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Print version ISSN 0042-9686
Bull World Health Organ vol.84 n.6 Genebra Jun. 2006
Étude multicentrique de la relation entre abus d'alcool et traumatismes non mortels : données fournies par une étude collective menée par l'OMS sur le thème alcools et traumatismes
Estudio multicéntrico sobre consumo agudo de alcohol y traumatismos no mortales: datos de un estudio en colaboración de la OMS sobre el alcohol y los traumatismos
Guilherme BorgesI,1; Cheryl CherpitelII; Ricardo OrozcoIII; Jason BondII; Yu YeII; Scott MacdonaldIV; Jürgen RehmV; Vladimir PoznyakVI
IInstituto Nacional de Psiquiatria & Universidad Autónoma Metropolitana-Xochimilco, Calzada Mexico Xochimilco No 101, Col. San Lorenzo Huipulco, Mexico DF 14370
IIAlcohol Research Group, Public Health Institute, Berkeley, CA 94709-2130, USA
IIIInstituto Nacional de Psiquiatria, Calzada Mexico Xochimilco, Mexico
IVCentre for Addiction Research of British Columbia, University of Victoria, Victoria, BC, Canada
VResearch Institute for Public Health and Addiction ISGF, Postfach, Zurich, Switzerland
VIDepartment of Mental Health and Substance Dependence, WHO, Geneva, Switzerland
OBJECTIVES: To study the risk of non-fatal injury at low levels and moderate levels of alcohol consumption as well as the differences in risk across modes of injury and differences among alcoholics.
METHODS: Data are from patients aged 18 years and older collected in 200102 by the WHO collaborative study on alcohol and injuries from 10 emergency departments around the world (n = 4320). We used a casecrossover method to compare the use of alcohol during the 6 hours prior to the injury with the use of alcohol during same day of the week in the previous week.
FINDINGS: The risk of injury increased with consumption of a single drink (odds ratio (OR) = 3.3; 95% confidence interval = 1.95.7), and there was a 10-fold increase for participants who had consumed six or more drinks during the previous 6 hours. Participants who had sustained intentional injuries were at a higher risk than participants who had sustained unintentional injuries. Patients who had no symptoms of alcohol dependence had a higher OR.
CONCLUSION: Since low levels of drinking were associated with an increased risk of sustaining a non-fatal injury, and patients who are not dependent on alcohol may be at higher risk of becoming injured, comprehensive strategies for reducing harm should be implemented for all drinkers seen in emergency departments.
OBJECTIFS: Étudier le risque de traumatisme non mortel associé à une consommation faible ou modérée d'alcool, ainsi que les variations de ce risque en fonction du type de traumatismes et de la consommation alcoolique.
MÉTHODES: Les données concernent des individus de plus de 18 ans et ont été recueillies sur la période 2001-2002 dans le cadre d'une étude collective organisée par l'OMS sur la relation entre alcool et traumatismes dans 10 service d'urgence répartis dans le monde (n = 4320). Ces données ont été soumises à une analyse de type case crossover pour comparer la consommation d'alcool pendant les 6 jours précédant le traumatisme à celle des mêmes jours de la semaine précédente.
RÉSULTATS: Le risque de traumatisme augmente dès la première consommation (odds ratio = 3,3; intervalle de confiance à 95 % = 1,9-5,7) et s'accroît d'un facteur 10 pour les sujets ayant pris six consommations et plus pendant les 6 jours précédents. Pour les sujets, le risque de traumatisme intentionnel est plus grand que celui de traumatisme involontaire. L'odds ratio (OR) est plus élevé pour les sujets ne présentant aucun symptôme de dépendance alcoolique.
CONCLUSION: Une association étant constatée entre la consommation de faibles quantités d'alcool et l'augmentation du risque de traumatisme non mortel et les individus non dépendants à l'égard de l'alcool pouvant être exposés à un plus grand risque de traumatisme, des stratégies complètes de limitation des dommages doivent être mises en place à l'intention de tous les buveurs accueillis dans les services d'urgence.
OBJETIVOS: Estudiar el riesgo de traumatismo no mortal a niveles moderados y bajos de consumo de alcohol, así como el distinto riesgo asociado a cada tipo de traumatismo y las diferencias según el grado de dependencia del alcohol.
