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Persons using assistive technology might not be able to fully access information in this file. For assistance, please send e-mail to: mmwrq@cdc.gov. Type 508 Accommodation and the title of the report in the subject line of e-mail. Injury-Control Recommendations: Bicycle HelmetsSummary These recommendations on the use of bicycle helmets are the first in a series of Injury-Control Recommendations that are designed for state and local health departments or other organizations for use in planning injury control programs. Each publication in the series of Injury-Control Recommendations will provide information for program planners to use when implementing injury control interventions. These guidelines were developed for state and local agencies and organizations that are planning programs to prevent head injuries among bicyclists through the use of bicycle helmets. The guidelines contain information on the magnitude and extent of the problem of bicycle-related head injuries and the potential impact of increased helmet use; the characteristics of helmets, including biomechanical characteristics, helmet standards, and performance in actual crash conditions; barriers that impede increased helmet use; and approaches to increasing the use of bicycle helmets within the community. In addition, bicycle helmet legislation and community educational campaigns are evaluated. INTRODUCTION Each year, nearly 1,000 persons die from injuries caused by bicycle crashes, and 550,000 persons are treated in emergency departments for injuries related to bicycle riding. Approximately 6% of the bicycle riders treated in emergency departments require hospitalization. Head injuries account for 62% of bicycle-related deaths, for 33% of bicycle-related emergency department visits, and for 67% of bicycle-related hospital admissions. The use of bicycle helmets is effective in preventing head injury (1). Community programs to increase bicycle helmet use can reduce the incidence of head injury among bicycle riders, thereby reducing the number of riders who are killed or disabled. Increasingly, state and local laws are being developed that will make mandatory the use of bicycle helmets. These guidelines were developed for state and local agencies and organizations that are planning programs to prevent head injuries among bicyclists through the use of bicycle helmets. The guidelines are based on a review of literature on bicycle-related injuries, bicycle helmets, and the evaluation of legislation and community programs. The guidelines have been reviewed and approved by the Advisory Committee for Injury Prevention and Control and by other experts in the prevention of bicycle-related injuries. BACKGROUND Bicycling is a popular activity in the United States. Bicycles are owned by approximately 30% of the U.S. population, and 45% of bike owners ride at least occasionally (2). Approximately 80%-90% of children own a bicycle by the time they are in second grade (3). From 1984 through 1988, an annual average of 962 U.S. residents died from and 557,936 persons were treated in emergency departments for bicycle-related injuries (4). Approximately 6% of persons who are treated for bicycle-related injuries require hospitalization (5,6). The annual societal cost of bicycle-related injuries and deaths is approximately $8 billion (7). Head injury is the most common cause of death and serious disability in bicycle- related crashes (1). Head injury accounts for 62% of bicycle-related deaths (4). In addition, approximately 33% of all bicycle-related emergency department visits and 67% of all bicycle-related hospital admissions (5,8) involve head injuries (1,4,5). Head injury accounts for approximately 44% of all deaths resulting from injury in the United States (9), and approximately 7% of brain injuries are bicycle-related (2). Among survivors of nonfatal head injuries, the effects of the injury can be profound, disabling, and longlasting (9). Even after minor head injuries, persons may experience persistent neurologic symptoms (e.g., headache, dizziness, reduced memory, increased irritability, fatigue, inability to concentrate, and emotional instability). These symptoms are sometimes referred to as the "postconcussional syndrome" (10). From 1984 through 1988, greater than 40% of all deaths from bicycle-related head injury were among persons less than 15 years of age (4). In all age groups, death rates were higher among males. Death rates from bicycle-related head injury were highest among males 10-14 years of age. During the same years, greater than 75% of persons treated in emergency departments for bicycle-related head injury were less than 15 years of age. Rates for bicycle-related head injury were also higher for males than females in all age groups; the rates were highest among males 5-15 years of age (4). Nearly 90% of deaths from bicycle-related head injury result from collisions with motor vehicles (4). However, motor vehicle collisions cause less than 25% of the nonfatal bicycle-related head injuries that are treated in emergency departments (1,11). Excluding collisions with motor vehicles, common causes of nonfatal bicycle-related head injuries include falls, striking fixed objects, and collisions with other