Your search keyword '"Johnson, M. (Markey)"' showing total 3 results

1. Traffic-Related Air Pollution and Carotid Plaque Burden in a Canadian City With Low-Level Ambient Pollution

Author

Johnson, M. (Markey), Brook, J.R. (Jeffrey R.), Brook, R.D. (Robert D.), Oiamo, T.H. (Tor H.), Luginaah, I. (Isaac), Peters, P. (Paul A.), Spence, J.D. (J David), Johnson, M. (Markey), Brook, J.R. (Jeffrey R.), Brook, R.D. (Robert D.), Oiamo, T.H. (Tor H.), Luginaah, I. (Isaac), Peters, P. (Paul A.), and Spence, J.D. (J David)

Abstract

Background The association between fine particulate matter and cardiovascular disease has been convincingly demonstrated. The role of traffic-related air pollutants is less clear. To better understand

Published

2020

2. The Canadian Urban Environmental Health Research Consortium - A protocol for building a national environmental exposure data platform for integrated analyses of urban form and health

Author

Brook, J.R. (Jeffrey R.), Setton, E.M. (Eleanor M.), Seed, E. (Evan), Shooshtari, M. (Mahdi), Doiron, D. (Dany), Awadalla, P. (Philip), Brauer, M. (Michael), Hu, H. (Howard), McGrail, K. (Kim), Stieb, D. (Dave), Subarrao, P. (Padmaja), Demers, P. (Paul), Manuel, D. (Doug), McLaughlin, J. (John), Carlsten, C. (Chris), Azad, M. (Meghan), Atkinson, S. (Stephanie), Burnett, R. (Rick), Lou, W. (Wendy), Rainham, D. (Daniel), Evans, G. (Greg), Copes, R. (Ray), Pantelimon, O. (Olimpia), Smargiassi, A. (Audrey), Davies, H. (Hugh), Villeneuve, P. (Paul), Van Den Bosch, M. (Matilda), Chaumont, D. (Diane), Feddema, J. (Johannes), Takaro, T. (Tim), Hakami, A. (Amir), Johnson, M. (Markey), Hatzopoulou, M. (Marianne), Habib, A. (Ahsan), Fuller, D. (Daniel), Widener, M. (Michael), Brook, J.R. (Jeffrey R.), Setton, E.M. (Eleanor M.), Seed, E. (Evan), Shooshtari, M. (Mahdi), Doiron, D. (Dany), Awadalla, P. (Philip), Brauer, M. (Michael), Hu, H. (Howard), McGrail, K. (Kim), Stieb, D. (Dave), Subarrao, P. (Padmaja), Demers, P. (Paul), Manuel, D. (Doug), McLaughlin, J. (John), Carlsten, C. (Chris), Azad, M. (Meghan), Atkinson, S. (Stephanie), Burnett, R. (Rick), Lou, W. (Wendy), Rainham, D. (Daniel), Evans, G. (Greg), Copes, R. (Ray), Pantelimon, O. (Olimpia), Smargiassi, A. (Audrey), Davies, H. (Hugh), Villeneuve, P. (Paul), Van Den Bosch, M. (Matilda), Chaumont, D. (Diane), Feddema, J. (Johannes), Takaro, T. (Tim), Hakami, A. (Amir), Johnson, M. (Markey), Hatzopoulou, M. (Marianne), Habib, A. (Ahsan), Fuller, D. (Daniel), and Widener, M. (Michael)