MÉTODOS: En 2001 - 2002, como parte del estudio en colaboración de la OMS sobre el alcohol y los traumatismos, se reunieron datos sobre pacientes de 18 años o más atendidos en 10 departamentos de urgencias en todo el mundo (n = 4320). Utilizamos un método de casos cruzados para comparar el consumo de alcohol durante las 6 horas anteriores al traumatismo y el consumo de alcohol durante el mismo día de la semana anterior.
RESULTADOS: El riesgo de traumatismo aumentaba tras consumir una sola bebida (razón de posibilidades (OR) = 3,3; intervalo de confianza del 95% = 1,95,7), y se multiplicaba por 10 entre quienes habían tomado seis o más bebidas durante las 6 horas precedentes. Los participantes que habían sufrido traumatismos intencionales presentaban un riesgo mayor que el de los participantes que habían sufrido traumatismos no intencionales. Los pacientes sin síntomas de dependencia del alcohol presentaban una OR más elevada.
CONCLUSIÓN: Considerando que los niveles bajos de consumo de alcohol se asociaban ya a un mayor riesgo de traumatismo no mortal, y que los pacientes sin dependencia del alcohol presentan quizá un mayor riesgo de sufrir traumatismos, convendría aplicar estrategias integrales de reducción de daños con todas las personas que sean atendidas en departamentos de urgencias y hayan bebido.
Reports of alcohol use that used the casecrossover design have shown that alcohol use is a strong risk factor for all causes of non-fatal injuries among patients attending emergency departments.14 These reports, along with others that have sampled patients in the general population, have concluded that alcohol use is associated with driving accidents,5 violence,6,7 suicide,8 and injuries such as falls, trips and burns that is, non-traffic injuries in general.914 The unique feature of the casecrossover study is that this method allows the effect of acute alcohol use to be separated from chronic effects of consumption (such as those that occur in people who abuse alcohol or are dependent on it).15 Both are matters of great interest to public health policy-makers, such as when trying to establish "safe limits" for drinking across various situations,16 and in injury epidemiology.17 The casecrossover method seems especially appropriate when studying the risk of non-fatal injury among people who consume only low levels or moderate levels of alcohol,18 when assessing differences in risk across modes of injury1 and when determining whether alcoholics may have a different risk of non-fatal injury compared with non-dependent drinkers.19
Although these issues have been partially addressed in prior casecrossover reports,1,4,20 which have found mixed results, an important factor in a detailed analysis of these issues is the small sample size used in most studies, which affects the power of the analysis of the effects on those who consume only small amounts of alcohol and the comparisons that are made across key modifiers of the effects. The WHO collaborative study on alcohol and injuries21 is a large multicentre survey of injured patients presenting in hospitals worldwide; its data can be used to help circumvent these limitations. The goals of this paper are to report on the risk of non-fatal injury according to levels of acute use of alcohol; thus, looking at a doseresponse relationship. We also seek to compare risk estimates for patients who are heavy drinkers and those who are chronic alcoholics across modes of injury.
Data from the WHO collaborative study on alcohol and injuries were collected in 200102 from emergency departments in Argentina, Belarus, Brazil, Canada, China, the Czech Republic, India, Mexico, Mozambique, New Zealand, South Africa and Sweden. The methods used were similar to those used previously in emergency department studies in a number of countries.22 Probability samples were drawn from patients admitted within 6 hours of an injury at each site; each shift during each day of the week was represented equally in the sampling. The target sample size was 500 patients from each site. Patients were approached as soon as possible to obtain informed consent for participation in the study. The total sample size of participants aged 18 years or older was 5243 patients, representing a 91% response rate. In their interviews, researchers at two sites (Mozambique and South Africa) did not include the questions required for casecrossover analysis and their data were excluded, leaving a final sample size of 4320 participants. Interviewers were trained and supervised by study collaborators. Interviewers administered a standard 25-minute questionnaire. Further details on the sample have been presented elsewhere.21
The questionnaire was translated and then back-translated into each language; it included questions on whether the participant reported drinking during the 6 hours before the injury, an estimate of the amount of alcohol consumed during the same 6-hour period in the previous week, an estimate of the number of drinks consumed during each period, and the usual quantity of alcohol consumed and the frequency of alcohol use during the past year. Questions on quantity and frequency were based on questionnaires used in a number of emergency room studies.11,23 A measure of heavy drinking was developed; participants were classified as heavy drinkers if they reported having had five or more drinks on one occasion at least yearly. Except in New Zealand, participants were also asked the four questions that comprise the Rapid Alcohol Problems Screen (RAPS4), which measures alcohol dependence.24 This instrument was developed in an emergency department population. It is based on an optimal set of screening items from several instruments.25 It has been found to perform as well or better than other screening instruments for alcohol dependence when compared with the International statistical classification of diseases and related health problems, 10th edition, and the Diagnostic and statistical manual of mental disorders, 4th revision,26 when used in emergency department populations2729 and in the general population.30
Using RAPS4, participants are asked the following questions. Patients responding positively to one or more items are considered to be dependent on alcohol.