bicycles (1,11). BICYCLE HELMETS AND THE PREVENTION OF HEAD INJURY The implementation of effective bicycle helmet programs could have a substantial impact on rates for fatal and nonfatal bicycle-related head injury (4). For example, from 1984 through 1988, if a presumed helmet-use rate of 10% had been increased to 100% (i.e., universal helmet use), an average of 500 fatal and 151,400 nonfatal bicycle-related head injuries could have been prevented each year (4). Several researchers (2,5,8,12) have recommended that bicyclists use helmets to prevent head injuries. However, controlled studies evaluating the effectiveness of bicycle helmets in bicycle crashes have not been available until recently. In particular, the results of a case-control study in Seattle in 1989 indicated that the use of bicycle helmets reduced the risk for bicycle-related head injury by 74%-85% (1). The findings of other studies that have compared the proportions of helmeted and unhelmeted riders who sustained head injury in bicycle crashes (13- 15) detected higher risks for head injury among unhelmeted riders (crude odds ratio=4.2 {13}, 19.6 {14}, and 4.5 {15}). Although other strategies may be useful in preventing bicycle-related injuries (i.e., proper road design and maintenance; improvement in bicycle design, manufacturing, and repair; and bicycle safety training {5,16,17}), the use of these strategies does not eliminate the need for bicycle helmets. Biomechanical Characteristics of Helmets Helmets are designed to protect the brain and the skull during an impact (5). Field tests and laboratory studies have been used to assess helmet characteristics and determine the relative effectiveness of different helmet designs. The testing of bicycle helmets approved by either the American National Standards Institute (ANSI) or the Snell Memorial Foundation indicated that using any helmet will protect the brain and neck during a crash more effectively than not using any helmet at all (18). However, these tests identified potential problems with helmet design, including a tendency for all helmets to slip out of proper position with the unequal application of force; a tendency for hard-shell helmets to slide on concrete, potentially increasing the risk for facial injury in a crash; and a likelihood for soft or no-shell helmets to catch or drag on concrete surfaces, causing the head to decelerate at a faster rate than the rest of the body, which potentially increases the risk for neck injuries (18). Subsequent tests indicated that helmets covered with a hard shell or a micro-shell (i.e., a very thin plastic covering) were least likely to cause injury to the head and neck region (19). The impact protection provided by different brands of bicycle helmets varies considerably depending on type and brand (20,21). When helmets with crushable polystyrene liners were damaged internally during an impact, they provided less protection during future impacts (21). Helmet Standards Three organizations -- ANSI, the Snell Memorial Foundation, and the American Society for Testing and Materials (ASTM) -- have developed voluntary standards for bicycle helmets Table_1. Helmets are tested for the amount of impact protection they provide by dropping the upper torso and helmeted head of a crash-test dummy (i.e., a "helmeted headform") onto a metal anvil and measuring the amount of force on the headform (22). Testing for strap-system strength is done by dropping a weight on the fastened strap; the weight causes weaker strap systems (i.e., straps or buckles) to break. Helmets that meet Snell standards provide better protection against bicycle- related head injury than do helmets that meet the less rigorous ANSI standards (18). The Consumer Product Safety Commission is developing federal standards for bicycle helmets. These standards will apply to all helmets sold in the United States and will most likely be similar to the existing standards. All three existing standards require that manufacturers include warning labels that advise consumers that helmets are for bicycle use only (e.g., "not for motor-vehicle use" {23}) (24, 25). In addition, manufacturers are required to warn consumers (e.g., by including a warning label in the helmet) that a) a helmet that has sustained an impact should be returned to the manufacturer for inspection or be destroyed and replaced, and b) helmets need to be fitted and securely fastened to the bicyclist's head to provide maximum protection. Performance in Crash Conditions The use and performance of bicycle helmets also must be assessed under actual crash conditions (26,27). For example, an assessment of helmets worn by bicyclists who had sustained an impact in a bicycle crash indicated that most impacts occurred below the area of the helmet that is usually tested for impact protection (i.e., the test line) (26). In addition, many of the helmets had been damaged before the crash, particularly those helmets worn by bicycle riders less than 15 years of age. However, none of the riders who were wearing their helmets correctly at the time of the crash sustained serious head injuries, despite the severity of many of the impacts (26). Current testing standards do not take into account that children less than 6 years of age cannot tolerate the same head