Скачать или смотреть WG Seminars: Gulbudak, Modeling Dengue, Gumel, Malaria Eradication, February 24, 2022

Modeling Across-Scale Feedbacks of Infectious Diseases
Hayriye Gulbudak
University of Louisiana at Lafayette

A current challenge for disease modeling and public health is to understand pathogen dynamics across infection scales from within-host to between-host. Viral and immune response kinetics upon infection impact transmission to other hosts and feedback into population-wide immunity, all of which influence the severity, trajectory, and evolution of a spreading pathogen. In this talk, I will introduce structured partial differential equation models linking immunology and epidemiology in order to investigate coevolution of virus and host, multi-scale data fitting, and impacts of dynamic host immunity from an individual to the whole population. We apply the models to vector-borne diseases, such as Rift Valley fever (RVF) and dengue (DENV), with immunological and epidemiological data. Using invasion dynamics analysis and multi-scale numerical methods, we characterize different scenarios of virus-host evolution and coexistence of viral strains under waning host cross-immunity. In the case of DENV, we recapitulate how intermediate levels of pre-existent antibodies enhance infection within a host, and how to scale up to distributions of antibody levels among epidemiological classes in the host population to determine risk of severe DENV prevalence. These results have implications for optimal vaccination policy, and the modeling framework developed here is currently being applied to examine the emergence of COVID-19 variants partially resistant to antibodies induced by host infection or vaccination.

For more details see: https://link.springer.com/article/10....

Mathematics and the Renewed Quest for Malaria Eradication
Abba B Gumel
Arizona State University

The widespread use of insecticide-based interventions against malaria mosquitoes over the last two decades has led to a dramatic reduction in global malaria burden, prompting a renewed quest to eradicate the disease by 2030 or 2040. Unfortunately, such heavy use of insecticides has also resulted in widespread resistance (in the malaria vector population) to all the currently available insecticides used in vector control. In this lecture, I will briefly present a genetics-epidemiology modeling framework for assessing the impacts of insecticide resistance and climate change on malaria transmission dynamics, with emphasis on determining whether the malaria eradication objective can be achieved using existing vector control resources.

For more details see: https://link.springer.com/article/10....

Contents
0:00 - Introduction: J Glazier
2:25 - Coming Up Next week
4:05 - Seminar: Hayriye Gulbudak: Modeling Across-Scale Feedbacks of Infectious Diseases
27:43 - Seminar: Abba B Gumel: Mathematics and the Renewed Quest for Malaria Eradication
52:54 - Q&A Session

If you found this video useful, please check out our other videos on computational modeling, infection and immunology:    • IMAG/MSM WG and GLIMPRINT Seminars on Mult...  

Please consider joining our IMAG/MSM WG on Multiscale Modeling and Viral Pandemics: https://www.imagwiki.nibib.nih.gov/co...

Please also consider joining the Global Alliance for Immune Prediction and Intervention: http://glimprint.org/