, 2010). These studies cannot prospectively determine the individual, household or geographic predictors of using new infrastructure. Given that inactive people derive the most benefit from additional physical activity (US Department of Health and Human Services, 1996 and Woodcock et al., 2011), new infrastructure would DAPT chemical structure be expected to generate greater public health gains if it attracted new walking or cycling trips rather than existing walkers and cyclists (Ogilvie et al., 2007 and Yang et al., 2010), but we know of no study examining associations between use and baseline activity levels. From an equity perspective, it may also be important to examine the socio-demographic predictors of use,

and so evaluate whether the infrastructure meets the needs of all groups (Marmot, 2010, NICE, 2008 and NICE, see more 2012). In addition to identifying who uses new infrastructure, it is also useful to examine what it is used for because this may affect its health and environmental impacts. For example, cycling is typically a higher intensity activity than walking and so may have a greater effect upon physical fitness ( Yang et al., 2010). Similarly, transport trips may confer greater environmental benefits than recreational trips, because active travel seems to substitute for motor vehicle use whereas recreational walking may involve it ( Goodman et al., 2012).

Finally, whereas most previous longitudinal studies included only a single follow-up wave (Ogilvie et al., Isotretinoin 2007 and Yang et al., 2010), comparing results across multiple waves may provide insights into changing patterns of use or a changing profile of users. This may be important for understanding effects beyond the immediate post-intervention period: for example, although early adopters may be those who are already physically active, social modeling may subsequently encourage use by more inactive individuals (Ogilvie et

al., 2011). This paper therefore aims to examine and compare patterns of using high-quality, traffic-free walking and cycling routes over one- and two-year follow-up periods. Specifically, we examine the journey purposes for which the infrastructure was used and the modes by which it was used. We also examine the individual and household predictors of use. Led by the sustainable transport charity Sustrans, the Connect2 initiative is building or improving walking and cycling routes at multiple sites across the United Kingdom (map in Supplementary material). Each Connect2 site comprises one flagship engineering project (the ‘core’ project) plus improvements to feeder routes (the ‘greater’ project). These projects are tailored to individual sites but all embody a desire to create new routes for “everyday, local journeys by foot or by bike” (Sustrans, 2010). The independent iConnect research consortium (www.iconnect.ac.uk) was established to evaluate the travel, physical activity and carbon impacts of Connect2 (Ogilvie et al., 2011 and Ogilvie et al., 2012).