Overall health impacts of a potential increase in cycle commuting in Stockholm, Sweden

Scand J Public Health. 2022 Jul;50(5):552-564. doi: 10.1177/14034948211010024. Epub 2021 May 12.

Abstract

Aims: To estimate the overall health impact of transferring commuting trips from car to bicycle.

Methods: In this study registry information on the location of home and work for residents in Stockholm County was used to obtain the shortest travel route on a network of bicycle paths and roads. Current modes of travel to work were based on travel survey data. The relation between duration of cycling and distance cycled was established as a basis for selecting the number of individuals that normally would drive a car to work, but have a distance to work that they could bicycle within 30 minutes. The change in traffic flows was estimated by a transport model (LuTrans) and effects on road traffic injuries and fatalities were estimated by using national hospital injury data. Effects on air pollution concentrations were modelled using dispersion models.

Results: Within the scenario, 111,000 commuters would shift from car to bicycle. On average the increased physical activity reduced the one-year mortality risk by 12% among the additional bicyclists. Including the number of years lost due to morbidity, the total number of disability adjusted life-years gained was 696. The amount of disability adjusted life-years gained in the general population due to reduced air pollution exposure was 471. The number of disability adjusted life-years lost by traffic injuries was 176. Also including air pollution effects among bicyclists, the net benefit was 939 disability adjusted life-years per year.

Conclusions: Large health benefits were estimated by transferring commuting by car to bicycle.

Keywords: DALY; Scenario; air pollution; bicycling; health impact assessment; physical activity; traffic injuries; transport.

MeSH terms

  • Air Pollution*
  • Bicycling
  • Humans
  • Sweden / epidemiology
  • Transportation*