impact as older children and adults (27). Furthermore, helmets generally are not designed to fit the heads of children less than 6 years of age; thus, a separate helmet standard may be needed to ensure that helmets provide adequate protection for children in this age group (27). Barriers to Helmet Use Although bicycle helmets provide effective protection against bicycle-related head injury, only approximately 18% of bicyclists wear helmets all or most of the time (7). Rates of bicycle helmet use are lowest among those groups for whom rates for bicycle-related head injury are highest (i.e., school-age children). Approximately 15% of riders less than 15 years of age wear helmets (7), a prevalence substantially lower than the year 2000 objective -- a helmet-use rate of at least 50% (32). Barriers to helmet use include cost, the wearability of bicycle helmets, and a lack of knowledge regarding helmet effectiveness (33). In addition, some school-age children (i.e., children less than 15 years of age) believe that wearing a helmet will result in derision by their peers (34). Among older children and adults, rates for helmet use are influenced by some of the same demographic factors as rates for seat belt use (e.g., age, education, income, and marital status) (14,33), and some of the reasons given for not wearing helmets are similar to those given for not wearing seat belts (e.g., rider was on a short trip, helmets are uncomfortable, and negligence) (14). Approaches to overcoming some of these barriers to helmet use include community-based programs (33) and bicycle helmet legislation, which may be particularly effective among school-age children (34-37). INCREASING THE USE OF BICYCLE HELMETS The goal of bicycle helmet programs is to increase the use of bicycle helmets, thereby reducing the number of head injuries and deaths caused by bicycle crashes. State and local health departments are in a unique position to undertake bicycle helmet campaigns because of their a) knowledge of the specific problems affecting their states and communities; b) ability to provide technical expertise and credibility in health matters that affect their states and communities; c) ability to work with community groups that are involved with health issues; and d) ability to place bicycle helmet programs within the framework of other injury and health activities. State- or Local-Level Programs State and local health departments may be responsible for the following tasks when conducting community campaigns:
Community Programs Educational and promotional campaigns for bicycle helmet use are usually most effective when conducted at the local (i.e., community) level. At this level, strategies that encourage persons to wear bicycle helmets can be adjusted to the needs of a specific community. Several organizations publish materials (e.g., program guides, videotapes, and training materials) that communities can use for developing a bicycle helmet program (Appendix B). Components of a community program include building a coalition and planning, implementing, and evaluating the program (Appendix C). Legislation for Bicycle Helmet Use Legislation that mandates the use of bicycle helmets effectively increases helmet use, particularly when combined with an educational campaign. Education often facilitates behavioral change; however, education alone is rarely effective. Laws mandating helmet use supplement and reinforce the message of an educational campaign, requiring people to act on their knowledge. Several states and localities have enacted laws requiring bicycle helmet use (e.g., California; Connecticut; Georgia; Massachusetts; New Jersey; New York; Oregon; Pennsylvania; Tennessee; several counties in Maryland {Howard, Montgomery, and Allegheny}; and the city of Beechwood, Ohio). Other groups that require helmet use include the United States Cycling Federation -- the governing body of amateur bicycle racing and Olympic training -- and the Greater Arizona Bicyclist Association. Once enacted, bicycle helmet laws should be enforced. However, enforcement of helmet laws should be carried out through education rather than punishment. For example, local police officers could tell persons who violate the bicycle helmet law about the benefits of helmet use and provide them with discount coupons for the purchase of a helmet. Fines for the first citation could be waived if the person shows that he or she has acquired a helmet. Bicycle helmet laws contain stipulations concerning enforcement. For example, in the California and New York legislation, the first violation is dismissed if the person charged proves that a helmet meeting the standards has been purchased. Otherwise, the violation is punishable by a fine of not more than $20 and $50, respectively. Other areas have a fine for the first offense of $25-$50 and a fine of up to $100 for any subsequent offenses. The fines for noncompliance vary among jurisdictions. Regardless of the specific penalties that are used to enforce the law, enforcement must be accompanied by the active involvement of the law enforcement community (e.g., participation in community education). This involvement should begin when the state or community is developing and advocating for a bicycle helmet law. Evaluation of Legislation and Community