Literature DB >> 30948521

Welding fumes and lung cancer: a meta-analysis of case-control and cohort studies.

Manoj Kumar Honaryar1,2,3, Ruth M Lunn4, Danièle Luce5, Wolfgang Ahrens6, Andrea 't Mannetje7, Johnni Hansen8, Liacine Bouaoun1, Dana Loomis1,9, Graham Byrnes1, Nadia Vilahur1,10, Leslie Stayner11, Neela Guha1,12.   

Abstract

BACKGROUND: An estimated 110 million workers are exposed to welding fumes worldwide. Welding fumes are classified by the International Agency for Research on Cancer as carcinogenic to humans (group 1), based on sufficient evidence of lung cancer from epidemiological studies.
OBJECTIVE: To conduct a meta-analysis of case-control and cohort studies on welding or exposure to welding fumes and risk of lung cancer, accounting for confounding by exposure to asbestos and tobacco smoking.
METHODS: The literature was searched comprehensively in PubMed, reference lists of relevant publications and additional databases. Overlapping populations were removed. Meta-relative risks (mRRs) were calculated using random effects models. Publication bias was assessed using funnel plot, Eggers's test and Begg's test.
RESULTS: Forty-five studies met the inclusion criteria (20 case-control, 25 cohort/nested case-control), which reduced to 37 when overlapping study populations were removed. For 'ever' compared with 'never' being a welder or exposed to welding fumes, mRRs and 95% CIs were 1.29 (1.20 to 1.39; I2=26.4%; 22 studies) for cohort studies, 1.87 (1.53 to 2.29; I2=44.1%; 15 studies) for case-control studies and 1.17 (1.04 to 1.38; I2=41.2%) for 8 case-control studies that adjusted for smoking and asbestos exposure. The mRRs were 1.32 (95% CI 1.20 to 1.45; I2=6.3%; 15 studies) among 'shipyard welders', 1.44 (95% CI 1.07 to 1.95; I2=35.8%; 3 studies) for 'mild steel welders' and 1.38 (95% CI 0.89 to 2.13; I2=68.1%; 5 studies) among 'stainless steel welders'. Increased risks persisted regardless of time period, geographic location, study design, occupational setting, exposure assessment method and histological subtype.
CONCLUSIONS: These results support the conclusion that exposure to welding fumes increases the risk of lung cancer, regardless of the type of steel welded, the welding method (arc vs gas welding) and independent of exposure to asbestos or tobacco smoking. © Author(s) (or their employer(s)) 2019. No commercial re-use. See rights and permissions. Published by BMJ.

Entities:  

Keywords:  arc welding; exposure-effect analysis; gas welding; lung cancer; meta-analysis; meta-regression; mild steel welding; stainless steel welding; welding; welding fumes

Year:  2019        PMID: 30948521     DOI: 10.1136/oemed-2018-105447

Source DB:  PubMed          Journal:  Occup Environ Med        ISSN: 1351-0711            Impact factor:   4.402


  13 in total

1.  Commentary: Role and communications of cancer hazard determinations.

Authors:  Jonathan M Samet; Amy Berrington de Gonzalez; Ruth M Lunn; Mary K Schubauer-Berigan
Journal:  Carcinogenesis       Date:  2022-03-24       Impact factor: 4.944

2.  Heavy metals in hair and nails as markers of occupational hazard among welders working in United Arab Emirates.

Authors:  Hisaa Nassir Abdulla Lotah; Anoop Kumar Agarwal; Razia Khanam
Journal:  Toxicol Res       Date:  2021-02-17

3.  Construction and Calibration of an Exposure Matrix for the Welding Trades.

Authors:  Jean-Michel Galarneau
Journal:  Ann Work Expo Health       Date:  2022-02-18       Impact factor: 2.779

4.  Distribution of Lung-RADS categories according to job type in a single shipyard workers.

Authors:  Eui Yup Chung; Young Hoo Shin; Young Wook Kim; Jun Seok Son; Chan Woo Kim; Hyoung Ouk Park; Jun Ho Lee; Seung Hyun Park; Sung Joon Woo; Chang Ho Chae
Journal:  Ann Occup Environ Med       Date:  2021-06-23

Review 5.  Welding Fumes, a Risk Factor for Lung Diseases.

Authors:  Maria Grazia Riccelli; Matteo Goldoni; Diana Poli; Paola Mozzoni; Delia Cavallo; Massimo Corradi
Journal:  Int J Environ Res Public Health       Date:  2020-04-08       Impact factor: 3.390

6.  An occupational exposure limit for welding fumes is urgently needed.

Authors:  Bengt Sjögren; Maria Albin; Karin Broberg; Per Gustavsson; Håkan Tinnerberg; Gunnar Johanson
Journal:  Scand J Work Environ Health       Date:  2021-11-25       Impact factor: 5.024

7.  The Key Characteristics of Carcinogens: Relationship to the Hallmarks of Cancer, Relevant Biomarkers, and Assays to Measure Them.

Authors:  Martyn T Smith; Kathryn Z Guyton; Nicole Kleinstreuer; Alexandre Borrel; Andres Cardenas; Weihsueh A Chiu; Dean W Felsher; Catherine F Gibbons; William H Goodson; Keith A Houck; Agnes B Kane; Michele A La Merrill; Herve Lebrec; Leroy Lowe; Cliona M McHale; Sheroy Minocherhomji; Linda Rieswijk; Martha S Sandy; Hideko Sone; Amy Wang; Luoping Zhang; Lauren Zeise; Mark Fielden
Journal:  Cancer Epidemiol Biomarkers Prev       Date:  2020-03-09       Impact factor: 4.254

8.  Risk of Bias Assessments and Evidence Syntheses for Observational Epidemiologic Studies of Environmental and Occupational Exposures: Strengths and Limitations.

Authors:  Kyle Steenland; M K Schubauer-Berigan; R Vermeulen; R M Lunn; K Straif; S Zahm; P Stewart; W D Arroyave; S S Mehta; N Pearce
Journal:  Environ Health Perspect       Date:  2020-09-14       Impact factor: 9.031

Review 9.  Challenges and recommendations on the conduct of systematic reviews of observational epidemiologic studies in environmental and occupational health.

Authors:  Whitney D Arroyave; Suril S Mehta; Neela Guha; Pam Schwingl; Kyla W Taylor; Barbara Glenn; Elizabeth G Radke; Nadia Vilahur; Tania Carreón; Rebecca M Nachman; Ruth M Lunn
Journal:  J Expo Sci Environ Epidemiol       Date:  2020-05-15       Impact factor: 5.563

10.  The effect of occupational exposure to welding fumes on trachea, bronchus and lung cancer: A protocol for a systematic review and meta-analysis from the WHO/ILO Joint Estimates of the Work-related Burden of Disease and Injury.

Authors:  Frank Pega; Nicholas Chartres; Neela Guha; Alberto Modenese; Rebecca L Morgan; Martha S Martínez-Silveira; Dana Loomis
Journal:  Environ Int       Date:  2020-09-17       Impact factor: 9.621
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