Exposome
The exposome is a concept used to describe environmental exposures that an individual encounters throughout life, and how these exposures impact biology and health. It encompasses both external and internal factors, including chemical, physical, biological, and social factors that may influence human health.
The study of the exposome has become a useful tool in understanding the interplay between genetics and environmental factors in the development of diseases, with a particular focus on chronic conditions. The concept has been widely applied in fields such as epidemiology, toxicology, and public health, among others, and has led to significant advances in our understanding of disease etiology and prevention.
By considering the cumulative effect of multiple exposures, it provides a holistic approach to the study of gene-environment interactions, allowing for a more accurate assessment of disease risk and the identification of potential intervention strategies.
Environmental exposures can have a significant impact on an individual's health. Exposure to air pollution, for example, has been linked to an increased risk of respiratory disease, heart disease, and even premature death. Similarly, exposure to certain chemicals in consumer products has been linked to an increased risk of cancer and other health problems. In addition to external factors, the internal exposome can also influence an individual's health outcomes. For example, genetics can play a role in how an individual's body processes and responds to environmental exposures, while the gut microbiome can affect an individual's immune system and overall health. As our understanding of the exposome continues to evolve, it is likely that we will gain new insights into the complex interplay between our environment and our health.
History
The term "exposome" was coined in 2005 by Dr. Christopher Wild, then-director of the International Agency for Research on Cancer, in a seminal paper published in Cancer Epidemiology, Biomarkers & Prevention. Wild's concept was initially proposed to complement the human genome, as he recognized the limitations of genetic research in explaining the etiology of chronic diseases. By suggesting a systematic approach to measuring environmental exposures, the exposome aimed to fill this knowledge gap.Various definitions of the exposome have been proposed over time, but most emphasize three main components: the external exposome, the internal exposome, and the biological response. The external exposome includes general external factors, such as air pollution, diet, and socioeconomic factors, as well as specific external factors like chemicals and radiation. The internal exposome comprises endogenous factors, such as hormones, inflammation, oxidative stress, and gut microbiota. Finally, the biological response refers to the complex interactions between the external and internal exposome factors and their influence on an individual's physiology and health
Significance
The field of exposome research is relatively new and rapidly evolving, and is still being developed and refined by researchers in a variety of fields, including epidemiology, environmental health, and genomics. Understanding the exposome is important because it can help researchers identify the environmental factors that contribute to disease, and develop strategies for prevention and treatment.The exposome concept presents several challenges for researchers. One of the main challenges is the complexity and diversity of exposures that individuals experience throughout their lifetime. There are thousands of chemicals in the environment, and individuals are exposed to different combinations of chemicals depending on their location, occupation, and lifestyles. Besides this, a lack of standardized methods for measuring exposures is also challenging. Traditional approaches to measuring environmental exposures have relied on individual exposure assessments, which are often expensive and time-consuming. To address this challenge, new technologies, such as high-throughput methods for measuring multiple exposures simultaneously, are being developed.
Understanding exposomes has significant implications for public health and the development of more effective strategies for prevention and treatment of disease. For example, if research shows that exposure to a certain chemical is linked to an increased risk of cancer, policymakers can take steps to regulate or ban the use of that chemical.
In addition to informing public health policies, the study of the exposome can also help individuals make more informed choices about their own health. By understanding the environmental factors that contribute to disease, individuals can take steps to reduce their exposure to harmful substances and improve their overall health.
The exposome concept holds great promise for advancing our understanding of the complex interplay between environmental exposures and human health. As researchers continue to refine exposure assessment methods, identify novel biomarkers, and develop sophisticated computational approaches, the exposome framework is poised to revolutionize the fields of epidemiology, toxicology, and public health.
Global initiatives
There have been several research initiatives aimed to better understand the exposome. One such initiative was the "Enhanced exposure assessment and omic profiling for high priority environmental exposures in Europe", a program by the Imperial College of Science, Technology and Medicine in the UK. A current initiative is EXIMIOUS - a 5-year Research and Innovation Action funded by the European Union's Horizon 2020 program, aimed at introducing a new approach to mapping exposure-induced immune effects by combining exposomics and immunomics in a unique toolbox. Another is the National Institutes of Health's Environmental Influences on Child Health Outcomes program, which is studying the impact of these factors on children's health. We also have the Human Exposome Project, a collaborative effort between researchers from around the world to develop tools and techniques to measure and analyze the exposome.Furthermore, several European countries, including Sweden, France, Austria, and Czechia, have been actively involved in establishing dedicated research infrastructures for exposomics. In Sweden, the National Facility for Exposomics was approved in November 2020 and is hosted by the University of Stockholm. The facility is currently operational in Solna, providing resources and expertise for exposomics research. France has also established a dedicated research infrastructure, France Exposome, a new National Research Infrastructure that focuses on environmental health. It has been included in the 2021 roadmap for the research infrastructure of the Ministry of Higher Education and Research, indicating its significance in the country's research landscape.
Additionally, the is a collaborative effort consisting of 17 National Nodes representing around 50 institutions with complementary expertise. EIRENE aims to fill the gap in the European infrastructural landscape and pioneer the first EU infrastructure on the human exposome. The consortium has a geographically balanced network, covering Northern, Western, Southern, and Central and Eastern Europe, as well as the US. The EIRENE RI team consists of scientists leading exposome research on an international level.
These initiatives reflect the growing recognition of the importance of exposomics research and the commitment of these countries to advancing the field. The establishment of dedicated research infrastructures ensures the availability of resources and expertise required to uncover crucial insights into the impact of exposomes on human health.
Methodologies
The study of the exposome requires a multi-disciplinary approach that combines advances in exposure assessment, bioinformatics, and systems biology. As such, researchers have developed a range of key methodologies to measure and analyze the exposome – from exposure assessment techniques, analytical tools, to computational approaches.These methods are designed to capture and analyze the diverse and dynamic nature of environmental exposures across a person's lifespan.
Exposure assessment
The assessment of environmental exposures is a critical aspect of exposome research. Traditional methods, such as questionnaires and environmental monitoring, provide useful information on external factors but may not adequately capture the complexity and variability of exposures over time.Consequently, researchers have increasingly turned to personal monitoring devices, such as wearable sensors, personal monitoring devices, and smartphone applications, which can collect real-time data on an individual's exposure to various environmental factors, such as air pollution, noise, and ultraviolet radiation. The data collected by these devices can help researchers understand how personal behaviors and microenvironments contribute to overall exposome profiles.