Air pollution affects liver health and can cause fibrosis, according to findings published in the Journal of Hepatology.
Researchers from Wayne State University, Detroit, MI, experimented with the high concentration airborne particle matter called PM2.5 to investigate the effects of air pollution on the liver. Previous research has linked PM2.5 to the liver, causing effects like fibrosis, metabolic disease, and liver cancer.
Other research focused on the effects of pollution on lung tissues and the cardiovascular system, but these experts hypothesized that pollution would also be detrimental to the liver. As such, it is the most abundant and most toxic air pollutant in urban areas.
Detroit, where the research was conducted, was rated as one of the cities with the most PM2.5 in the country, according to the American Lung Association’s annual air quality reports.
Animal models used in the study were exposed to real world PM2.5 for short and long term periods of inhalation for 10 weeks. The team also determined stress sensors on the cell membrane that initiate PM2.5 triggered inflammatory stress responses promoting collagen deposition through molecular, cellular, and pathological analyses.
“Our work has a major impact on medical care and health policymaking for the populations under air pollution environment,” research leader Kezhong Zhang, PhD, said in a press release. Our work defined that air pollution, specifically PM2.5 pollutant, is an independent risk factor of liver fibrosis. The molecular and cellular mechanisms we revealed in this work have very important implications in clinical disease diagnosis and treatment associated with air pollution.”
Additionally, patients who experience extensive daily traffic and automobile mechanics should pay extra attention to biomarkers and liver enzymes that could indicate liver disease.
“Physicians or health care professionals should monitor liver pathology and consider preventive therapeutic strategies for liver disease for populations and patients in urban air pollution environments,” Zhang concluded.