During the past 12 months have you had a feeling of guilt or remorse after drinking?
During the past 12 months has a friend or a family member ever told you about things you said or did while you were drinking that you could not remember?
During the past 12 months have you failed to do what was normally expected of you because of drinking?
During the past 12 months do you sometimes take a drink in the morning when you first get up?
The mode of injury was assessed using a single question. In this paper, this variable was categorized as unintentional injury, intentional self-inflicted injury or intentional injury inflicted by someone else. Patients who reported unintentional injuries were classified using the following categories: traffic accident; injuries sustained from blunt force or being struck against or caught between; injuries sustained from being stabbed, cut, bitten or accidentally shot; injuries from falls or trips; and a mixed group of other injuries that included being choked, hung, drowned, poisoned, burned with fire or hot liquid, other and don't know.
Following the method used in a prior report4 we matched responses from two different points in time for each participant in order to compare participants' reported use of alcohol during the 6 hours before being injured with their use of alcohol during the same time on the same day of the previous week. The volume of alcohol consumed during each 6-hour period was analysed by converting the number and volume of drinks to pure ethanol; 16 ml was used as the conversion factor for a standard drink. The volume of alcohol consumed was analysed as both a categorical variable and a continuous variable to determine possible modifiers of effects.
Conditional logistic regression was used to calculate the odds ratios (OR) for matched pairs and 95% confidence intervals (CIs).15,31 Variation in the magnitude of the OR across levels of fixed characteristics, such as age, was examined using the c² test of homogeneity.31 Generalized additive models were developed using Stata statistical software32 and were used as an additional tool to inspect the shapes of the curves for potential effect modifiers on a continuous scale.
Table 1 presents the distribution of the sample according to participants' exposure to alcohol (for example, drank alcohol 6 hours prior to the injury or did not drink alcohol before the injury) as well as presenting key demographic data. (Some values have been rounded and weighted because some sites used a weighted sampling scheme to guarantee the representativeness of sampling for hospital shifts and days of the week.) In the total sample, 18.1% (776/4290) drank alcohol prior to being injured. The prevalence of exposure to alcohol varied from a low of 6.3% (14/221) in Canada to a high of 38.5% (59/153) in New Zealand. Participants exposed to alcohol were more likely to be male, younger (aged <30 years) and admitted with intentional injuries.
A total of 487 patients drank alcohol 6 hours prior to being injured but did not drink during the control period (classified as discordant pairs) that is, they did not have a drink at the same time on the same day of the week during the week prior to the injury; 85 patients drank during the control period but not during the 6 hours prior to injury (also classified as discordant pairs). The OR for sustaining an injury if participants had consumed alcohol in the 6 hours prior to being injured was 5.7 (95% CI = 4.57.3). Table 2 shows that falling or tripping were the most common causes of injury, accounting for 32.4% (1322/4079) of all injuries; the largest OR for consuming alcohol and being injured was found for intentional self-inflicted injuries (OR = 23.1; 95% CI = 3.1171.0).
Table 3 presents the cross-tabulation of the number of drinks consumed 6 hours prior to the injury with the number of drinks consumed during the control period. The OR for each level of consumption is presented; the number of drinks consumed is presented as a continuous variable. The risk of injury increased with the consumption of just a single drink, and this risk increased 10-fold when six or more drinks were consumed. This suggests there is a doseresponse relationship. Using the number of drinks as a continuous variable, each additional drink increased the risk of injury by 25%.