Abstract

Background: Multiple external environmental exposures related to residential location and urban form including, air pollutants, noise, greenness, and walkability have been linked to health impacts or benefits. The Canadian Urban Environmental Health Research Consortium (CANUE) was established to facilitate the linkage of extensive geospatial exposure data to existing Canadian cohorts and administrative health data holdings. We hypothesize that this linkage will enable investigators to test a variety of their own hypotheses related to the interdependent associations of built environment features with diverse health outcomes encompassed by the cohorts and administrative data. Methods: We developed a protocol for compiling measures of built environment features that quantify exposure; vary spatially on the urban and suburban scale; and can be modified through changes in policy or individual behaviour to benefit health. These measures fall into six domains: air quality, noise, greenness, weather/climate, and transportation and neighbourhood factors; and will be indexed to six-digit postal codes to facilitate merging with health databases. Initial efforts focus on existing data and include estimates of air pollutants, greenness, temperature extremes, and neighbourhood walkability and socioeconomic characteristics. Key gaps will be addressed for noise exposure, with a new national model being developed, and for transportation-related exposures, with detailed estimates of truck volumes and diesel emissions now underway in selected cities. Improvements to existing exposure estimates are planned, primarily by increasing temporal and/or spatial resolution given new satellite-based sensors and more detailed national air quality modelling. Novel metrics are also planned for walkability and food environments, green space access and function and life-long climate-related exposures based on local climate zones. Critical challenges exist, for example, the quantity and quality of in

Published

2018

3. Within- and between-city contrasts in nitrogen dioxide and mortality in 10 Canadian cities; A subset of the Canadian Census Health and Environment Cohort (CanCHEC)

Author

Crouse, D.L. (Dan L.), Peters, P. (Paul A.), Villeneuve, P. (Paul), Proux, M.-O. (Marc-Olivier), Shin, H.H. (Hwashin H.), Goldberg, M.S. (Mark S.), Johnson, M. (Markey), Wheeler, A.J. (Amanda J.), Allen, R.W. (Ryan W.), Atari, D.O. (Dominic Odwa), Jerrett, M. (Michael), Brauer, M. (Michael), Brook, J.R. (Jeffrey R.), Cakmak, S. (Sabit), Burnett, R.T. (Richard T.), Crouse, D.L. (Dan L.), Peters, P. (Paul A.), Villeneuve, P. (Paul), Proux, M.-O. (Marc-Olivier), Shin, H.H. (Hwashin H.), Goldberg, M.S. (Mark S.), Johnson, M. (Markey), Wheeler, A.J. (Amanda J.), Allen, R.W. (Ryan W.), Atari, D.O. (Dominic Odwa), Jerrett, M. (Michael), Brauer, M. (Michael), Brook, J.R. (Jeffrey R.), Cakmak, S. (Sabit), and Burnett, R.T. (Richard T.)

Abstract

The independent and joint effects of within- and between-city contrasts in air pollution on mortality have been investigated rarely. To examine the differential effects of between- versus within-city contrasts in pollution exposure, we used both ambient measurements and land use regression models to assess associations with mortality and exposure to nitrogen dioxide (NO2) among ∼735,600 adults in 10 of the largest Canadian cities. We estimated exposure contrasts partitioned into within- and between-city contrasts, and the sum of these as overall exposures, for every year from 1984 to 2006. Residential histories allowed us to follow subjects annually during the study period. We calculated hazard ratios (HRs) adjusted for many personal and contextual variables. In fully-adjusted, random-effects models, we found positive associations between overall NO2 exposures and mortality from non-accidental causes (HR per 5 p.p.b.: 1.05; 95% confidence interval (CI): 1.03-1.07), cardiovascular disease (HR per 5 p.p.b.: 1.04; 95% CI: 1.01-1.06), ischaemic heart disease (HR per 5 p.p.b.: 1.05; 95% CI: 1.02-1.08) and respiratory disease (HR per 5 p.p.b.: 1.04; 95% CI: 0.99-1.08), but not from cerebrovascular disease (HR per 5 p.p.b.: 1.01; 95% CI: 0.96-1.06). We found that most of these associations were determined by within-city contrasts, as opposed to by between-city contrasts in NO2. Our results suggest that variation in NO2 concentrations within a city may represent a more toxic mixture of pollution than variation between cities.

Published

2015