Programs Both community bicycle helmet programs and the legislation mandating helmet use have been evaluated Table_2. Although these studies indicate that bicycle helmet campaigns increase the use of helmets, the relative merits of any individual component of the campaigns are more difficult to assess. The studies do suggest, however, that community campaigns must include several strategies; single interventions do not have the same impact as multiple interventions. Furthermore, some studies indicated that helmet ownership and use were greater among children from high-income than low-income families (38,39). Potential barriers to increased helmet use among children from low-income families may include both the cost of helmets and language barriers (39). These studies highlight the importance of considering other issues that may influence the purchase and use of helmets (e.g., perceived risk of bicycle-related head injury) when planning a community-based bicycle helmet program. RECOMMENDATIONS The following recommendations are based on current data regarding the occurrence of head injury among bicyclists and the ability of helmets to prevent or reduce these injuries. These recommendations are for state and local agencies and other organizations that are planning programs to increase the use of bicycle helmets. Recommendation 1: Bicycle helmets should be worn by all persons (i.e., bicycle operators and passengers) at any age when bicycling. Although operators and passengers of all ages are at risk for bicycle-related head injuries, communities that must focus on a particular risk group should consider children less than 15 years of age as the primary target group for the following reasons:
However, even in communities in which efforts or programs focus on children, adults also should be included in the bicycle helmet program because of their educational influence on children. As programs gain resources, they should expand to include older age groups because adults are also at risk for head injury. Recommendation 2: Bicycle riders should wear helmets whenever and wherever they ride a bicycle. Bicyclists are always at risk for falling and thus for head injury, regardless of where they are riding (e.g., a driveway, park, or sidewalk). Laws that encourage helmet use only in certain settings (e.g., riding to and from school) only partially address the problem and do not reinforce the need to wear helmets at all times. Recommendation 3: Bicycle helmets should meet the standards of ANSI, the Snell Memorial Foundation, or ASTM. Three organizations currently have voluntary standards for bicycle helmets; however, optimal helmet design (e.g., hard vs. soft shell helmets, differences in the needs of children less than 6 years of age, and how well different types of helmets protect in actual crash conditions) has not been established. Additional research is needed on the biomechanics of bicycle helmets before more definitive recommendations for biomechanical standards can be made. However, despite differences in helmet design, wearing an approved helmet is better than wearing no helmet at all. Furthermore, all standards emphasize that a helmet that has sustained an impact should be returned to the manufacturer for inspection or be destroyed and replaced. Recommendation 4: To effectively increase helmet-use rates, states and communities must implement programs that include legislation, education and promotion, enforcement, and program evaluation. Communities and states have used several strategies to increase helmet use, including laws that require helmet use among different age groups; community awareness campaigns; educational programs in schools and children's groups; and incentive campaigns that encourage use of helmets through giveaway programs, coupons, and rebates. Helmet-use laws should be implemented statewide; however, beginning this process with a demonstration program in one or several communities may be practical before expanding the program statewide. Laws are most effective when combined with educational programs. References
APPENDIX A: Bicycle Helmet Legislation Legislation requiring bicycle helmet use can vary according to the needs of the state or county passing the law. Persons who draft laws requiring the use of bicycle helmets should consider the following components:
APPENDIX B: Organizations that Provide Information on Bicycle Helmet Campaigns Several organizations have guidelines or instructional manuals for conducting bicycle helmet campaigns. These materials outline strategies and activities that state and local organizations can use to develop campaigns that are consistent with the needs and resources of the communities they serve. Listed below are the names and addresses of several of these organizations as well as a listing of some of the materials that are available to the public:
Materials include SAFE KIDS Cycle Smart, a guide for community bicycle safety programs and resource materials list; a kit for medical professionals regarding bicycle helmets and injury prevention; a teacher's guide on bicycle helmets; a brochure for parents; a bicycle helmet poster; a traffic safety magazine for children; public service announcements for television; and a chart of legislation mandating bicycle helmet use.