Table 4 presents the odds ratios associated with the number of drinks consumed (on a continuous scale) according to possible modifiers of effects. Demographic variables did not modify effects, but the mode of injury and chronic alcohol use did affect the ORs. Although alcohol use increased the risk of all types of injury, those patients with an intentional injury (either self-inflicted or inflicted by someone else) were at higher risk than patients who had unintentional injuries. Participants who were not classified as being dependent on alcohol by the RAPS4 and participants who reported no heavy drinking were more likely to be injured after drinking than those who were classified as heavy drinkers or as being dependent on alcohol by the RAPS4.
Generalized additive model curves for participants are shown in Fig. 1. Those classified as not dependent had a higher intercept (and thus were at a higher risk of injury) than those classified as dependent, but both curves were parallel across the spectrum of alcohol volume, suggesting similar doseresponse relationships for those who were dependent and those who were not dependent.
In this large sample of patients with non-fatal injuries attending 10 emergency departments worldwide we found that the risk of injury increased when patients had a single drink (OR = 3.3; 95% CI = 1.95.7), and there was a 10-fold increase when six or more drinks were consumed. Taken together, the data from categorical and continuous variables suggest that at first the risk increases more steeply and then it becomes more attenuated that is, the prevalence of injury could be reduced if, for example, drivers abstained from drinking. Demographic variables (age, sex and education) did modify the effect, but the mode of injury and chronic alcohol use affected the odds ratios. Patients with intentional injuries (either self-inflicted or inflicted by others) had higher ORs than patients with unintentional injuries. Patients without symptoms of alcohol dependence and those who were not heavy drinkers had higher ORs than patients who were classified as dependent on alcohol or as heavy drinkers.
This is the first casecrossover study to show that having only a single drink is associated with a non-fatal injury. This finding has important implications for prevention although few injured patients reported drinking only one drink during the 6 hours prior to the event. Vinson et al.1 showed that consuming 13 drinks 6 hours before an injury increased the risk of being injured by 1.7 times (95% CI = 0.84.0) when compared with drinking the day before the injury. In a larger study, Vinson et al.2 identified a doseresponse relationship between consuming as few as 12 alcoholic drinks and risk of injury (OR = 1.8; 95% CI = 1.32.6) when the drinking patterns of participants who had had a drink within the 6 hours before the injury were compared with their drinking the day before. Other, more traditional, casecontrol studies in emergency departments have also shown a doseresponse relationship for the risk of injury.17,33 The doseresponse finding in our study is consistent with those found in a studies of fatal recreational boat injuries,34 non-fatal injuries incurred while bicycling35 and traffic accidents.5 A previous analysis by our group, using data only from Mexico, did not find an increase in the risk of injury when consuming only one drink 6 hours before an injury was compared with alcohol use during the same time period the day prior to or the month prior to the injury.36
Some reports have tried to disentangle differences between acute alcohol use and risk of injury according to the participant's usual consumption pattern;17 this is a matter of great interest to public health professionals.37 Studies of drivers involved in fatal crashes19 and cross-sectional data from a study of drinking and driving,38 as well as data from population surveys of drinking and injury,39 have suggested that episodes of intoxication may have a different impact among people who do not usually drink heavily. It has also been suggested that "more frequent drinkers have less risk at all blood alcohol concentration levels, including zero, than less frequent drinkers."19 An inherent difficulty with most research in this area is the fact that for individuals, there is a correlation between chronic and acute drinking. The casecrossover study design is especially useful in disentangling the effect of both types of exposure,40,41 and Vinson et al.2 and Borges et al.3 have addressed this issue in studies in emergency departments, but their studies had conflicting results. In a casecontrol analysis, Vinson et al.2 showed that participants who did not have "alcohol use disorders" were at greater risk of being injured when compared with participants who had alcohol use disorders, but the reverse relationship was observed in casecrossover analyses. Borges et al.3 showed that patients who did not have an alcohol use disorder were at higher risk of sustaining an injury than patients who had an alcohol use disorder. In our report, patients who were not classified as dependent on alcohol (using RAPS4) and light drinkers (those who reported drinking <5 drinks on all occasions during the past year) were at a higher risk of being injured than patients classified as dependent on alcohol or heavy drinkers. This seems counterintuitive because it is known that alcoholics have an increased risk of injury.20,42,43 Since patients with alcohol use disorders have a greater baseline risk for injury when compared with patients who do not have alcohol use disorders and because they drink more often, they will be at greater overall risk for injuries associated with drinking. While the chronic use of alcohol may lead to a higher risk of accident and injury, the acute effects of consuming alcohol among those who do not drink regularly, such as adolescents, may put an individual at greater short-term risk. Future research should try to discover mechanisms related to this finding and the influence of using different control periods (prior day, prior week, etc.) on estimates of relative risk.
