| People | Locations | Statistics |
|---|---|---|
| Tekkaya, A. Erman |
| |
| Förster, Peter |
| |
| Mudimu, George T. |
| |
| Shibata, Lillian Marie |
| |
| Talabbeydokhti, Nasser |
| |
| Laffite, Ernesto Dante Rodriguez |
| |
| Schöpke, Benito |
| |
| Gobis, Anna |
| |
| Alfares, Hesham K. |
| |
| Münzel, Thomas |
| |
| Joy, Gemini Velleringatt |
| |
| Oubahman, Laila |
| |
| Filali, Youssef |
| |
| Philippi, Paula |
| |
| George, Alinda |
| |
| Lucia, Caterina De |
| |
| Avril, Ludovic |
| |
| Belachew, Zigyalew Gashaw |
| |
| Kassens-Noor, Eva | Darmstadt |
|
| Cho, Seongchul |
| |
| Tonne, Cathryn |
| |
| Hosseinlou, Farhad |
| |
| Ganvit, Harsh |
| |
| Schmitt, Konrad Erich Kork |
| |
| Grimm, Daniel |
|
Héritier, Harris
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (17/17 displayed)
- 2019A systematic analysis of mutual effects of transportation noise and air pollution exposure on myocardial infarction mortalitycitations
- 2019Façades, floors and maps - Influence of exposure measurement error on the association between transportation noise and myocardial infarctioncitations
- 2019Façades, floors and maps – influence of exposure measurement error on the association between transportation noise and myocardial infarctioncitations
- 2019A systematic analysis of mutual effects of transportation noise and air pollution exposure on myocardial infarction mortality: a nationwide cohort study in Switzerlandcitations
- 2018Adverse impact of nocturnal transportation noise on glucose regulation in healthy young adultscitations
- 2018Transportation noise exposure, noise annoyance and respiratory health in adultscitations
- 2018Sleep spindle characteristics and arousability from nighttime transportation noise exposure in healthy young and older individualscitations
- 2018Diurnal variability of transportation noise exposure and cardiovascular mortalitycitations
- 2018Long-term exposure to transportation noise and its association with adiposity markers and development of obesitycitations
- 2017Exposure to road, railway, and aircraft noise and arterial stiffness in the SAPALDIA study: annual average noise levels and temporal noise characteristicscitations
- 2017Transportation noise exposure and cardiovascular mortalitycitations
- 2017Exposure to road, railway, and aircraft noise and arterial stiffness in the SAPALDIA Studycitations
- 2017Long-term exposure to transportation noise and air pollution in relation to incident diabetes in the SAPALDIA studycitations
- 2017Transportation noise exposure and cardiovascular mortality: a nationwide cohort study from Switzerlandcitations
- 2016Long-term transportation noise annoyance is associated with subsequent lower levels of physical activitycitations
- 2016Long-term transportation noise annoyance is associated with subsequent lower levels of physical activitycitations
- 2014The Association between Road Traffic Noise Exposure, Annoyance and Health-Related Quality of Life (HRQOL)citations
Places of action
| Organizations | Location | People |
|---|
article
Long-term exposure to transportation noise and air pollution in relation to incident diabetes in the SAPALDIA study
Abstract
<p>BACKGROUND: Epidemiological studies have inconsistently linked transportation noise and air pollution (AP) with diabetes risk. Most studies have considered single noise sources and/or AP, but none has investigated their mutually independent contributions to diabetes risk.</p><p>METHODS: We investigated 2631 participants of the Swiss Cohort Study on Air Pollution and Lung and Heart Diseases in Adults (SAPALDIA), without diabetes in 2002 and without change of residence between 2002 and 2011. Using questionnaire and biomarker data, incident diabetes cases were identified in 2011. Noise and AP exposures in 2001 were assigned to participants' residences (annual average road, railway or aircraft noise level during day-evening-night (Lden), total night number of noise events, intermittency ratio (temporal variation as proportion of event-based noise level over total noise level) and nitrogen dioxide (NO2) levels. We applied mixed Poisson regression to estimate the relative risk (RR) of diabetes and their 95% confidence intervals (CI) in mutually-adjusted models.</p><p>RESULTS: Diabetes incidence was 4.2%. Median [interquartile range (IQR)] road, railway, aircraft noise and NO2 were 54 (10) dB, 32 (11) dB, 30 (12) dB and 21 (15) μg/m3, respectively. Lden road and aircraft were associated with incident diabetes (respective RR: 1.35; 95% CI: 1.02-1.78 and 1.86; 95% CI: 0.96-3.59 per IQR) independently of Lden railway and NO2 (which were not associated with diabetes risk) in mutually adjusted models. We observed stronger effects of Lden road among participants reporting poor sleep quality or sleeping with open windows.</p><p>CONCLUSIONS: Transportation noise may be more relevant than AP in the development of diabetes, potentially acting through noise-induced sleep disturbances.</p>
Topics
Search in FID move catalog