We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
The Concept of One Health for Allergic Diseases and Asthma
Summary
This review examined how climate change, biodiversity loss, and environmental pollutants including microplastics contribute to rising allergic disease prevalence worldwide, advocating for a One Health approach that integrates human, animal, and ecosystem health strategies.
The worldwide prevalence of allergic disease is rising as a result of complex gene-environment interactions that shape the immune system and host response. Climate change and loss of biodiversity are existential threats to humans, animals, plants, and ecosystems. While there is significant progress in the development of targeted therapeutic options to treat allergies and asthma, these approaches are inadequate to meet the challenges faced by climate change. The exposomic approach is needed with the recognition of the bidirectional effect between human beings and the environment. All stakeholders need to work together toward mitigating the effects of climate change and promoting a One Health concept in order to decrease the burden of asthma and allergy and to improve immune health. Healthcare professionals should strive to incorporate One Health counseling, environmental health precepts, and advocacy into their practice.
Sign in to start a discussion.
More Papers Like This
One Health in allergology: A concept that connects humans, animals, plants, and the environment
This review applies the One Health framework to allergology, arguing that the increasing prevalence of allergic diseases reflects interconnections between human, animal, and environmental health, with environmental contaminants including microplastics among the discussed contributing factors.
The interconnection between environment, immune-nutrition and allergic disease
This review explores the connections between environmental factors, immune-nutrition, and the rising global prevalence of allergic diseases. The study discusses how climate change, air pollution, biodiversity loss, and environmental contaminants including microplastics contribute to immune dysregulation, and highlights the role of the microbiome and dietary factors in modulating allergic disease risk.
Climate change and the epithelial barrier theory in allergic diseases: A One Health approach to a green environment
This review links climate change and increased environmental pollution to the weakening of epithelial barriers in the skin, gut, and lungs, contributing to the rise of allergic diseases worldwide. The paper specifically identifies microplastics alongside other pollutants as agents that damage epithelial barriers, suggesting a mechanism by which microplastic exposure could contribute to allergies and autoimmune conditions.
Confronting allergies: strategies for combating pollution and safeguarding our health
This review examined the growing body of evidence linking environmental pollutants, including airborne microplastics, to increasing rates of allergic reactions worldwide. Researchers found that air pollution and indoor contaminants can worsen respiratory allergies, while climate change intensifies seasonal allergy patterns. The study emphasizes the need for comprehensive action including government regulation and public awareness to reduce pollution-driven allergy risks.
Environmental pollution and One Health: An integrated threat to global health
This review examines environmental pollution through the One Health framework, which recognizes the interconnectedness of human, animal, and environmental health. Researchers found that pollutants including heavy metals, microplastics, and chemical contaminants circulate continuously between ecosystems, animals, and human populations, creating cascading health effects. The study calls for integrated, cross-disciplinary approaches to address pollution as a shared threat across all domains of health.