Alcohol use was associated with all modes of injury, but higher risks were evident for self-inflicted injuries. Vinson et al.20 showed in casecontrol and casecrossover analyses that odds ratios for violence-related injuries are especially high when the injury is associated with alcohol use during the 6 hours prior to injury (OR = 34; 95% CI = 4.7250); this finding has been reported by others6,36,44,45 and confirmed by this research. The risk of suicide attempts was especially high in our study, confirming a more limited finding from a frequency analysis of a casecrossover study in a sample of patients from Australia, Canada, Mexico and the United States46 as well as a study in Texas47 and a hospital-based casecontrol study in Mexico City.48 Previous casecrossover reports1 have reported higher, but not statistically significant, ORs for motor vehicle accidents, falls and "other injuries". Vinson et al.2 have reported higher risks for motor vehicle accidents, falls and injuries caused by being struck by or against objects;2 their ORs were similar to the results reported here. Recent casecontrol,49 ecological50 and longitudinal51 studies have also documented these associations. Nonetheless, this paper is the first to present estimates of odds ratios across several injury types and to formally test for differences across the modes of injury.
This study is limited to an analysis of data from patients with non-fatal injuries who attended specific emergency departments. Although the study design provides a representative sample of patients from each facility, patients may not be representative of other facilities in the city or the country. In this paper, common estimates for the risk of injury have been emphasized, and further work will examine the heterogeneity in estimates of odds ratios across sites.21 Additionally, as is common with other studies conducted in emergency departments, cases cannot be assumed to be representative of other people who were injured but did not seek medical attention.
All analyses reported here are based on the participant's reported alcohol consumption at different times, and it is possible that participants were more likely to recall their consumption more accurately immediately before an injury than during a previous period. Differential recall may lead to an overestimate of the association between alcohol and injury if patients are more likely to remember and report alcohol use in the short term. Prior casecrossover research on alcohol consumption and injury has used other control periods,14 ranging from a day to a year, suggesting that the findings reported here are robust. Legal or other issues, however, may encourage patients to minimize their reports of drinking prior to an injury, for example, if they were involved in a traffic accident. On the other hand, it is also possible that patients may overestimate their drinking; for example, those with violence-related injuries may over-report alcohol consumption to excuse behaviour that would otherwise be seen as socially unacceptable.52 Clearly, more research on the validity of methods for eliciting alcohol use in casecrossover analyses is needed.
Despite the fact that casecrossover studies are well suited to control for between-person confounders, they do not remove the possibility that within-person confounders exist. For example, in our study it is possible that a patient may have been suffering from a transient depressive episode that gave rise to an increase in alcohol consumption. This co-occurrence of depression and alcohol use, or any other psychiatric disorder or substance use, could confound estimates of odds ratios. Because we lack measures of other acute variables that vary over time and that could be considered possible confounders of the relationship between acute alcohol use and injury, we cannot quantify this bias or adjust our results accordingly. Also, when looking at specific injuries, we did not take into account the fact that in a job related-accident, for example, the control period should ideally be one during which the person was working. Nevertheless, it is unlikely that these two limitations fully explain estimates of odds ratios that ranged from 3.3 to 23.1.
Within the scope of these limitations, this report on a large and representative sample of patients attending emergency departments shows that consuming even one drink may increase the risk of injury. Risks for both heavy and light drinkers as well as for all modes of injury may be increased. The data suggest that emergency departments should make efforts to counsel all who drink alcohol on their increased risk of injury.
