Abstract
Abstract Background There is a growing concern in Sweden and elsewhere that continued emissions of per- and polyfluoroalkyl substances (PFASs) may cause environmental as well as human health effects. PFASs are a broad class of man-made substances that have been produced and used in both commercial products and industrial processes for more than 60 years. Although the production and use of some PFASs has been phased-out in some parts of the world, it is not known what effect these actions to date have had on PFAS concentrations in the environment. Owing to the wide diversity of PFASs, it is difficult to generalize their properties, environmental fate and production histories. However, the strength and stability of the C-F bond renders the perfluoroalkyl moieties resistant to heat and environmental degradation. Several PFASs are now occurring even in very remote areas in large parts of the world, but the environmental transport and fate of substances within this group is not well understood. A systematic review may be able to determine whether the concentrations of these substances in different environments are changing in any particular direction with time, and whether the phase-outs have had any effects on the concentration trends. Methods Searches for primary research studies reporting on temporal variations of PFAS concentrations in the environment will be performed in the scientific literature as well as in other reports. Relevant samples include both abiotic and biological samples including humans. No particular time, document type, language or geographical constraints will be applied. Two authors will screen all retrieved articles. Double screening of about 10% of the articles will be performed by all authors at both title/abstract and full-text levels. Kappa tests will be used to test if the screening is consistent. Relevant articles will be critically appraised by four authors (double checking of 25% of the articles). Quality assessment will focus on selection bias, dating of samples, sample integrity and analytical procedures. Data synthesis will be based on statistical analysis of temporal concentration trends.
Highlights
There is a growing concern in Sweden and elsewhere that continued emissions of per- and polyfluoroalkyl substances (PFASs) may cause environmental as well as human health effects
PFASs have been used in water, soil, and stain-resistant coatings for clothing, leather, upholstery, and carpets; oil-resistant coatings for food contact paper; aviation hydraulic fluids; fire-fighting foams; paints, adhesives, waxes, polishes, and other products; and industrially as surfactants, emulsifiers, wetting agents, additives, and coatings [2,3,4,5,6,7]
For purposes of this document we have separated the discussion into two broad categories, which will be the focus of our study: 1) Perfluoroalkyl carboxylic acids (PFCAs) and their precursors
Summary
Potential effect modifiers and reasons for heterogeneity may include: Timing of the study relative to the interventions Proximity to past and present sources Geographical differences Mode of predominant transport Type of sample e.g. sampling method, matrix, individual vs pooled For human data, design of study (e.g. cross-sectional, prospective, age, sex) Analytical quality in relation to time of the study (e.g. availability of standards) Food web changes over time Species differences. It may be possible to compare the normalised rates of change in concentration before and after the intervention, respectively, if that data exist With such a wide range of subjects or populations that potentially can be included in the systematic review it will be necessary to perform subgroup analyses.
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