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This project forms a program of modelling to inform the Gate's Foundation’s malaria product development portfolio, otherwise known as the Integrated Portfolio Management (IPM) project.
At the American Society of Tropical Medicine and Hygiene (ASTMH) Annual Meetings in 2024 and 2025, our team convened stakeholder engagement sessions on next-generation malaria vaccines.
This project consists of two linked research programs, working to support malaria control and elimination using OpenMalaria: our in-house, open-source, malaria simulation tool.
Strep A causes a huge global burden of disease, from sore throats to rheumatic heart disease. Our team is developing a computer simulation model, OpenStrepA, to help researchers tackle this disease.
In this project, our team provides malaria vaccine impact predictions to inform vaccine investment strategies for Gavi, the Vaccine Alliance, and their partners.
Julian is the Program Manager for the Global Disease Modelling team at The Kids Research Institute Australia.
Epke is a veterinarian that specializes in infectious disease control, and holds a PhD in human neglected tropical disease (NTD) control and elimination.
In 2023 severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) was declared endemic, yet hospital admissions have persisted and risen within populations at high and moderate risk of developing severe disease, which include those of older age, and those with co-morbidities. Antiviral treatments, currently only available for high-risk individuals, play an important role in preventing severe disease and hospitalisation within this subpopulation.
Individual-based models of infectious disease dynamics commonly use network structures to represent human interactions. Network structures can vary in complexity, from single-layered with homogeneous mixing to multi-layered with clustering and layer-specific contact weights. Here we assessed policy-relevant consequences of network choice by simulating different network structures within an established individual-based model of SARS-CoV-2 dynamics.
The rising burden of mosquito-borne diseases in Europe extends beyond urban areas, encompassing rural and semi-urban regions near managed and natural wetlands evidenced by recent outbreaks of Usutu and West Nile viruses. While wetland management policies focus on biodiversity and ecosystem services, few studies explore the impact on mosquito vectors.