This paper is based on the data from and experiences obtained during the participation of the authors in the WHO collaborative study on alcohol and injuries, sponsored by WHO and implemented by the WHO collaborative study group on alcohol and injuries. Members of this group include: V Benegal (Bangalore, India); G Borges (Mexico City, Mexico); S Casswell (Auckland, New Zealand); C Cherpitel (Berkeley, CA, USA); M Cremonte (Mar del Plata, Argentina); R Evsegneev (Minsk, Belarus); N Figlie (São Paulo, Brazil); N Giesbrecht (Ontario, Canada); W Hao (Hunan, China); G Humphrey (Auckland, New Zealand); R Larajeira (São Paulo, Brazil); S Larsson (Malmö, Sweden); S Macdonald (Ontario, Canada); S Marais (Cape Town, South Africa); O Neves (Maputo, Mozambique); M Peden (Geneva, Switzerland); V Poznyak (Geneva, Switzerland); J Rehm (Zurich, Switzerland); R Room (Stockholm, Sweden); H Sovinova (Prague, Czech Republic); and M Stafstrom (Malmö, Sweden). The names of other staff contributing to the project can be found in the main report of the WHO collaborative study on alcohol and injuries (http://www.who.int/substance_abuse/activities/injuries/en/).
Funding: This study was supported by National Alcohol Research Center grant number AA 05595-12 from the US National Institute on Alcohol Abuse and Alcoholism, the World Health Organization (Geneva), the National Institute of Psychiatry (grant number 4275P) (Mexico), and the Consejo Nacional de Ciencia y Tecnología (CONACyT) (grant number 39607-H).
Competing interests: The authors alone are responsible for views expressed in this paper; these views do not necessarily represent those of the other investigators participating in the WHO collaborative study on alcohol and injuries nor the views or policy of the WHO.
1. Vinson DC, Mabe N, Leonard LL, Alexander J, Becker J, Boyer J, et al. Alcohol and injury: a case-crossover study. Arch Fam Med 1995;4:505-11. [ Links ]
2. Vinson DC, Maclure M, Reidinger C, Smith GS. A population-based case-crossover and case-control study of alcohol and the risk of injury. J Stud Alcohol 2003;64:358-66. [ Links ]
3. Borges G, Cherpitel C, Mittleman M. Risk of injury after alcohol consumption: a case-crossover study in the emergency department. Soc Sci Med 2004;58:1191-200. [ Links ]
4. Borges G, Cherpitel CJ, Mondragón L, Poznyak V, Peden M, Gutiérrez I. Episodic alcohol use and risk of nonfatal injury. Am J Epidemiol 2004;159:565-71. [ Links ]
5. Ogden EJ, Moskowitz H. Effects of alcohol and other drugs on driver performance. Traffic Inj Prev 2004;5:185-98. [ Links ]
6. Cherpitel CJ. Alcohol and violence-related injuries in the emergency room. Recent Dev Alcohol 1997;13:105-18. [ Links ]
7. Hoaken PN, Stewart SH. Drugs of abuse and the elicitation of human aggressive behavior. Addict Behav 2003;28:1533-54. [ Links ]
8. Cherpitel CJ, Borges GL, Wilcox HC. Acute alcohol use and suicidal behavior: a review of the literature. Alcohol Clin Exp Res 2004;28 Suppl 5:S18-28. [ Links ]
9. Hingson R, Howland J. Alcohol and non-traffic unintended injuries. Addiction 1993;88:877-83. [ Links ]
10. Borges G, Garcia G, Gil A, Vandale S. Casualties in Acapulco: results of a study on alcohol use and emergency room care. Drug Alcohol Depend 1994;36:1-7. [ Links ]
11. Cherpitel CJ. Drinking patterns and problems associated with injury status in emergency room admissions. Alcohol Clin Exp Res 1988;12:105-10. [ Links ]
12. Haddon W, Jr, Valien P, McCarroll JR, Umberger CJ. A controlled investigation of the characteristics of adult pedestrians fatally injured by motor vehicles in Manhattan. J Chronic Dis 1961;14:655-78. [ Links ]
