CAC scoring results in a high reclassification rate in the intermediate-risk cohort, demonstrating the benefit of imaging of subclinical coronary atherosclerosis. Our study supports its application, especially in carefully selected individuals with intermediate risk.
Background
Long-term exposure to urban air pollution may accelerate atherogenesis, but mechanisms are still unclear. The induction of a low-grade systemic inflammatory state is a plausible mechanistic pathway. Objectives: We analyzed the association of residential long-term exposure to particulate matter (PM) and high traffic with systemic inflammatory markers.
Methods
We used baseline data from the German Heinz Nixdorf Recall Study, a population-based, prospective cohort study of 4,814 participants that started in 2000. Fine PM [aerodynamic diameter ≤ 2.5 μm (PM
2.5
)] exposure based on a small-scale dispersion and chemistry transport model was assigned to each home address. We calculated distances between residences and major roads. Long-term exposure to air pollution (annual PM
2.5
and distance to high traffic) and concentration of inflammatory markers [high-sensitivity C-reactive protein (hs-CRP) and fibrinogen] on the day of the baseline visit were analyzed with sex-stratified multiple linear regression, controlling for individual-level risk factors.
Results
In the adjusted analysis, a cross-sectional exposure difference of 3.91 μg/m
3
in PM
2.5
(interdecile range) was associated with increases in hs-CRP of 23.9% [95% confidence interval (CI), 4.1 to 47.4%] and fibrinogen of 3.9% (95% CI, 0.3 to 7.7%) in men, whereas we found no association in women. Chronic traffic exposure was not associated with inflammatory markers. Short-term exposures to air pollutants and temperature did not influence the results markedly.
Conclusions
Our study indicates that long-term residential exposure to high levels of PM
2.5
is associated with systemic inflammatory markers in men. This might provide a link between air pollution and coronary atherosclerosis.
High-density lipoproteins (HDL) are the major plasma carriers for sphingosine 1-phosphate (S1P) in healthy individuals, but their S1P content is unknown for patients with coronary artery disease (CAD). The aim of the study was to determine whether the S1P levels in plasma and HDL are altered in coronary artery disease. S1P was determined in plasma and HDL isolated by ultracentrifugation from patients with myocardial infarction (MI, n = 83), stable CAD (sCAD, n = 95), and controls (n = 85). In our study, total plasma S1P levels were lower in sCAD than in controls (305 vs. 350 pmol/mL). However, normalization to HDL-cholesterol (a known determinant of plasma S1P) revealed higher normalized plasma S1P levels in sCAD than in controls (725 vs. 542 pmol/mg) and even higher ones in MI (902 pmol/mg). The S1P amount contained in isolated HDL from these individuals was lower in sCAD than in controls (S1P per protein in HDL: 132 vs. 153 pmol/mg). The amount of total plasma S1P bound to HDL was lower in sCAD and MI than in controls (sCAD: 204, MI: 222, controls: 335 pmol/mL), while the non-HDL-bound S1P was, accordingly, higher (sCAD: 84, MI: 81, controls: 10 pmol/mL). HDL-bound plasma S1P was dependent on the plasma HDL-C in all groups, but normalization to HDL-C still yielded lower HDL-bound plasma S1P in patients with sCAD than in controls (465 vs. 523 pmol/mg). The ratio of non-HDL-bound plasma S1P to HDL-C-normalized HDL-bound S1P was also higher in both sCAD (0.18 mg/mL) and MI (0.15 mg/mL) than in controls (0.02 mg/mL). Remarkably, levels of non-HDL-bound plasma S1P correlated with the severity of CAD symptoms as graded by Canadian Cardiovascular Score, and discriminated patients with MI and sCAD from controls. Furthermore, a negative association was present between non-HDL-bound plasma S1P and the S1P content of isolated HDL in controls, but was absent in sCAD and MI. Finally, MI patients with symptom duration of less than 12 h had the highest levels of total and normalized plasma S1P, as well as the highest levels of S1P in isolated HDL. The HDL-C-normalized plasma level of S1P is increased in sCAD and even further in MI. This may be caused by an uptake defect of HDL for plasma S1P in CAD, and may represent a novel marker of HDL dysfunction.
Reduced HDL-S1P content contributes to HDL dysfunction in CAD. It can be efficiently increased by S1P-loading in vitro and in vivo, providing a novel approach to correcting HDL dysfunction in CAD.
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