Temperature and Inflammation: Investigating the impact of short-term exposure to ambient temperature on biomarkers of subclinical inflammation.

Chronic subclinical inflammation, which gradually increases with age, is a major risk factor in the development of several chronic diseases, including cardiovascular disease, type 2 diabetes, cancer, and mental disorders. Environmental factors, including air pollution and lifestyle, influence subclinical inflammation. However, evidence of the influence of ambient temperature (AT) on subclinical inflammation is limited. This study addresses this gap by examining the association between AT and biomarkers of subclinical inflammation in a cohort of older German women. We investigated 359 women (age range: 68.6-79.1 years) from the German SALIA cohort during the 2007-2010 follow-up. Data on 12 plasma biomarkers of subclinical inflammation, climatic factors (AT and relative humidity), and air pollution were collected and analyzed. Linear regression models with moving average lag periods (lag 0-1, lag 0-2, …, lag 0-14) were used to estimate associations, adjusting for age, BMI, smoking, alcohol consumption, socioeconomic status, cardiovascular disease, and respiratory disease. We observed consistent and significant associations between higher AT and increased levels of TGF-β1 and MCP-1/CCL2, as well as between higher AT and decreased levels of C3c and sICAM-1. For example, the lag 0-7 moving average results showed that a 5 °C increase in AT was associated with a 9.97 % increase in TGF-β1 (95 % CI: 1.54 %, 19.10 %), an 8.96 % increase in MCP-1/CCL2 (95 % CI: 4.38 %, 13.75 %), a 5.84 % decrease in C3c (95 % CI: -8.87 %, -2.71 %), and a 3.97 % decrease in sICAM-1 (95 % CI: -7.22 %, -0.59 %). These findings underscore the role of environmental factors in subclinical inflammation and the link between AT and immune mediators associated with chronic disease risk.