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One Health approach reveals critical knowledge gaps in Nipah virus surveillance and cross-sectoral coordinationExperts identify critical gaps in Nipah virus tracking and prevention

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Key Takeaway
Note significant knowledge gaps in asymptomatic transmission and cross-sector coordination for Nipah virus management.

This systematic review synthesizes 210 studies to evaluate the current landscape of Nipah virus ecology, epidemiology, and clinical disease through a One Health perspective. The analysis focuses on the interface between human, animal, and environmental factors in managing the virus.

The synthesis identifies that existing evidence is heavily concentrated in bat ecology and human clinical research. Conversely, there is limited data regarding environmental modeling, social science, governance, and implementation research. Specific gaps were identified in understanding viral shedding dynamics, integrating climate and land-use data, and identifying patterns of asymptomatic infection.

Furthermore, the review highlights systemic limitations including restricted access to rapid diagnostics and fragmented surveillance systems. The authors note that weak cross-sectoral coordination hinders effective response efforts. These findings suggest that current knowledge is insufficient for robust ecological forecasting or integrated prevention strategies.

For clinical practice, this synthesis identifies priorities for strengthening multi-sectoral governance and surveillance. It underscores the necessity of integrating environmental data into public health responses to improve outbreak preparedness. However, the review highlights these gaps rather than providing specific treatment efficacy or clinical trial data.

The Nipah virus poses a significant threat because it can jump between animals and people. To keep communities safe, experts need to know exactly how it moves through the environment and when it spreads from person to person. However, a review of 210 studies shows that our current knowledge is uneven. While we have good data on bat behavior and clinical cases, we lack clear information on how the virus behaves in the wild or during silent infections.

Researchers found several specific areas that need more attention. These include understanding when people without symptoms can spread the virus and improving access to fast diagnostic tests. Currently, our systems for tracking the virus are fragmented, making it hard to coordinate a unified response between different sectors like farming, wildlife management, and public health.

Because of these gaps, it is harder to predict outbreaks before they happen. The study suggests that we need better integration of climate data and stronger cooperation across different fields. By filling these holes in our knowledge, health officials can build a stronger defense against the virus and protect communities more effectively.

What this means for you:
Better coordination between animal, environmental, and human health data is needed to stop Nipah virus outbreaks.

Common questions

What are the main challenges in stopping the Nipah virus?

The main challenges include a lack of information on how the virus spreads from people without symptoms, limited access to rapid diagnostic tests, and fragmented surveillance systems. There is also a need for better coordination between different sectors like animal health and human medicine.

What specific areas need more research regarding Nipah virus?

Research needs to focus on viral shedding dynamics, the impact of climate and land use on the virus, and how to better integrate environmental data into our current tracking systems. Currently, most information is concentrated on bat ecology and clinical cases.

How can we improve the way we track this virus?

Improving response requires stronger cross-sector coordination and better ecological forecasting. By integrating more environmental data and improving surveillance across different fields, health officials can better predict and prevent outbreaks before they spread.

Study Details

Study typeSystematic review
EvidenceLevel 1
PublishedJul 2026
View Original Abstract ↓
Nipah virus (NiV) is a highly pathogenic zoonotic henipavirus that continues to pose a significant threat to global health security because of its high case fatality rate, ability to cause human-to-human transmission, and absence of licensed vaccines or specific therapeutics. Although more than two decades of research have advanced the understanding of NiV ecology, epidemiology, and clinical disease, major uncertainties remain regarding spillover mechanisms, environmental drivers, surveillance integration, and outbreak preparedness. These persistent knowledge gaps limit the ability to predict, prevent, and respond effectively to future outbreaks. This review synthesises current evidence on Nipah virus across the human–animal–environment interface and identifies critical One Health knowledge gaps that hinder surveillance, risk forecasting, and health system preparedness. A structured narrative review was conducted using literature published between 1998 and 2025. Evidence was identified through systematic searches of major scientific databases and relevant outbreak reports and was synthesised according to three interconnected One Health domains: animal reservoirs and viral ecology, environmental and anthropogenic drivers of spillover, and human infection, transmission, and health system response. Additional emphasis was placed on diagnostics, surveillance, governance, and socio-behavioural determinants. A total of 210 studies were included in the final synthesis. The evidence base was strongly concentrated in bat ecology and human clinical research, whereas environmental modelling, social science, governance, and implementation research remained comparatively limited. Key gaps included incomplete understanding of viral shedding dynamics in reservoir hosts, limited integration of climate and land-use data into spillover prediction models, insufficient evidence on asymptomatic infection and transmission patterns, restricted access to rapid diagnostics, fragmented surveillance systems, and weak cross-sectoral coordination. Significant deficiencies were also identified in governance frameworks, ethical preparedness, and evaluation of community-based prevention strategies. Current Nipah virus preparedness remains constrained by fragmented knowledge and limited operationalisation of the One Health approach. Strengthening integrated surveillance systems, ecological forecasting, decentralised diagnostics, implementation research, and cross-sector governance will be essential for improving outbreak prevention and response. Addressing these priorities can enhance resilience against Nipah virus and provide a framework for preparedness against future emerging zoonotic threats.
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