Phosphate Buffer Solubility and Oxidative Potential of Single Metals or Multielement Particles of Welding Fumes

To evaluate the chemical behavior and the health impact of welding fumes (WF), a complex and heterogeneous mixture of particulate metal oxides, two certified reference materials (CRMs) were tested: mild steel WF (MSWF-1) and stainless steel WF (SSWF-1). We determined their total chemical composition...

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Main Authors: Manuella Ghanem, Esperanza Perdrix, Laurent Yves Alleman, Davy Rousset, Patrice Coddeville
Format: Article
Language:English
Published: MDPI AG 2021-12-01
Series:Atmosphere
Subjects:
DTT
Online Access:https://www.mdpi.com/2073-4433/12/1/30
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spelling doaj-2f655f44c05d4b1083e42e3d386f23682020-12-29T00:02:06ZengMDPI AGAtmosphere2073-44332021-12-0112303010.3390/atmos12010030Phosphate Buffer Solubility and Oxidative Potential of Single Metals or Multielement Particles of Welding FumesManuella Ghanem0Esperanza Perdrix1Laurent Yves Alleman2Davy Rousset3Patrice Coddeville4Department of Pollutant Metrology, Institut National de Recherche et de Sécurité (INRS), 54500 Vandœuvre-lès-Nancy, FranceCenter for Energy and Environment, IMT Lille Douai, Institut Mines-Télécom, University of Lille, 59000 Lille, FranceCenter for Energy and Environment, IMT Lille Douai, Institut Mines-Télécom, University of Lille, 59000 Lille, FranceDepartment of Pollutant Metrology, Institut National de Recherche et de Sécurité (INRS), 54500 Vandœuvre-lès-Nancy, FranceCenter for Energy and Environment, IMT Lille Douai, Institut Mines-Télécom, University of Lille, 59000 Lille, FranceTo evaluate the chemical behavior and the health impact of welding fumes (WF), a complex and heterogeneous mixture of particulate metal oxides, two certified reference materials (CRMs) were tested: mild steel WF (MSWF-1) and stainless steel WF (SSWF-1). We determined their total chemical composition, their solubility, and their oxidative potential in a phosphate buffer (PB) solution under physiological conditions (pH 7.4 and 37 °C). The oxidative potential (OP<sup>DTT</sup>) of WF CRMs was evaluated using an acellular method by following the dithiothreitol (DTT) consumption rate (µmol DTT L<sup>−1</sup> min<sup>−1</sup>). Pure metal salts present in the PB soluble fraction of the WF CRMs were tested individually at equivalent molarity to estimate their specific contribution to the total OP<sup>DTT</sup>. The metal composition of MSWF-1 consisted mainly of Fe, Zn, Mn, and Cu and the SSWF-1 composition consisted mainly of Fe, Mn, Cr, Ni, Cu, and Zn, in diminishing order. The metal PB solubility decreased from Cu (11%) to Fe (approximately 0.2%) for MSWF-1 and from Mn (9%) to Fe (<1%) for SSWF-1. The total OP<sup>DTT</sup> of SSWF-1 is 2.2 times the OP<sup>DTT</sup> of MSWF-1 due to the difference in oxidative capacity of soluble transition metals. Cu (II) and Mn (II) are the most sensitive towards DTT while Cr (VI), Fe (III), and Zn (II) are barely reactive, even at higher concentrations. The OP<sup>DTT</sup> measured for both WF CRMs extracts compare well with simulated extracts containing the main metals at their respective PB-soluble concentrations. The most soluble transition metals in the simulated extract, Mn (II) and Cu (II), were the main contributors to OP<sup>DTT</sup> in WF CRMs extracts. Mn (II), Cu (II), and Ni (II) might enhance the DTT oxidation by a redox catalytic reaction. However, summing the main individual soluble metal DTT response induces a large overestimation probably linked to modifications in the speciation of various metals when mixed. The complexation of metals with different ligands present in solution and the interaction between metals in the PB-soluble fraction are important phenomena that can influence OP<sup>DTT</sup> depletion and therefore the potential health effect of inhaled WF.https://www.mdpi.com/2073-4433/12/1/30oxidative potentialDTTphosphate buffer solubilitymetalwelding fumesparticles
