CityUHK collaborates in groundbreaking research to track livestock disease threats and support smarter One Health interventions
Professor Pfeiffer
Professor Pfeiffer

Professor Dirk Pfeiffer, Chow Tak Fung Chair Professor of One Health and Director of the Centre for Applied One Health Research and Policy Advice at City University of Hong Kong (CityUHK), has collaborated with a team of interdisciplinary scientists from the Global Challenges Research Fund (GCRF) One Health Poultry Hub to develop a cutting-edge computer tool that enables the mapping and tracking of avian influenza virus spread across time and space. This significant breakthrough will allow decision-makers to better understand infectious disease threats associated with global food systems and more effectively target actions and interventions to minimise risk.

The intensification of livestock farming and the increasing complexity of food systems have created opportunities for pathogens to emerge and spread, undermining efforts to ensure sustainable food production. Moreover, it increases the risk of zoonotic disease outbreaks, where diseases are transmitted from animals to humans, potentially leading to pandemics.

The innovative model developed by the Hub team, known as EPINEST (EPIdemic Network Simulation in poultry Transportation systems), tracks the spread of avian influenza viruses (commonly known as “bird flu”), bacteria causing food poisoning (such as campylobacter and salmonella), and bacteria carrying antimicrobial resistance genes through networks of farms, markets and transport systems of broiler chickens in Bangladesh.

Live bird market in Dhaka.
Live bird markets in Dhaka.
Live bird market in Dhaka.

EPINEST functions as an agent-based modelling system that connects people, livestock and production spaces in the poultry production and distribution network. By incorporating empirical data from various disciplines, such as farm size, distance between farms, duration of bird stays in different network segments, and trading and mixing patterns during the journey from farm to fork, the model accurately predicts disease risks at different points in the network. Biological data obtained from sampling chickens and sequencing pathogens further enhances the model's accuracy in evaluating disease potential.

Unlike previous modelling efforts that focused on disease transmission in limited settings, such as farms and markets, EPINEST takes a systemic perspective on pathogen spread throughout the production and distribution networks. The Hub team successfully utilised EPINEST to simulate the dynamics of avian influenza viruses and map the early spread of emerging strains across farms and markets. By simulating multiple virus variants simultaneously, the team identified patterns of virus mixing and trading practices that contribute to increased mixing, which can potentially lead to the emergence of more dangerous strains.

Poultry farm in Chattogram.
Poultry farm in Chattogram.

 

“Avian influenza poses a constant global threat to poultry production, necessitating the frequent culling of birds and having adverse impacts on animal welfare and livelihoods. Additionally, it has devastated wild bird populations and is a concern for potential human influenza epidemics and pandemics,” said Professor Pfeiffer. “Food poisoning caused by campylobacter and salmonella carried by poultry also imposes a significant burden on global public health.”

“EPINEST allows policymakers and decision-makers to effectively target interventions and assess their impact in reducing disease risks,” he said.

CityUHK’s partners in the Hub team include scientists from University of Oxford, Royal Veterinary College, Chattogram Veterinary and Animal Sciences University, The University of Queensland, and London School of Hygiene and Tropical Medicine.