Search results for "Risk in Cardiovascular Disease"

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The impact of aircraft noise on vascular and cardiac function in relation to noise event number: a randomized trial

2020

Abstract Aims Nighttime aircraft noise exposure has been associated with increased risk of hypertension and myocardial infarction, mechanistically linked to sleep disturbance, stress, and endothelial dysfunction. It is unclear, whether the most widely used metric to determine noise exposure, equivalent continuous sound level (Leq), is an adequate indicator of the cardiovascular impact induced by different noise patterns. Methods and results In a randomized crossover study, we exposed 70 individuals with established cardiovascular disease or increased cardiovascular risk to two aircraft noise scenarios and one control scenario. Polygraphic recordings, echocardiography, and flow-mediated dila…

MaleTime FactorsAircraft noiseAircraftBrachial ArteryPhysiologyDenmark030204 cardiovascular system & hematologyVentricular Function Leftlaw.invention0302 clinical medicineRandomized controlled triallawDiastoleAcademicSubjects/MED00200030212 general & internal medicineMyocardial infarctionEndothelial dysfunctionAircraft noise exposureSleep disorderCross-Over StudiesMiddle AgedEchocardiography DopplerIrritable MoodFlow-mediated dilationVasodilationEnvironmental healthCardiovascular DiseasesNoise TransportationCardiologyDisease ProgressionFemaleCardiology and Cardiovascular MedicineCardiac function curvemedicine.medical_specialtyRisk in Cardiovascular DiseaseDiastoleSleep disturbance03 medical and health sciencesDouble-Blind MethodPhysiology (medical)Internal medicinemedicinePressureHumansAgedbusiness.industryCardiac functionStroke VolumeOriginal ArticlesVascular functionmedicine.diseaseCrossover studybusinessCardiovascular Research
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Loss of life expectancy from air pollution compared to other risk factors: a worldwide perspective

2020

Abstract Aims Long-term exposure of humans to air pollution enhances the risk of cardiovascular and respiratory diseases. A novel Global Exposure Mortality Model (GEMM) has been derived from many cohort studies, providing much-improved coverage of the exposure to fine particulate matter (PM2.5). We applied the GEMM to assess excess mortality attributable to ambient air pollution on a global scale and compare to other risk factors. Methods and results We used a data-informed atmospheric model to calculate worldwide exposure to PM2.5 and ozone pollution, which was combined with the GEMM to estimate disease-specific excess mortality and loss of life expectancy (LLE) in 2015. Using this model, …

Lung DiseasesMaleFine particulate matterTime Factors010504 meteorology & atmospheric sciencesPhysiologyAnthropogenic emissionsFossil fuel emissionsAir pollution010501 environmental sciencesGlobal Healthmedicine.disease_cause01 natural sciencesRisk FactorsGlobal healthAcademicSubjects/MED00200Childmedia_commonAged 80 and overExposure to ViolenceExpectancy theoryAir PollutantsMortality rateMiddle AgedParticulatesCardiovascular DiseasesChild PreschoolPublic health risksFemaleCardiology and Cardiovascular MedicineLoss of lifeAdultPollutionAdolescentRisk in Cardiovascular Diseasemedia_common.quotation_subjectAir pollutionViolenceRisk AssessmentYoung AdultOzoneLife ExpectancyPhysiology (medical)Environmental healthTobacco SmokingmedicineHumansReview Series from the Naples 2019 Joint Meeting of the ESC Working Groups on Myocardial Function and Cellular Biology of the HeartAged0105 earth and related environmental sciencesInfant NewbornLoss of life expectancyInfantEnvironmental ExposureOriginal ArticlesNatural emissionsEditor's ChoiceLife expectancyEnvironmental scienceParticulate MatterTobacco Smoke PollutionCardiovascular Research
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