collection DOAJ
language English
format Article
sources DOAJ
author Manuella Ghanem
Esperanza Perdrix
Laurent Yves Alleman
Davy Rousset
Patrice Coddeville
spellingShingle Manuella Ghanem
Esperanza Perdrix
Laurent Yves Alleman
Davy Rousset
Patrice Coddeville
Phosphate Buffer Solubility and Oxidative Potential of Single Metals or Multielement Particles of Welding Fumes
Atmosphere
oxidative potential
DTT
phosphate buffer solubility
metal
welding fumes
particles
author_facet Manuella Ghanem
Esperanza Perdrix
Laurent Yves Alleman
Davy Rousset
Patrice Coddeville
author_sort Manuella Ghanem
title Phosphate Buffer Solubility and Oxidative Potential of Single Metals or Multielement Particles of Welding Fumes
title_short Phosphate Buffer Solubility and Oxidative Potential of Single Metals or Multielement Particles of Welding Fumes
title_full Phosphate Buffer Solubility and Oxidative Potential of Single Metals or Multielement Particles of Welding Fumes
title_fullStr Phosphate Buffer Solubility and Oxidative Potential of Single Metals or Multielement Particles of Welding Fumes
title_full_unstemmed Phosphate Buffer Solubility and Oxidative Potential of Single Metals or Multielement Particles of Welding Fumes
title_sort phosphate buffer solubility and oxidative potential of single metals or multielement particles of welding fumes
publisher MDPI AG
series Atmosphere
issn 2073-4433
publishDate 2021-12-01
description To evaluate the chemical behavior and the health impact of welding fumes (WF), a complex and heterogeneous mixture of particulate metal oxides, two certified reference materials (CRMs) were tested: mild steel WF (MSWF-1) and stainless steel WF (SSWF-1). We determined their total chemical composition, their solubility, and their oxidative potential in a phosphate buffer (PB) solution under physiological conditions (pH 7.4 and 37 °C). The oxidative potential (OP<sup>DTT</sup>) of WF CRMs was evaluated using an acellular method by following the dithiothreitol (DTT) consumption rate (µmol DTT L<sup>−1</sup> min<sup>−1</sup>). Pure metal salts present in the PB soluble fraction of the WF CRMs were tested individually at equivalent molarity to estimate their specific contribution to the total OP<sup>DTT</sup>. The metal composition of MSWF-1 consisted mainly of Fe, Zn, Mn, and Cu and the SSWF-1 composition consisted mainly of Fe, Mn, Cr, Ni, Cu, and Zn, in diminishing order. The metal PB solubility decreased from Cu (11%) to Fe (approximately 0.2%) for MSWF-1 and from Mn (9%) to Fe (<1%) for SSWF-1. The total OP<sup>DTT</sup> of SSWF-1 is 2.2 times the OP<sup>DTT</sup> of MSWF-1 due to the difference in oxidative capacity of soluble transition metals. Cu (II) and Mn (II) are the most sensitive towards DTT while Cr (VI), Fe (III), and Zn (II) are barely reactive, even at higher concentrations. The OP<sup>DTT</sup> measured for both WF CRMs extracts compare well with simulated extracts containing the main metals at their respective PB-soluble concentrations. The most soluble transition metals in the simulated extract, Mn (II) and Cu (II), were the main contributors to OP<sup>DTT</sup> in WF CRMs extracts. Mn (II), Cu (II), and Ni (II) might enhance the DTT oxidation by a redox catalytic reaction. However, summing the main individual soluble metal DTT response induces a large overestimation probably linked to modifications in the speciation of various metals when mixed. The complexation of metals with different ligands present in solution and the interaction between metals in the PB-soluble fraction are important phenomena that can influence OP<sup>DTT</sup> depletion and therefore the potential health effect of inhaled WF.
topic oxidative potential
DTT
phosphate buffer solubility
metal
welding fumes
particles
url https://www.mdpi.com/2073-4433/12/1/30
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