2022: Two-year Impact Factor: 4.4
Scopus Journal Metrics
CiteScore (2022): 5.3
SJR(2022): 0.78
Open Access

Health Promot Perspect. 2015;5(4): 296-303. doi: 10.15171/hpp.2015.035
PMID: 26933649        PMCID: PMC4772800

Original Research

Occupational Exposure and Health Impairments of Formaldehyde on Employees of a Wood Industry

Mohammad Javad Jafari 1 * , Abolfazl Rahimi 2, Leila Omidi 3, Mohammad Hassan Behzadi 4, Mohammad Hassan Rajabi 5

Cited by CrossRef: 13

1- Kangarlou M, Fatemi F, Dehdashti A, Iravani H, Saleh E. Occupational health risk assessment of airborne formaldehyde in medical laboratories. Environ Sci Pollut Res. 2023;30(17):50392 [Crossref]
2- Asgedom A, Bråtveit M, Moen B. Knowledge, attitude and practice related to chemical hazards and personal protective equipment among particleboard workers in Ethiopia: a cross-sectional study. BMC Public Health. 2019;19(1) [Crossref]
3- Ma H, Song X, Zhang W, Ling X, Yang X, Wu W, Lou K, Xu H. Formaldehyde inhibits development of T lymphocytes in mice. Toxicological & Environmental Chemistry. 2020;102(9):473 [Crossref]
4- Miligi L, Piro S, Airoldi C, Di Rico R, Ricci R, Paredes Alpaca R, De Pasquale F, Veraldi A, Ranucci A, Massari S, Marinaccio A, Stoppa G, Cenni A, Trane C, Peruzzi A, Aprea M. Formaldehyde and Acetaldehyde Exposure in “Non-Traditional” Occupational Sectors: Bakeries and Pastry Producers. IJERPH. 2023;20(3):1983 [Crossref]
5- Shetty S, Rangiah K. Simple click chemistry‐based derivatization to quantify endogenous formaldehyde in milk using ultra‐high‐performance liquid chromatography/tandem mass spectrometry in selected reaction monitoring mode. Rapid Comm Mass Spectrometry. 2020;34(19) [Crossref]
6- Ma H, Lin J, Li L, Ding Z, Huang P, Song X, Lou K, Wang W, Xu H. Formaldehyde reinforces pro-inflammatory responses of macrophages through induction of glycolysis. Chemosphere. 2021;282:131149 [Crossref]
7- Asgedom A, Bråtveit M, Schlünssen V, Moen B. Exposure to inhalable dust, endotoxin and formaldehyde in factories processing particleboards from eucalyptus trees in Ethiopia. EOH-P. 2020;2(1):n/a [Crossref]
8- Asadi P, Azari M, Rafieepour A, Rahmati A. Feasibility of Biological Monitoring of Anatomy Laboratory Staff Exposed to Formaldehyde. Health Scope. 2018;In Press(In Press) [Crossref]
9- Ma H, Ding Z, Xie Y, Li L, Li D, Lou K, Wang W, Xu H. Methylglyoxal produced by tumor cells through formaldehyde-enhanced Warburg effect potentiated polarization of tumor-associated macrophages. Toxicology and Applied Pharmacology. 2022;438:115910 [Crossref]
10- El-Feky A, Kabbash I, Zayet H, El-Sallamy R. Health disorders and safety measures among workers in Tanta Flax and Oil Company, Egypt. Environ Sci Pollut Res. 2021;28(11):13981 [Crossref]
11- Becker A, Lohmann N, Serra C, Le Calvé S. Development of a Portable and Modular Gas Generator: Application to Formaldehyde Analysis. Chemosensors. 2022;10(4):131 [Crossref]

Indexing and Abstracting

2-year Impact Factor: 4.4


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