View clinical trials related to Pedestrian Safety.
Filter by:Pedestrian injuries are among the leading causes of morbidity and mortality in American children ages 7-8, but existing behavior-oriented interventions achieve only modest success. One limitation to existing interventions is that they fail to provide children with the repeated practice needed to develop the complex perceptual and cognitive skills required for safe pedestrian activity. Virtual reality (VR) offers a highly promising technique to train children in pedestrian safety skills. VR permits repeated unsupervised practice without risk of injury; automated feedback to children on success or failure in crossings; adjustment of traffic density and speed to match children's skill level; and an appealing and fun environment for training. The proposed research is designed to test the efficacy of virtual reality as a tool to train child pedestrians in safe street-crossing behavior. A randomized controlled trial will be conducted with four equal-sized groups of children ages 7-8 (total N = 240). One group will receive training in an interactive and immersive virtual pedestrian environment. The virtual environment, already developed, has been demonstrated to have face, construct, and convergent validity. The second group will receive pedestrian safety training via video and computer strategies that are most widely used in American schools today. The third group will receive what is judged to be the most efficacious treatment currently available, individualized behavioral training at streetside locations. The fourth and final group will serve as a no-contact control group. All participants in all groups will be exposed to a range of field- and laboratory-based measures of pedestrian skill during baseline and post-intervention visits, as well as during a six-month follow-up assessment. Primary analyses will be conducted through linear mixed models designed to test change over time in the four intervention groups. We hypothesize all children in active learning groups will increase pedestrian safety skills, but the largest increase will be among children in the virtual reality group.
Walking to school is one of the objectives for children and adolescents in Healthy People 2010 and in previous studies was associated with higher levels of overall physical activity, which has been shown to decrease obesity. Therefore, more children walking to school should result in increased physical activity and presumably reduce obesity. However, increasing child pedestrian activity could increase the risk of child pedestrian injuries. Walking with an adult who provides instruction in pedestrian skills and monitors the child's actual behavior may be the most important component of a successful intervention. Walking with an adult reduced child pedestrian injury risk by almost 70%. A walking school bus (WSB) addresses safety concerns by providing a period of physical activity supervised by several responsible adults and teaching opportunities around pedestrian safety skills on the way to and from school. Children may join the WSB at various points along the set route. Despite the growing popularity of WSB programs in the United States, randomized, controlled-studies are lacking that examine the impact on children's safety, physical activity, and health. We seek to help fill this gap in the literature by piloting a WSB program in elementary schools in the Houston Independent School District to test feasibility. We hypothesize that a WSB program will: (1) increase the number of students walking to school and decrease the number of students driven to school by car, (2) increase students' pedestrian safety behaviors (3) increase students' physical activity, and (4) decrease students' excess weight gain.