Materials include a campaign kit and a resource catalog.
Materials include a guide, Bike Injury/Bike Rodeos, which lists bicycle safety resources and provides guidelines to help local PTAs organize bicycle rodeos and promote bicycle safety.
Materials include Physician's Resource Guide for Bicycle Safety Education; " Bicycle Safety Camp," which is a videotape for elementary school students concerning the importance of wearing helmets and other safety issues while riding bicycles; and bicycle safety sheets from The Injury Prevention Program. The safety sheets cover such topics as encouraging children to wear helmets, myths and facts about bicycle safety, choosing the right size bicycle for a child, and child passengers on adults' bicycles.
Materials include Developing a Children's Bicycle Helmet Safety Program: A Guide for Local Communities.
Materials include Injuries to Bicyclists: A National Perspective. This monograph is available from the National Center for Injury Prevention and Control, CDC, mailstop F-36, 4770 Buford Highway, Atlanta, GA 30341-3724. A videotape produced by the Center, "ADVOKIDS: Kids Advocating Change," is available through AAA Foundation for Traffic Safety; telephone: (202) 638-5944. APPENDIX C: Components of a Community-Based Bicycle Helmet Campaign Bicycle helmet campaigns should include a number of specific components, regardless of the actual activities (e.g., bicycle rodeos, coupon programs, and helmet giveaways) that are included in the campaign. A Coalition A coalition of appropriate individuals, agencies, and organizations that represent all facets of the community should participate in all phases of the campaign, beginning with the development of a plan and the selection of target groups, through implementing the interventions and evaluating the effort. The following organizations should be considered for inclusion in campaigns: health departments; schools; parent-teacher-student organizations; police departments; churches; neighborhood and tenant associations; health care providers, including physicians, nurses, and emergency response personnel; community organizations (e.g., Kiwanis and Junior League); youth clubs (e.g., Girl Scouts of America, Boy Scouts of America, and 4-H); businesses, such as bicycle shop owners; and local government leaders and political organizations. A Plan A campaign to promote bicycle helmets should begin with a well organized plan that includes the following components:
The following are educational and promotional strategies that have been used in some communities:
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| Erratum: Vol. 44, No. RR-1
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| ==========================
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| SOURCE: MMWR 44(16);325 DATE: Apr 28, 1995
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| In the article "Injury Control Recommendations: Bicycle
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| Helmets," on the inside front cover, David A. Sleet, Ph.D.,
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| be listed as the Acting Director of the Division of Unintentional
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| Injuries Prevention. In addition, on page iv, Nancy Dean Nowak
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| should be listed as Nancy Dean Nowak, R.N., M.P.H., and Benjamin
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| Moore, M.P.H., should be listed without an M.P.H.
