Environment International (Dec 2018)

Long- and short-term air pollution exposure and measures of arterial stiffness in the Framingham Heart Study

  • Petter L.S. Ljungman,
  • Wenyuan Li,
  • Mary B. Rice,
  • Elissa H. Wilker,
  • Joel Schwartz,
  • Diane R. Gold,
  • Petros Koutrakis,
  • Emelia J. Benjamin,
  • Ramachandran S. Vasan,
  • Gary F. Mitchell,
  • Naomi M. Hamburg,
  • Murray A. Mittleman

Journal volume & issue
Vol. 121
pp. 139 – 147

Abstract

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Background: Studies of air pollution exposure and arterial stiffness have reported inconsistent results and large studies employing the reference standard of arterial stiffness, carotid-femoral pulse-wave velocity (CFPWV), have not been conducted. Aim: To study long-term exposure to ambient fine particles (PM2.5), proximity to roadway, and short-term air pollution exposures in relation to multiple measures of arterial stiffness in the Framingham Heart Study. Methods: We assessed central arterial stiffness using CFPWV, forward pressure wave amplitude, mean arterial pressure and augmentation index. We investigated long-and short-term air pollution exposure associations with arterial stiffness with linear regressions using long-term residential PM2.5 (2003 average from a spatiotemporal model using satellite data) and proximity to roadway in addition to short-term averages of PM2.5, black carbon, particle number, sulfate, nitrogen oxides, and ozone from stationary monitors. Results: We examined 5842 participants (mean age 51 ± 16, 54% women). Living closer to a major roadway was associated with higher arterial stiffness (0.11 m/s higher CFPWV [95% CI: 0.01, 0.22] living <50 m vs 400 ≤ 1000 m). We did not observe association between arterial stiffness measures and long-term PM2.5 or short-term levels of PM2.5, particle number, sulfate or ozone. Higher levels of black carbon and nitrogen oxides in the previous days were unexpectedly associated with lower arterial stiffness. Conclusions: Long-term exposure to PM2.5 was not associated with arterial stiffness but positive associations with living close to a major road may suggest that pollutant mixtures very nearby major roads, rather than PM2.5, may affect arterial stiffness. Furthermore, short-term air pollution exposures were not associated with higher arterial stiffness. Keywords: Arterial stiffness, Air pollution, Applanation tonometry, Epidemiology