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Level National
Plastic types Microplastics
Funding source UK Medical Research Council (MRC)
Project cost 894.867,46 EUR
Period February 2018 - October 2022
Geographical area Europe
Categories Human Exposure Public Health Environmental Monitoring Air Quality and Greenhouse Gases
Tags airborne microplastics lung harm toxicity
Project partners
  • Imperial College London - United Kingdom
Description

Over 8 billion tonnes of plastic have been made since mass production began in the 1950s. Eighty per cent of this has gone to landfill or the natural environment. Consequently, plastic litter is widespread and it persists. Upon exposure to sunlight, plastic slowly degrades into microscopic particles and fibres known as microplastics. Microplastics are also purposefully manufactured, such as microbeads used in personal care products. Microplastics have been found in food and the air we breathe, prompting speculation about risks to public health. If small enough to be inhaled, airborne microplastics could enter the airway. From here they may be cleared with mucus to the gut, or they may enter the deep lung where they interact with lung fluid and cells. As plastic cannot be broken down, microplastics have the potential to persist in our bodies by embedding in tissues or entering cells. Following exposure, there are several ways in which microplastics are predicted to cause harm. They may trigger an inflammatory response, as they resemble foreign bodies which immune cells try to eliminate. They may also carry a cocktail of chemicals. These include additives that are incorporated during plastic product manufacture, and chemicals concentrated on their surface from the surrounding environment. Such chemicals are known to cause genetic mutations, cancer and reproductive effects. Additionally, microplastics carry a novel community of microbes, including harmful types. Given the risk of human exposure, there is an urgent need to assess the potential health impacts of microplastics. However, a solid evidence base for population exposure - including microplastic concentrations, types and sizes - is lacking. This fellowship aims to address this by assessing whether microplastics down to an inhalable size are airborne; if humans are exposed to microplastics via the air; and whether exposure could lead to health effects. The research will be conducted at the Medical Research Council (MRC)-Public Health England Centre for Environment and Health (King's College London) in partnership with the MRC Toxicology Unit (Leicester). Instruments which measure air quality will be used to collect airborne particles. Samples will be assessed with a microscope coupled to an instrument capable of detecting unique chemical signatures, known as Raman spectroscopy, to detect microplastics. Microplastics will be counted, sized, and the type of plastic identified. To assess whether humans are exposed to microplastics, human lung tissue samples routinely-collected during medical procedures will be screened. Samples will be viewed under a microscope coupled to a Raman spectrometer and suspicious particles characterized as above. To understand the potential for microplastics to cause harm, varying characteristics of microplastics - such as plastic type, size, shape and surface chemistry - will be screened in a an animal model. The outcomes of the proposed project are to 1) have a standard method to carry out monitoring of microplastics in the air in different environments (such as urban, coastal and rural); 2) to determine the suitability of tissue as an indicator of exposure; and 3) have an overall increased understanding of the risk that microplastics present to human health. Classifying microplastics by plastic type will highlight those plastics which require improved regulation via resource and waste management, and material and product design. (This project is split up into two seperate funding projects: [MR/R026521/1; Feb 18 - Jun 20; https://gtr.ukri.org/projects?ref=MR/R026521/1#/tabOverview], [MR/R026521/2; Jun 20 - Oct 22; https://gtr.ukri.org/projects?ref=MR%2FR026521%2F2#/tabOverview]

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Knowledge Gaps

Environmental exposure

Environmental fate and behavior of plastic

Degradation

Occupational exposure

Consumer exposure

Uptake routes

Monitoring exposure methods

Bioaccumulation, bioconcentration and persistence

Environmental effects and ecotoxicity

Chronic or long-term effects, multiple forms and/or sources

Characteristics of plastic-general

Characterization test methods

Environmental risk assessment (ERA)

Exposure assessment-general

Tools to limit release

Monitoring and detection equipment

Fate and behavior within an organism

Human toxicity

Toxicokinetics, toxicodynamics and metabolism (ADME)

Carcinogenicity test methods

Reproductive and teratogenic effects

Mode of action (MOA)

Translocation within an organism

Biological processes and biotic interactions with plastic

Publications

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