13. Honkanen R, Ertama L, Kuosmanen P, Linnoila M, Alha A, Visuri T. The role of alcohol in accidental falls. J Stud Alcohol 1983;44:231-45. [ Links ]
14. Olkkonen S, Honkanen R. The role of alcohol in nonfatal bicycle injuries. Accid Anal Prev 1990;22:89-96. [ Links ]
15. Maclure M. The case-crossover design: a method for studying transient effects on the risk of acute events. Am J Epidemiol 1991;133:144-53. [ Links ]
16. Room R, Graham K, Rehm J, Jernigan D, Monteiro M. Drinking and its burden in a global perspective: policy considerations and options. Eur Addict Res 2003;9:165-75. [ Links ]
17. Watt K, Purdie DM, Roche AM, McClure RJ. Risk of injury from acute alcohol consumption and the influence of confounders. Addiction 2004;99:1262-73. [ Links ]
18. Gunzerath L, Faden V, Zakhari S, Warren K. National Institute on Alcohol Abuse and Alcoholism report on moderate drinking. Alcohol Clin Exp Res 2004;28:829-47. [ Links ]
19. Hurst PM, Harte D, Frith WJ. The Grand Rapids dip revisited. Accid Anal Prev 1994;26:647-54. [ Links ]
20. Vinson DC, Borges G, Cherpitel CJ. The risk of intentional injury with acute and chronic alcohol exposures: a case-control and case-crossover study. J Stud Alcohol 2003;64:350-7. [ Links ]
21. Cherpitel CJ, Bond J, Ye Y, Borges G, Room R, Poznyak V, et al. Multi-level analysis of causal attribution of injury to alcohol and modifying effects: data from two international emergency room projects. Drug Alcohol Depend. 2006;82:258-68. [ Links ]
22. Cherpitel CJ. Changes in substance use associated with emergency room and primary care services utilization in the United States general population: 1995-2000. Am J Drug Alcohol Abuse 2003;29:789-802. [ Links ]
23. Cherpitel CJ, Ye Y, Bond J, Rehm J, Poznyak V, Macdonald S, et al. Multi-level analysis of alcohol-related injury among emergency department patients: a cross-national study. (Emergency Room Collaborative Alcohol Analysis Project (ERCAAP) and the WHO Collaborative Study on Alcohol and Injuries.) Addiction 2005;100:1840-50. [ Links ]
24. Cherpitel CJ. A brief screening instrument for problem drinking in the emergency room: the RAPS4 Rapid Alcohol Problems Screen. J Stud Alcohol 2000;61:447-9. [ Links ]
25. Cherpitel CJ. Screening for alcohol problems in the emergency room: a rapid alcohol problems screen. Drug Alcohol Depend 1995;40:133-7. [ Links ]
26. American Psychiatric Association. Diagnostic and statistical manual of mental disorders. 4th ed. Washington, DC: American Psychiatric Association; 1994. [ Links ]
27. Cherpitel CJ. Performance of screening instruments for identifying alcohol dependence in the general population, compared with clinical populations. Alcohol Clin Exp Res 1998;22:1399-404. [ Links ]
28. Cherpitel CJ, Borges G. Performance of screening instruments for alcohol problems in the ER: a comparison of Mexican-Americans and Mexicans in Mexico. Am J Drug Alcohol Abuse 2000;26:683-702. [ Links ]
29. Cherpitel CJ, Bazargan S. Screening for alcohol problems: comparison of the audit, RAPS4 and RAPS4-QF among African American and Hispanic patients in an inner city emergency department. Drug Alcohol Depend 2003;71:275-80. [ Links ]
30. Borges G, Cherpitel CJ. Selection of screening items for alcohol abuse and alcohol dependence among Mexicans and Mexican Americans in the emergency department. J Stud Alcohol 2001;62:277-85. [ Links ]
31. Rothman KJ, Greenland S. Modern epidemiology. 2nd ed. Philadelphia (PA): LippincottRaven; 1998. [ Links ]
32. Stata Corp. Stata base reference manual. College Station (TX): Stata Press; 2004. [ Links ]
