Bicyclist–Bicyclist Crashes—A Medical and Technical Crash Analysis

Background: The purpose of this study was to analyze the actual injury situation of bicyclists focusing on accidents involving more than one bicyclist. A medical and technical analysis was performed as a basis for preventive measures. Methods: Technical and medical data were collected at the scene, shortly after the accident. Technical analysis included speed at crash, type of collision, impact angle, environment, lane used, and relative velocity. Medical analysis included injury patterns and severity (Abbreviated Injury Scale [AIS], Injury Severity Score [ISS]). Results: Five hundred seventy-eight injured bicyclists in 289 accidents from 1999 to 2008 were included into the study. Sixty-one percent were male (n = 350) and 39 percent were female (n = 228). Sixty-seven percent ranged between 18 and 64 years of age, 12 percent each between 13 and 17 years of age and older than 65 years, 8 percent between 6 and 12 years, and 1 percent between 2 and 5 years. Ninety-two percent of crashes took place in urban areas and 8 percent in rural areas. Ninety-seven percent of crashes occurred in dry conditions and 3 percent in wet conditions. Eighty-three percent of all accidents occurred during the daytime, 10 percent at night, and 7 percent at dawn. The helmet use rate was only 7.5 percent for all involved bicyclists. The mean Abbreviated Injury Scale (AIS) score was 1.31. Conclusion: The prevalence of bicycle-to-bicycle crashes is high. Most of these accidents occur in urban areas. Bicyclists should be considered as minimally or unprotected road users, with an unsatisfactorily low rate of helmet use. Though the average level and patterns of injuries is moderate, most of the severe injuries involved the head and extremities. However, there was no significant correlation between frequent helmet use and sustained injuries to the head of major AIS.

[1]  F K Winston,et al.  Who can give a pediatric trauma history for children injured in bicycle crashes? , 2000, Annual proceedings. Association for the Advancement of Automotive Medicine.

[2]  S. Linn,et al.  Epidemiology of bicycle injury, head injury, and helmet use among children in British Columbia: a five year descriptive study , 1998, Injury prevention : journal of the International Society for Child and Adolescent Injury Prevention.

[3]  D Otte,et al.  [Knee injuries of vulnerable road users in road traffic]. , 2006, Der Unfallchirurg.

[4]  S P Baker,et al.  Injuries to bicyclists in Wuhan, People's Republic of China. , 1997, American journal of public health.

[5]  J. Kern,et al.  Fatality risk factors for bicyclists in Croatia. , 2003, Croatian medical journal.

[6]  R S Lee,et al.  A systematic review of correct bicycle helmet use: how varying definitions and study quality influence the results , 2009, Injury Prevention.

[7]  L. Lampl,et al.  Prävention von Verletzungen als ärztliche Aufgabe , 2007, Der Unfallchirurg.

[8]  D Otte,et al.  Head injury mechanisms in helmet-protected motorcyclists: prospective multicenter study. , 2001, The Journal of trauma.

[9]  W. Curnow,et al.  Bicycle helmets and public health in Australia. , 2008, Health promotion journal of Australia : official journal of Australian Association of Health Promotion Professionals.

[10]  H. Ortega,et al.  Bicycle-Related Injuries to Children and Parental Attitudes Regarding Bicycle Safety , 2004, Clinical pediatrics.

[11]  L Schelp,et al.  Can a combination of local, regional and national information substantially increase bicycle-helmet wearing and reduce injuries? Experiences from Sweden. , 1997, Accident; analysis and prevention.

[12]  C Haasper,et al.  [Injury prevention as the physician's challenge]. , 2007, Der Unfallchirurg.

[13]  Cynthia B Morrow,et al.  Bicycle helmet effectiveness in preventing injury and death. , 2003, American journal of preventive medicine.

[14]  D Otte,et al.  [Motor vehicle accidents with entrapment. A medical and technical investigation of crash mechanism, injury pattern and severity of entrapment of motor vehicle occupants between 1983 and 2003]. , 2007, Der Chirurg; Zeitschrift fur alle Gebiete der operativen Medizen.

[15]  Colin Macarthur,et al.  Bicycle Helmet Legislation: Evidence for Effectiveness , 2002, Pediatric Research.

[16]  K. Knobloch,et al.  The current injury situation of bicyclists--a medical and technical crash analysis. , 2007, The Journal of trauma.

[17]  D Otte,et al.  [The Abbreviated Injury Scale (AIS). Options and problems in application]. , 2010, Der Unfallchirurg.

[18]  M. Richter,et al.  [Trauma and accident documentation in Germany compared with elsewhere in Europe]. , 2008, Der Chirurg; Zeitschrift fur alle Gebiete der operativen Medizen.

[19]  G J Duncan,et al.  One hundred years of automobile-induced orthopedic injuries. , 1995, Orthopedics.

[20]  S. Selbst,et al.  Bicycle-related injuries. , 1987, American journal of diseases of children.

[21]  Sr McFaull Cylindrical and Button Battery Ingestion: Data From the Canadian Hospitals Injury Reporting and Prevention Program (Chirpp) , 2003 .

[22]  S J Ashbaugh,et al.  The Ohio Bicycle Injury Study , 1995, Clinical pediatrics.

[23]  B. Rowe,et al.  Bicyclist and environmental factors associated with fatal bicycle-related trauma in Ontario. , 1995, CMAJ : Canadian Medical Association journal = journal de l'Association medicale canadienne.

[24]  B H Rowe,et al.  Bicycle helmet use and compliance: a northeastern Ontario roadside survey. , 1995, Canadian journal of public health = Revue canadienne de sante publique.

[25]  L Schelp,et al.  Bicycle-related injuries among the elderly--a new epidemic? , 2001, Public health.

[26]  H W Meislin,et al.  Observational evaluation of compliance with traffic regulations among helmeted and nonhelmeted bicyclists. , 1997, Annals of emergency medicine.

[27]  D Otte,et al.  [Current situation of traffic accidents in children and adolescents. A medical and technical analysis]. , 2001, Der Unfallchirurg.