Accident; analysis and prevention
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A comprehensive study was conducted of all motorcycle traffic crashes occurring in Maryland during a one-year period. All available medical and cost data were linked with police crash reports. During the study period, 1,900 motorcycle drivers were involved in crashes. The data indicated that (i) helmet usage was 35% overall, 30% among fatally injured drivers, and only 16% among drivers with a history of drug/alcohol conviction, (ii) unhelmeted drivers seen at an emergency department were almost twice as likely to have sustained head injury (40%) as were helmeted drivers (21%) (the corresponding percentages for hospitalized drivers were 55% and 38%), and (iii) acute care cost for unhelmeted drivers was three times ($30,365) that of helmeted drivers.
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Spinal cord injuries are a major public health problem, and costs to society may total $6.2 billion per year. Using a case-control design, we investigated risk factors for spinal injury in male Wisconsin residents who sustained their injuries during water recreational activity. Compared with the controls, the people who sustained spinal injury were more likely to have entered the water from a pier or dock; to have dived into water; and to have used alcohol. Injury prevention programs for water recreation enthusiasts should address the topics of the hazards of combining alcohol with these activities, how to enter natural bodies of water safely, and safe water levels for diving.
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Comparative Study
An application of logit models in analysing the behaviour of pedestrians and car drivers on pedestrian crossings.
A multinomial logit model is used to examine pedestrian and driver reaction to "encounters" occurring on pedestrian crossings. The probabilities of a driver braking or weaving, and of a pedestrian continuing to cross in response to an encounter are identified for a variety of pedestrian, environmental, and traffic conditions. Results indicate that the most important explanatory variables included pedestrian distance from kerb, city size, number of pedestrians simultaneously crossing, vehicle speed, and vehicle platoon size. It is felt that the model performed well, should be applied in further studies, and could be a useful technique for identifying the most hazardous situations and locations within an area, for planning relevant safety measures, and for national research for developing traffic legislation.
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This study was performed to determine how the likelihood of a belted driver being killed in a single car crash depends on the mass of the car. This was done by applying the pedestrian fatality exposure approach to the subset of fatalities in the Fatal Accident Reporting System (FARS) for which the driver was coded as using a shoulder belt and/or a lap belt. Combining the 1975 through 1982 data provided a sufficiently large population of belted drivers to perform the analysis. ⋯ It is concluded that the effect of car mass on relative driver fatality likelihood is essentially the same for belted and unbelted drivers (for example, the present analysis gives that a belted driver in a 900 kg car is 2.3 times as likely to be killed in a single car crash as is the belted driver in an 1800 kg car. The corresponding ratio determined here for unbelted drivers is 2.4). As a consequence of this conclusion, the relative effectiveness of seat belts in preventing driver fatalities is similar for cars of different masses.