Dermal Permeation of Biocides and Aromatic Chemicals in Three Generic Formulations of Metalworking Fluids

Metalworking fluids (MWF) are complex mixtures consisting of a variety of components and additives. A lack of scientific data exists regarding the dermal permeation of its components, particularly biocides. The aim of this study was to evaluate the dermal permeation of biocides and other aromatic ch...

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Bibliographic Details
Published in:Journal of Toxicology and Environmental Health, Part A Part A, 2009-01, Vol.72 (13), p.832-841
Main Authors: Vijay, Vikrant, White, Eugene M., Kaminski, Michael D., Riviere, Jim E., Baynes, Ronald E.
Format: Article
Language:English
Subjects:
Absorption
Additives
Animals
Aromatics
Biocides
Cells
Chemicals
Complex Mixtures - chemistry
Contact dermatitis
Data processing
Diffusion
Disinfectants - chemistry
Disinfectants - pharmacokinetics
Fluids
Formulations
Gas chromatography
Hydrocarbons, Aromatic - chemistry
Hydrocarbons, Aromatic - pharmacokinetics
Liquid chromatography
Mass spectrometry
Mass spectroscopy
Metal-working fluids
Metallurgy
Metalworking fluids
Occupational Exposure
Oil
Penetration
Permeability
Permeation
Samples
Skin
Skin Absorption - drug effects
Statistical analysis
Statistical methods
Swine
Toxicity
Toxicology
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Summary:Metalworking fluids (MWF) are complex mixtures consisting of a variety of components and additives. A lack of scientific data exists regarding the dermal permeation of its components, particularly biocides. The aim of this study was to evaluate the dermal permeation of biocides and other aromatic chemicals in water and in three generic soluble oil, semi-synthetic, and synthetic MWF types in order to evaluate any differences in their permeation profiles. An in vitro flow-through diffusion cell study was performed to determine dermal permeation. An infinite dose of different groups of chemicals (6 biocides and 29 aromatic chemicals) was applied to porcine skin, with perfusate samples being collected over an 8-h period. Perfusate samples were analyzed by gas chromatography/mass spectrometry (GC-MS) and ultra-performance liquid chromatography/mass spectroscopy (UPLC-MS), and permeability was calculated from the analysis of the permeated chemical concentration-time profile. In general, the permeation of chemicals was highest in aqueous solution, followed by synthetic, semi-synthetic, and soluble oil MWF. The absorption profiles of most of the chemicals including six biocides were statistically different among the synthetic and soluble oil MWF formulations, with reduced permeation occurring in oily formulations. Permeation of almost all chemicals was statistically different between aqueous and three MWF formulation types. Data from this study show that permeation of chemicals is higher in a generic synthetic MWF when compared to a soluble oil MWF. This indicates that a soluble oil MWF may be safer than a synthetic MWF in regard to dermal permeation of chemicals to allow for an increased potential of systemic toxicity. Therefore, one may conclude that a synthetic type of formulation has more potential to produce contact dermatitis and induce systemic toxicological effects. The dilution of these MWF formulations with water may increase dermal permeability of biocides, allowing for an enhanced risk for systemic toxicological effects and dermatitis potential.
ISSN:1528-7394
1087-2620
2381-3504
DOI:10.1080/15287390902800421