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-----+ TABLE 1. Testing standards and postmarketing surveillance for bicycle helmets =========================================================================================== Types of testing and Snell Memorial American Society for American National surveillance Foundation Testing and Materials Standards Institute B-90 * ( 25 ) (ASTM) F1446, F1447 ( 28 ) (ANSI) Z90.4 ( 24 ) ------------------------------------------------------------------------------------------- Impact testing + Flat anvil @ 2.0-m drop 2.0-m drop 1.0-m drop Hemispherical anvil & 1.3-m drop 1.2-m drop 1.0-m drop Curbstone anvil ** 1.2-m drop Strap-system-strength testing ++ 38 kg dropped 4 kg dropped 2 kg dropped from 2 cm from 60 cm from 100 cm Postmarketing surveillance @@ Yes No && No ------------------------------------------------------------------------------------------- * Snell performs testing and certification in its own labs. Snell also conducts supplemental testing for positional stability, which is described in the Snell B-90 supplement ( 29 ). Helmets that pass the tests receive a special decal. In addition, Snell has a standard for multi-use helmets (Snell N-94) ( 30 ); helmets that meet this standard also may be used for bicycling. + Helmets are tested for impact protection by dropping a "helmeted headform" onto a metal anvil. The amount of force on the headform is then measured. @ Simulates the impact from falling onto flat pavement. & Simulates the impact from falling onto a stone or corner. ** Simulates the impact from falling onto a curb or pipe. ++ Strap-system (i.e., straps and buckles) strength is tested by dropping a weight onto the fastened strap. @@ Includes ongoing testing of helmets in the marketplace to assure compliance with helmet standards. && Although ASTM does not conduct helmet testing, bicycle helmet manufacturers can contract with the Safety Equipment Institute (SEI) to have helmets tested based on this standard. SEI also conducts postmarketing surveillance of helmets ( 31 ). =========================================================================================== Return to top. Table_2 Note: To print large tables and graphs users may have to change their printer settings to landscape and use a small font size. TABLE 2. Evaluation of legislation and community programs to increase the use of bicycle helmets -- selected locations ================================================================================================================================== Helmet-use rates for children * Location Years evaluated Program type Pre-program Post-program Comments ---------------------------------------------------------------------------------------------------------------------------------- Victoria, Australia March 1983- Community campaign 6% + 36% + Included education, mass media (35) March 1990 publicity, support by professional associations and community groups, involvement of bicycling groups, and $10 government rebate for helmet purchases. March 1990- Helmet legislation 36% + 73% + Hospitalizations for bicycle- March 1991 introduced related head injuries also decreased by 37%. Howard County, 1990-1991 Helmet legislation and 4% 47% Activity prompted by bicycling Maryland (36) community campaign deaths of two children. Use determined by observation. 11% 37% Use determined by school-based survey. Montgomery County, 1990-1991 Community campaign 8% 19% Use determined by observation. Maryland (36,37) 8% 13% Use determined by school-based survey. Baltimore County, 1990-1991 No specific helmet 19% 4% Served as control county. Use Maryland (36,37) promotion activities determined by observation. 7% 11% Use determined by school-based survey. Seattle, Washington 1987-1988 Community campaign 5% 14% Included education of parents by (33,40,41) physicians; advertising in newspapers, on television, and on radio; school presentations; and discount coupons for helmets. 1988-1990 Community campaign 14% 33% Follow-up evaluation of bicycle helmet campaign. 1990-1993 Community campaign 33% 60% Follow-up evaluation of bicycle helmet campaign. Bicycle-related head injuries decreased approximately 67% among children 5- 14 years of age who were members of a health maintenance organization. Portland, Oregon 1987-1988 No specific helmet 1% 4% Control community. (33) promotion activities Barrie, Ontario 1988-1989 Educational program 0% 0% Use determined by a limited number (42) of observations. 1988-1989 Educational program and 0% 22% Use determined by a limited number helmet subsidy of observations. ---------------------------------------------------------------------------------------------------------------------------------- * See references for the specific ages of the children included in the studies. + Helmet-use rates for bicyclists of all ages. ================================================================================================================================== Return to top. Disclaimer All MMWR HTML versions of articles are electronic conversions from ASCII text into HTML. This conversion may have resulted in character translation or format errors in the HTML version. Users should not rely on this HTML document, but are referred to the electronic PDF version and/or the original MMWR paper copy for the official text, figures, and tables. An original paper copy of this issue can be obtained from the Superintendent of Documents, U.S. Government Printing Office (GPO), Washington, DC 20402-9371; telephone: (202) 512-1800. Contact GPO for current prices. **Questions or messages regarding errors in formatting should be addressed to mmwrq@cdc.gov.Page converted: 09/19/98 |
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