BACKGROUND AND AIMS: Bicycling may be less appealing in parts of the world where cycling is less safe. Differences between jurisdictions suggest route design is key to improving safety and increasing ridership. Previous studies faced difficulties in effectively assessing denominators for risk calculations and controlling confounding. This paper describes the advantages of the case-crossover design of the Bicyclists' Injuries and the Cycling Environment study to address these challenges to observational studies of cycling safety. METHODS: Injured cyclists were recruited from the emergency departments of five hospitals in Vancouver and Toronto, Canada. In 18 months, 690 participants were successfully recruited and interviewed. Each participant was interviewed to map the route of their injury trip, identify the injury site and select two control sites at random from the same route. Infrastructural characteristics at each study site were scored by site observers who were blinded as to whether sites were crash or comparison sites. Analyses will compare infrastructural variables between case and control sites with conditional logistic regression. DISCUSSION: This study presents a novel application of the case-crossover design to the evaluation of relationships between infrastructure and cycling safety while controlling confounders and exposure to risk. It is hoped that the value of this method and the efficiency of the recruitment process will encourage replication in other locations, to expand the range of cycling infrastructure compared and to facilitate evidence-based cycling infrastructure choices that can make cycling safer and more appealing.
BACKGROUND AND AIMS: Bicycling may be less appealing in parts of the world where cycling is less safe. Differences between jurisdictions suggest route design is key to improving safety and increasing ridership. Previous studies faced difficulties in effectively assessing denominators for risk calculations and controlling confounding. This paper describes the advantages of the case-crossover design of the Bicyclists' Injuries and the Cycling Environment study to address these challenges to observational studies of cycling safety. METHODS: Injured cyclists were recruited from the emergency departments of five hospitals in Vancouver and Toronto, Canada. In 18 months, 690 participants were successfully recruited and interviewed. Each participant was interviewed to map the route of their injury trip, identify the injury site and select two control sites at random from the same route. Infrastructural characteristics at each study site were scored by site observers who were blinded as to whether sites were crash or comparison sites. Analyses will compare infrastructural variables between case and control sites with conditional logistic regression. DISCUSSION: This study presents a novel application of the case-crossover design to the evaluation of relationships between infrastructure and cycling safety while controlling confounders and exposure to risk. It is hoped that the value of this method and the efficiency of the recruitment process will encourage replication in other locations, to expand the range of cycling infrastructure compared and to facilitate evidence-based cycling infrastructure choices that can make cycling safer and more appealing.
Authors: Kay Teschke; M Anne Harris; Conor C O Reynolds; Meghan Winters; Shelina Babul; Mary Chipman; Michael D Cusimano; Jeff R Brubacher; Garth Hunte; Steven M Friedman; Melody Monro; Hui Shen; Lee Vernich; Peter A Cripton Journal: Am J Public Health Date: 2012-10-18 Impact factor: 9.308
Authors: M Anne Harris; Conor C O Reynolds; Meghan Winters; Peter A Cripton; Hui Shen; Mary L Chipman; Michael D Cusimano; Shelina Babul; Jeffrey R Brubacher; Steven M Friedman; Garth Hunte; Melody Monro; Lee Vernich; Kay Teschke Journal: Inj Prev Date: 2013-02-14 Impact factor: 2.399
Authors: Kay Teschke; Theresa Frendo; Hui Shen; M Anne Harris; Conor C O Reynolds; Peter A Cripton; Jeff Brubacher; Michael D Cusimano; Steven M Friedman; Garth Hunte; Melody Monro; Lee Vernich; Shelina Babul; Mary Chipman; Meghan Winters Journal: BMC Public Health Date: 2014-11-22 Impact factor: 3.295
Authors: Peter A Cripton; Hui Shen; Jeff R Brubacher; Mary Chipman; Steven M Friedman; M Anne Harris; Meghan Winters; Conor C O Reynolds; Michael D Cusimano; Shelina Babul; Kay Teschke Journal: BMJ Open Date: 2015-01-05 Impact factor: 2.692