Detection and characterisation of inflammatory agents associated with bioaerosol emitted from biowaste and intensive agriculture

与生物废物和集约化农业排放的生物气溶胶相关的炎症因子的检测和表征

• 批准号: NE/M011747/1
• 负责人: Simon Jackson
• 金额: $ 39.32万
• 依托单位: Plymouth University
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2015
• 资助国家: 英国
• 起止时间: 2015 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=NE%2FM011747%2F1
• 关键词: Detection; characterisation; inflammatory; agents; associated

The biowaste (eg composting) and intensive agriculture (eg housed poultry / pigs) industries emit bioaerosol of significance to human health. Whilst some progress has been made in characterising emissions from these industries relatively little headway has been made regarding the linked research questions of: understanding exposure of the general public to bioaerosol; putting process-based exposures into the context of background exposure to natural bioaerosol (or other anthropogenic sources); quantifying health risk and setting health-based standards. A critical limiting factor in all of these areas is the lack of advanced microbiological methods (sampling, analytical, interpretative) to quantify and qualify bioaerosol emissions and dispersion. Our current evidence base is almost entirely reliant on short duration "snapshot" sampling and culture-dependent microbiology. Whilst traditional microbiology remains fit for purpose in specific circumstances, new fast and efficient methods are needed to understand the nature and significance of non-viable bioaerosol fractions and to develop a new generation of monitoring approaches to deal with the research questions posed above.Aerosolised endotoxin is an attractive research subject in the context of this NERC programme. It is ubiquitous in biowaste and agricultural emissions. Previous occupational bioaerosol research has established an exposure-response relationship. In the Netherlands, endotoxin is regarded as the prime candidate for health-based bioaerosol emission limits / exposure guidelines for workers and the public. Yet, confidence in the development and implementation of evidence-based regulation of this bioaerosol molecule continues to be constrained by gaps in our fundamental understanding of the nature of endotoxin in ambient air which in turn stems from limitations in measurement techniques. In this research we aim to develop new methodologies capable of characterising and quantifying emissions of endotoxin in air.Objectives - develop new methods to size fractionate endotoxin and elucidate structural features;- develop a novel biosensor for rapid detection of endotoxin, other inflammatory agents and cells (live/dead)- use the WIBS real-time bioaerosol sensor to understand emission and dispersion of bioaerosol including endotoxin- characterise industry-specific bioaerosol emissions at composting and farm sites- detect microbial pathogens at biowaste and intensive agricultural facilities using novel methods- generate improved exposure assessments around biowaste / intensive agricultural facilities using dispersion modelling and Openair.Whilst our work plan focuses on new endotoxin detection methods we are cogniscent of the fact that there are other biomolecules in air that promote inflammation when inhaled. These will be detected by the novel biosensor and we aim to distinguish the signalling pathways and demonstrate how the cells respond to different biomolecular challenges.The research team has unparalleled experience in translating cutting edge bioaerosol science into policy and practice. Uncertainty with respect to health effects from regulated industrial processes is deleterious to all stakeholders concerned including the public, regulators, the Government, industry and investors. The public remains fearful of the potential health impacts. Regulators face uncertainty in terms of striking the right balance between public health protection and encouraging economic development. Planning and licensing delays constrain Government waste strategy and economic development initiatives and create problems for entrepreneurs trying to deliver Government targets and establish viable businesses. Whilst this research will be underpinned by excellent new science, it is clear that the impact agenda is driven by the potential for translating this into a regulatory science evidence base, new regulatory guidance and models for the protection of public health.

生物废弃物(如堆肥)和集约化农业(如家禽/猪)排放对人类健康有重要意义的生物气溶胶。虽然在确定这些行业的排放特征方面取得了一些进展，但在以下相关研究问题上进展相对较小：了解公众对生物气溶胶的暴露情况；将基于过程的暴露放在天然生物气溶胶(或其他人为来源)背景暴露的背景中；量化健康风险并制定基于健康的标准。所有这些领域的一个关键限制因素是缺乏先进的微生物学方法(采样、分析、解释)来量化和限定生物气溶胶的排放和扩散。我们目前的证据基础几乎完全依赖于短期的“快照”采样和依赖于培养的微生物学。虽然传统微生物学在特定情况下仍然适用，但需要新的快速有效的方法来了解不能存活的生物气溶胶部分的性质和意义，并开发新一代监测方法来处理上述提出的研究问题。在这个NERC计划的背景下，雾化内毒素是一个有吸引力的研究课题。它在生物废弃物和农业排放中无处不在。以前的职业生物气溶胶研究已经建立了暴露-反应关系。在荷兰，内毒素被认为是工人和公众基于健康的生物气溶胶排放限制/暴露指南的主要候选者。然而，对这种生物气溶胶分子的循证监管的发展和实施的信心仍然受到我们对环境空气中内毒素性质的基本理解的差距的限制，而这反过来又源于测量技术的限制。在这项研究中，我们的目标是开发新的方法来表征和量化空气中的内毒素排放。目的-开发新的方法来确定分级内毒素的大小并阐明结构特征；-开发一种新型生物传感器，用于快速检测内毒素、其他炎症剂和细胞(活/死)-使用WIBS实时生物气溶胶传感器了解生物气溶胶的排放和扩散，包括内毒素-表征堆肥和农场地点特定行业的生物气溶胶排放-使用新方法检测生物垃圾和集约化农业设施的微生物病原体-使用弥散模拟和露天空气改进生物垃圾/集约化农业设施周围的暴露评估。虽然我们的工作计划专注于新的内毒素检测方法，但我们认识到，空气中还有其他生物分子在吸入时会促进炎症。这些将被新型生物传感器检测到，我们的目标是区分信号通路，并展示细胞如何应对不同的生物分子挑战。研究团队在将尖端生物气溶胶科学转化为政策和实践方面拥有无与伦比的经验。受管制的工业过程对健康的影响方面的不确定性对所有利益攸关方都是有害的，包括公众、监管机构、政府、工业界和投资者。公众仍然担心潜在的健康影响。在保护公共健康和鼓励经济发展之间取得适当平衡方面，监管机构面临着不确定性。规划和发放许可证的拖延限制了政府废物战略和经济发展举措，并给试图实现政府目标和建立可行企业的企业家带来了问题。虽然这项研究将得到优秀的新科学的支持，但显然，影响议程是由将其转化为监管科学证据基础、新的监管指导和保护公众健康的模式的可能性推动的。

项目成果

Scoping studies to establish the capability and utility of a real-time bioaerosol sensor to characterise emissions from environmental sources.

• DOI: 10.1016/j.scitotenv.2018.08.120
• 发表时间: 2019-01
• 期刊: The Science of the total environment
• 作者: Z. Nasir;E. Hayes;Ben Williams;T. Gladding;C. Rolph;S. Khera;S. Jackson;A. Bennett;S. Collins-S.-Colli

A Controlled Study on the Characterisation of Bioaerosols Emissions from Compost

• DOI: 10.3390/atmos9100379
• 发表时间: 2018-09
• 期刊: Atmosphere
• 影响因子: 2.9
• 作者: Z. Nasir;C. Rolph;S. Collins;D. Stevenson;T. Gladding;E. Hayes;Ben Williams;S. Khera;S. Jackson-S