33. McLeod R, Stockwell T, Stevens M, Phillips M. The relationship between alcohol consumption patterns and injury. Addiction 1999;94:1719-34. [ Links ]
34. Smith GS, Keyl PM, Hadley JA, Bartley CL, Foss RD, Tolbert WG, et al. Drinking and recreational boating fatalities: a population-based case-control study. JAMA 2001;286:2974-80. [ Links ]
35. Li G, Baker SP, Smialek JE, Soderstrom CA. Use of alcohol as a risk factor for bicycling injury. JAMA 2001;285:893-6. [ Links ]
36. Borges G, Cherpitel CJ, Medina-Mora ME, Mondragon L. Violence related injuries in the emergency room: alcohol, depression, and conduct problems. Subst Use Misuse 2004;39:911-30. [ Links ]
37. Rehm J, Room R, Graham K, Monteiro M, Gmel G, Sempos CT. The relationship of average volume of alcohol consumption and patterns of drinking to burden of disease: an overview. Addiction 2003;98:1209-28. [ Links ]
38. Gruenewald PJ, Mitchell PR, Treno AJ. Drinking and driving: drinking patterns and drinking problems. Addiction 1996;91:1637-49. [ Links ]
39. Treno AJ, Gruenewald PJ, Ponicki WR. The contribution of drinking patterns to the relative risk of injury in six communities: a self-report based probability approach. J Stud Alcohol 1997;58:372-81. [ Links ]
40. Mittleman MA, Maclure M, Tofler GH, Sherwood JB, Goldberg RJ, Muller JE. Triggering of acute myocardial infarction by heavy physical exertion: protection against triggering by regular exertion. (Determinants of Myocardial Infarction Onset Study Investigators.) N Engl J Med 1993;329:1677-83. [ Links ]
41. Maclure M, Mittleman MA. Should we use a case-crossover design? Annu Rev Public Health 2000;21:193-221. [ Links ]
42. Miller TR, Lestina DC, Smith GS. Injury risk among medically identified alcohol and drug abusers. Alcohol Clin Exp Res 2001;25:54-9. [ Links ]
43. Borges G, Cherpitel CJ, Medina-Mora ME, Mondragón L, Casanova L. Alcohol consumption in emergency room patients and the general population: a population-based study. Alcohol Clin Exp Res 1998;22:1986-91. [ Links ]
44. Macdonald S, Cherpitel CJ, Borges G, Desouza A, Giesbrecht N, Stockwell T. The criteria for causation of alcohol in violent injuries based on emergency room data from six countries. Addict Behav 2005;30:103-13. [ Links ]
45. Borges G, Cherpitel CJ, Rosovsky H. Male drinking and violence-related injury in the emergency room. Addiction 1998;93:103-12. [ Links ]
46. Borges G, Cherpitel CJ, Macdonald S, Giesbrecht N, Stockwell T, Wilcox HC. A case-crossover study of acute alcohol use and suicide attempt. J Stud Alcohol 2004;65:708-14. [ Links ]
47. Kresnow M, Powell KE, Webb KB, Mercy JA, Potter LB, Simon TA, et al. Assigning time-linked exposure status to controls in unmatched case-control studies: alcohol use and nearly lethal suicide attempts. Stat Med 2001;20:1479-85. [ Links ]
48. Borges G, Rosovsky H. Suicide attempts and alcohol consumption in an emergency room sample. J Stud Alcohol 1996;57:543-8. [ Links ]
49. Connor J, Norton R, Ameratunga S, Jackson R. The contribution of alcohol to serious car crash injuries. Epidemiology 2004;15:337-44. [ Links ]
50. Skog OJ. Alcohol consumption and fatal accidents in Canada, 1950-98. Addiction 2003;98:883-93. [ Links ]
51. Stenbacka M, Jansson B, Leifman A, Romelsjo A. Association between use of sedatives or hypnotics, alcohol consumption, or other risk factors and a single injurious fall or multiple injurious falls: a longitudinal general population study. Alcohol 2002;28:9-16. [ Links ]
52. MacAndrew C, Edgerton RB. Drunken comportment: a social explanation. Chicago: Aldine Publishing; 1969. [ Links ]
(Submitted: 12 October 2005 Final revised version received: 16 January 2006 Accepted: 20 January 2006)