Assessment of occupational exposure to welding fumes by inductively coupled plasma‐mass spectroscopy and by the alkaline Comet assay

Botta, Céline; Iarmarcovai, G.; Chaspoul, Florence; Sari-Minodier, I.; Pompili, J.; Orsière, Thierry; Bergé-Lefranc, Jean-Louis; Botta, A.; Gallice, Philippe; Méo, Michel De

doi:10.1002/em.20205

Cited by 52 publications

(20 citation statements)

References 61 publications

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“…A minimum of 50 cells were scored for each sample at 400× magnification. The distance between the edge of the head and the end of the tail was measured using an automated image analysis system (Optimas 6.51, Media Cybernetics Inc., Silver Spring, Md) [55,56]. …”

Section: Methodsmentioning

confidence: 99%

Comparison of stainless and mild steel welding fumes in generation of reactive oxygen species

Leonard

Chen

Stone

et al. 2010

Particle and Fibre Toxicology

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BackgroundWelding fumes consist of a wide range of complex metal oxide particles which can be deposited in all regions of the respiratory tract. The welding aerosol is not homogeneous and is generated mostly from the electrode/wire. Over 390,000 welders were reported in the U.S. in 2008 while over 1 million full-time welders were working worldwide. Many health effects are presently under investigation from exposure to welding fumes. Welding fume pulmonary effects have been associated with bronchitis, metal fume fever, cancer and functional changes in the lung. Our investigation focused on the generation of free radicals and reactive oxygen species from stainless and mild steel welding fumes generated by a gas metal arc robotic welder. An inhalation exposure chamber located at NIOSH was used to collect the welding fume particles.ResultsOur results show that hydroxyl radicals (.OH) were generated from reactions with H2O2 and after exposure to cells. Catalase reduced the generation of .OH from exposed cells indicating the involvement of H2O2. The welding fume suspension also showed the ability to cause lipid peroxidation, effect O2 consumption, induce H2O2 generation in cells, and cause DNA damage.ConclusionIncrease in oxidative damage observed in the cellular exposures correlated well with .OH generation in size and type of welding fumes, indicating the influence of metal type and transition state on radical production as well as associated damage. Our results demonstrate that both types of welding fumes are able to generate ROS and ROS-related damage over a range of particle sizes; however, the stainless steel fumes consistently showed a significantly higher reactivity and radical generation capacity. The chemical composition of the steel had a significant impact on the ROS generation capacity with the stainless steel containing Cr and Ni causing more damage than the mild steel. Our results suggest that welding fumes may cause acute lung injury. Since type of fume generated, particle size, and elapsed time after generation of the welding exposure are significant factors in radical generation and particle deposition these factors should be considered when developing protective strategies.

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Section: Methodsmentioning

confidence: 99%

Comparison of stainless and mild steel welding fumes in generation of reactive oxygen species

Leonard

Chen

Stone

et al. 2010

Particle and Fibre Toxicology

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“…Investigations of the impurity atom effect on the functioning of biological objects are currently of great interest 1–3 because they allow to estimate the stability of biological objects under persistent influence of impurity atoms.…”

Section: Introductionmentioning

confidence: 99%

X_α‐DVM study of properties of active sites of hemoglobin upon substitution of Fe by other 3d‐metal atoms

Yuryeva

2007

Int J of Quantum Chemistry

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ABSTRACT:The aim of this study is to investigate changes in functional properties of active sites of deoxyhemoglobin upon substitution of Fe by the other 3d-metal atoms. Relationships between parameters of electronic structure, chemical binding, and temperatures of structure stability loss of active sites of ␣-and ␤-subunits of deoxyhemoglobin are estimated using the X ␣ -DV method. It is shown that the calculation technique of the temperature T m of structure stability loss of active sites of deoxyhemoglobin based on the thermodynamic uncertainty relation gives a reasonable interpretation of the maximal possible temperature for a human body living. Temperatures of structure stability loss are higher for Cr, Mn atoms (89, 42°C) and lower for Co, Ni, Cu, Zn (40, 37, 33, 29°C) in comparison with Fe (41°C). Thus the calculations performed show that the temperature of structure stability loss is controlled both by the type of the 3d atom carrying oxygen and small structural differences in active sites of ␣-and ␤-subunits of deoxyhemoglobin.

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“…A nonlinear regression analysis was performed on the normalized distribution frequencies using a v 2 function with TableCurve 2D. The calculated degree of freedom (n) for the function, named OTM v 2 , was assumed to be a quantitative measure of the level of DNA damage in the sample [Bauer et al, 1998;Botta et al, 2006]. The induction activity (IA) was calculated by nonlinear regression analysis with TableCurve 2D using an arbitrary model.…”

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confidence: 99%

Evaluation of the genotoxicity of river sediments from industrialized and unaffected areas using a battery of short‐term bioassays

Aouadene¹,

Giorgio²,

Sarrazin³

et al. 2008

Environ and Mol Mutagen

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The present investigation evaluated the capacity of the Salmonella mutagenicity test, the comet assay, and the micronucleus assay to detect and characterize the genotoxic profile of river sediments. Three stations were selected on an urban river (Bouches du Rhône, France) exposed to various sources of industrial and urban pollution (StA, StB, and StC) and one station on its tributary (StD). One station in a nonurban river was included (REF). The concentrations of 16 polycyclic aromatic hydrocarbons (PAHs) were determined by HPLC, and the genotoxicity of the sediments was monitored by the Salmonella mutagenicity test (TA98 + S9, YG1041 +/- S9), the comet assay, and the micronucleus assay on CHO cells. Chemical analysis showed that the total PAH concentrations ranged from 23 microg kg(-1) dw (REF) to 1285 microg kg(-1) dw (StD). All the sediments were mutagenic in the Salmonella mutagenicity test. The mutagenicity was probably induced by the presence of nitroarenes (StA, StB, StC, and StD) and aromatic amines (REF) as deduced from the mutagenicity profiles of strains YG1041 +/- S9 and TA98 + S9. The comet assay revealed direct DNA lesions in REF, StA, and StB sediments and metabolization-dependent DNA damage in StC and StD. The micronucleus assay showed an absence of clastogenicity for StA +/- S9 and StC-S9, and a significant clastogenicity +/- S9 for the three other stations. The genotoxicity ranking determined by the comet assay + S9 matched the ranking of total and carcinogenic PAH concentrations, and this assay was found to be the most sensitive.

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Assessment of occupational exposure to welding fumes by inductively coupled plasma‐mass spectroscopy and by the alkaline Comet assay

Cited by 52 publications

References 61 publications

Comparison of stainless and mild steel welding fumes in generation of reactive oxygen species

Comparison of stainless and mild steel welding fumes in generation of reactive oxygen species

X_α‐DVM study of properties of active sites of hemoglobin upon substitution of Fe by other 3d‐metal atoms

Evaluation of the genotoxicity of river sediments from industrialized and unaffected areas using a battery of short‐term bioassays

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Assessment of occupational exposure to welding fumes by inductively coupled plasma‐mass spectroscopy and by the alkaline Comet assay

Cited by 52 publications

References 61 publications

Comparison of stainless and mild steel welding fumes in generation of reactive oxygen species

Comparison of stainless and mild steel welding fumes in generation of reactive oxygen species

Xα‐DVM study of properties of active sites of hemoglobin upon substitution of Fe by other 3d‐metal atoms

Evaluation of the genotoxicity of river sediments from industrialized and unaffected areas using a battery of short‐term bioassays

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X_α‐DVM study of properties of active sites of hemoglobin upon substitution of Fe by other 3d‐metal atoms