoma japonicum
13. Modelling Climate Change and Malaria Transmission
14. Modelling the Transmission of Trypanosoma cruzi: The Need for an Integrated Genetic Epidemiological and Population Genomics Approach
Series: Advances in Experimental Medicine and Biology, Vol. 673
Michael, Edwin; Spear, Robert C. (Eds.)
1st Edition., 2010, 212 p
ISBN 978-1-4419-6063-4

- Highlights advances made in parasite transmission modeling
- Identifies problems that still remain to be addressed and provides indications of ways forward for addressing these questions
- Examines developments in conceptual frameworks and modeling tools as well as the emergence of new data forms for aiding model construction, testing and analysis
[h=3]Table of Contents[/h]PART 1. MODELLING PARASITE TRANSMISSION
1. Progress in Modelling Malaria Transmission
2. Vector Transmission Heterogeneity and the Population Dynamics and Control of Lymphatic Filariasis
3. Modelling Multi‑Species Parasite Transmission
4. Metapopulation Models in Tick‑Borne Disease Transmission Modelling
5. Modelling Stochastic Transmission Processes in Helminth Infections
6. Modelling Environmentally‑Mediated Infectious Diseases of Humans: Transmission Dynamics of Schistosomiasis in China
PART 2. APPLICATION OF MODELS TO PARASITE CONTROL
7. Parameter Estimation and Site‑Specific Calibration of Disease Transmission Models8. Modelling Malaria Population Structure and Its Implications for Control
9. Mathematical Modelling of the Epidemiology of Tuberculosis
10. Modelling Trachoma for Control Programmes
11. Transmission Models and Management of Lymphatic Filariasis Elimination
12. Disease Transmission Models for Public Health Decision‑Making: Designing Intervention Strategies for Schistosoma japonicum
13. Modelling Climate Change and Malaria Transmission
14. Modelling the Transmission of Trypanosoma cruzi: The Need for an Integrated Genetic Epidemiological and Population Genomics Approach