Ecotoxicology and Environmental Safety (Oct 2024)

Associations between blood nickel and lung function in young Chinese: An observational study combining epidemiology and metabolomics

  • Huijuan Zhao,
  • Xinfang Zhang,
  • Mingyu Feng,
  • Jia Zhang,
  • Haochen Yu,
  • Hanwei Chi,
  • Xinyuan Li,
  • Lailai Yan,
  • Pei Yu,
  • Tingting Ye,
  • Guanghe Wang,
  • Shanshan Li,
  • Yuming Guo,
  • Peng Lu

Journal volume & issue
Vol. 284
p. 116963

Abstract

Read online

Prior research has explored the relationship between occupational exposure to nickel and lung function. Nonetheless, there is limited research examining the correlation between blood nickel levels and lung function among young adults in the general population. The metabolomic changes associated with nickel exposure have not been well elucidated. On August 23, 2019, we enrolled 257 undergraduate participants from the Chinese Undergraduates Cohort to undergo measurements of blood nickel levels and lung function. The follow-up study was conducted in May 2021. A linear mixed-effects model was employed to assess the relationship between blood nickel levels and lung function. We also conducted stratified analyses by home address. In addition, in order to explore the biological mechanism of lung function damage caused by nickel exposure, we performed metabolomic analyses of baseline serum samples (N = 251). Both analysis of variance and mixed linear effect models were utilized to assess the impact of blood nickel exposure on metabolism. Our findings from cross-sectional and cohort analyses revealed a significant association between blood nickel levels and decreased forced expiratory volume in the first second (FEV1) and forced vital capacity (FVC) among young adults in the general population. Furthermore, we found stronger associations in urban areas. In metabolomics analysis, a total of nine metabolites were significantly changed under blood nickel exposure. The changed metabolites were mainly enriched in six pathways including carbohydrate, amino acid, and cofactor vitamin metabolism. These metabolic pathways involve inflammation and oxidative stress, indicating that high concentrations of nickel exposure can cause inflammation and oxidative stress by disrupting the above metabolism of the body.

Keywords