Background

Global ecosystems are under serious threat by a changing climate, as demonstrated by increasing episodes or severity of extreme events, such as floods, droughts, glacial ablation, rising sea levels and prolonged sand storms in recent years. Rapid urbanization, agricultural intensification and other anthropogenic actions have fundamentally altered the natural habitats of wildlife, as well as affected humans interact with natural ecosystems. The COVID-19 pandemic has clearly demonstrated the need for intersectoral action to address emerging health threats at the nexus of human, animal and the environment [1, 2].

The establishment of the Quadripartite in 2022 is a milestone that demonstrates political commitments to the promotion of One Health (OH) with a truly holistic perspective on global ecosystems. Perhaps for the first time in history, the One Health High Level Expert Panel (a scientific advisory body to the Quadripartite), working under the auspices of several major international health organizations, has made an explicit commitment and called for a “socioecological equilibrium that seeks a harmonious balance between human-animal-environment interaction and acknowledging the importance of biodiversity, access to sufficient natural space and resources, and the intrinsic value of all living things within the ecosystem” [3].

However, if such statements are not embedded in a rigorous ethical framework or do not result in actual implementation of interdisciplinary scientific research that will lead to policy-making based on OH thinking, they will remain empty and likely undermine the influence and credibility of the organisations that issues them. Beyond ethics, challenges remain in devising and implementing real-world interventions aligned with the targets and goals set by the Quadripartite [4]. National and international coordinating mechanisms are still unable to effectively enact intersectoral collaboration, and professional and sectoral silo mentality is still the rule rather than the exception. Recognizing these gaps, the One Health Action Commission (OHAC) was established.

The one health action commission

The OHAC is comprised of experts from various disciplines around the world. Fifty experts were initially identified through an established database of OH expertise [6]. For example, urban informal settlements in low- and middle-income countries (LMICs) might become hot spots of AMR due to the high density of humans and animals, the unregulated use of antibiotics in both human and animal treatments, and the lack of adequate water and sanitation infrastructure [7]. Secondly, the interests of farmers and their economic wellbeing should also be considered to associate the risk changes of AMR, particularly in LMICs. Thirdly, geospatial analyses and data visualization techniques can be employed in the risk map** to identify potential hot spots of AMR, such that variations in antimicrobial susceptibility rates can be investigated at the local/ neighborhood level. Fourthly, proper dissemination of risk map** is encouraged to promote the antimicrobial stewardship and judicious by balancing farmers’ interests with the risks of AMR, e.g., by better community-based education campaigns and improvement of sanitation infrastructure.

Food security and food safety hazards associated with animal-derived food

Environmental, animal, and human interests will have to be appropriately balanced to allow human and animal communities to flourish within a sustainable global ecosystem, with following priority actions identified by OHAC. Firstly, special measures should be directed towards transmission pathways for both diseases and AMR, including understanding more how these pathways can be managed and implementing in both land-animal production and aquaculture, along with the national food security program in intensifying their animal or animal-based food production in different countries. Secondly, capacity-building can focus on enhancing the skills and knowledge to identify and control the factors that contribute to food safety hazards, with a particular emphasis on small-scale farmers. Thirdly, all capacities to identify and tackle the risks in food security and food safety in food production chain are necessary to be improved.

Innovations in surveillance for effective control of pandemics/ epidemics/ endemics

The establishment and maintenance of OH databases, in which data are collected from human, animals and the environment, are facing challenges significantly in the surveillance of diseases control [8]. It is difficult to monitor the process and quality of surveillance if the OH database is not well collation with the joint databases from different sectors, whereby action in human populations can be based on a threshold set in animal or environment samples. Examples include COVID surveillance in wastewater that enabled attention to specific communities where peaks were detected, and prevalence of Taenia solium in pigs as the marker for initiating mass drug administration in humans.

The remarkable breakthroughs made in the application of affordable, accurate, portable point-of-care diagnostic platforms during COVID-19 have brought about obvious possibilities for a new model of operation for surveillance. With the advances of point-of-care diagnostic technologies, surveillance points are being deployed to the front line of application, such as villages, fields, farms, and instantly transmitted using data technologies which then inform rapid decision in practice. Meanwhile, the adoption of artificial intelligence (AI) should be further explored for spatio-temporal pandemic risk assessment, which will be beneficial to optimizing resource allocation in handling the public health emergences to reduces the economic burden of epidemics.

Prototype/ best practice research to distill and disseminate experiences in national and regional context

While OH practice is not new and there are many examples, we are in a stage of moving OH theory into practice at many levels, from the most local to the highest intersectoral policy development, and demonstrating and highlighting good practice at a range of levels is incredibly important. As we come to understand the successes and failures of the global response to COVID-19, the needs for formulating context-sensitive local strategies and distilling best practices have never become more critical. Prototype/ best practice research is needed to support and translate the OH concept and high-level activities into practical guidance that can be adapted to national level contexts, with supported by economic evaluation approaches.

For instance, the experiences and lessons learnt from China’s national schistosomiasis control and elimination programs are an example of an OH prototype. In Asia and the Pacific region, there are a wealth of examples that can potentially be developed into OH best practices. So far, OH approaches have been applied in the management of avian influenza H7N9 in China [9], Nipah virus infections in Bangladesh [10], and human liver fluke in Thailand [11], etc. Additionally, regional platforms, such as Bangladesh Country Coordination Mechanism (BCCM) established in 2002, and the Southeast Asia One Health University Network (SEAOHUN) established in 2011, have substantially contributed to building a competent OH workforce in Southeast Asia.

Laying the foundations with bottom-up and top-down approaches

Adopting a OH approach is not meant to create collaboration for the sake of collaboration; the aim is to solve problems and create efficiencies. Potential trade-offs, misalignments, and conflicts of interest should be recognized and understood as early as possible to allow for identification of possible solutions. OHAC is committed to the application of both bottom-up and top-down approaches (Fig. 1):

  1. (i)

    A bottom-up approach that aims to understand the needs of OH action in specific localities, and to identify action points for OH implementation at the community level. OH is a highly context-sensitive approach as it is closely related to local natural and social conditions. OH work thus necessitates in-depth assessment and understanding of interests before OH activities are started or even planned. Meanwhile, when applying OH strategies to real-world scenarios, special attention must be given to how scientific knowledge can be translated into information that can be understood, accepted, and finally, owned by local residents. Greater participation of local, regional and national stakeholders from the very start of the process is essential to obtain community and political engagement for OH policies [12].

  2. (ii)

    A top-down approach to coordinate the use of resources to translate global, regional and national goals into local actions. Integration of OH approaches into higher level decision-making processes will require a stronger evidence-base in support of the economic impact of OH policies such as the economics for biodiversity by the Dasgupta review [13]. Innovative mechanisms and actions are urgently required to connect global agenda with the local situation. Meanwhile, there is also a need to develop and adapt frameworks and tools to evaluate the implementation of OH actions at various levels. Large-scale data-based evaluation tools, such as the global One Health index [14, 15], are necessary to identify global patterns in general community needs.

Conclusions

The launch of the Quadripartite OHJPA and the preparation of its implementation guide, indicate the growing efforts at the global level towards translating OH policies into real-world changes. With the vision of building an international community committed to the OH systems perspective, OHAC aims to actively respond to global needs to promote health sustainability through a OH approach, thereby also preventing future pandemics, combatting AMR, supporting the development of safe and sustainable food systems and more. The time to act is now.