Alcohol Violence
Scientists and nonscientists alike have long recognized a two-way association between alcohol consumption and violent or aggressive behavior (1). Not only may alcohol consumption promote aggressiveness, but victimization may lead to excessive alcohol consumption. Violence may be defined as behavior that intentionally inflicts, or attempts to inflict, physical harm. Violence falls within the broader category of aggression, which also includes behaviors that are threatening, hostile, or damaging in a nonphysical way (2). This Alcohol Alert explores the association between alcohol consumption, violence, and aggression and the role of the brain in regulating these behaviors. Understanding the nature of these associations is essential to breaking the cycle of alcohol misuse and violence.
Extent of the Alcohol-Violence Association
Based on published studies, Roizen (3) summarized the percentages of violent offenders who were drinking at the time of the offense as follows: up to 86 percent of homicide offenders, 37 percent of assault offenders, 60 percent of sexual offenders, up to 57 percent of men and 27 percent of women involved in marital violence, and 13 percent of child abusers. These figures are the upper limits of a wide range of estimates. In a community-based study, Pernanen (4) found that 42 percent of violent crimes reported to the police involved alcohol, although 51 percent of the victims interviewed believed that their assailants had been drinking.
Alcohol-Violence Relationships
Several models have been proposed to explain the complex relationships between violence or aggression and alcohol consumption. To avoid exposing human or animal subjects to potentially serious injury, research results discussed below are largely based on experiments on nonphysical aggression. Other studies involving humans are based on epidemiological surveys or data obtained from archival or official sources.
Alcohol Misuse Preceding Violence
Direct Effects of Alcohol.
Alcohol may encourage aggression or violence by disrupting normal brain function. According to the disinhibition hypothesis, for example, alcohol weakens brain mechanisms that normally restrain impulsive behaviors, including inappropriate aggression (5). By impairing information processing, alcohol can also lead a person to misjudge social cues, thereby overreacting to a perceived threat (6). Simultaneously, a narrowing of attention may lead to an inaccurate assessment of the future risks of acting on an immediate violent impulse (7).
Many researchers have explored the relationship of alcohol to aggression using variations of an experimental approach developed more than 35 years ago (8,9). In a typical example, a subject administers electric shocks or other painful stimuli to an unseen “opponent,” ostensibly as part of a competitive task involving learning and reaction time. Unknown to the subject, the reactions of the nonexistent opponent are simulated by a computer. Subjects perform both while sober and after consuming alcohol. In many studies, subjects exhibited increased aggressiveness (e.g., by administering stronger shocks) in proportion to increasing alcohol consumption (10).
These findings suggest that alcohol may facilitate aggressive behavior. However, subjects rarely increased their aggression unless they felt threatened or provoked. Moreover, neither intoxicated nor sober participants administered painful stimuli when nonaggressive means of communication (e.g., a signal lamp) were also available (5,9).
These results are consistent with the real-world observation that intoxication alone does not cause violence (4). The following subsections explore some mechanisms whereby alcohol’s direct effects may interact with other factors to influence the expression of aggression.
Social and Cultural Expectancies.
Alcohol consumption may promote aggression because people expect it to (5). For example, research using real and mock alcoholic beverages shows that people who believe they have consumed alcohol begin to act more aggressively, regardless of which beverage they actually consumed (10). Alcohol-related expectancies that promote male aggressiveness, combined with the widespread perception of intoxicated women as sexually receptive and less able to defend themselves, could account for the association between drinking and date rape (11).
In addition, a person who intends to engage in a violent act may drink to bolster his or her courage or in hopes of evading punishment or censure (12,13). The motive of drinking to avoid censure is encouraged by the popular view of intoxication as a “time-out,” during which one is not subject to the same rules of conduct as when sober (14,15).
Violence Preceding Alcohol Misuse
Childhood Victimization.
A history of childhood sexual abuse (16) or neglect (17) is more likely among women with alcohol problems than among women without alcohol problems. Widom and colleagues (17) found no relationship between childhood victimization and subsequent alcohol misuse in men. Even children who only witness family violence may learn to imitate the roles of aggressors or victims, setting the stage for alcohol abuse and violence to persist over generations (18). Finally, obstetric complications that damage the nervous system at birth, combined with subsequent parental neglect such as might occur in an alcoholic family, may predispose one to violence, crime, and other behavioral problems by age 18 (19,20).
Violent Lifestyles.
Violence may precede alcohol misuse in offenders as well as victims. For example, violent people may be more likely than nonviolent people to select or encounter social situations and subcultures that encourage heavy drinking (21). In summary, violence may contribute to alcohol consumption, which in turn may perpetuate violence.
Common Causes for Alcohol Misuse and Violence
In many cases, abuse of alcohol and a propensity to violence may stem from a common cause (22). This cause may be a temperamental trait, such as a risk-seeking personality, or a social environment (e.g., delinquent peers or lack of parental supervision) that encourages or contributes to deviant behavior (21).
Another example of a common cause relates to the frequent co-occurrence of antisocial personality disorder (ASPD) and early-onset (i.e., type II) alcoholism (23). ASPD is a psychiatric disorder characterized by a disregard for the rights of others, often manifested as a violent or criminal lifestyle. Type II alcoholism is characterized by high heritability from father to son; early onset of alcoholism (often during adolescence); and antisocial, sometimes violent, behavioral traits (24). Type II alcoholics and persons with ASPD overlap in their tendency to violence and excessive alcohol consumption and may share a genetic basis (23).
Spurious Associations
Spurious associations between alcohol consumption and violence may arise by chance or coincidence, with no direct or common cause. For example, drinking is a common social activity for many adult Americans, especially those most likely to commit violent acts. Therefore, drinking and violence may occur together by chance (5). In addition, violent criminals who drink heavily are more likely than less intoxicated offenders to be caught and consequently are overrepresented in samples of convicts or arrestees (7). Spurious associations may sometimes be difficult to distinguish from common-cause associations.
Physiology of Violence
Although individual behavior is shaped in part by the environment, it is also influenced by biological factors (e.g., hormones) and ultimately planned and directed by the brain. Individual differences in brain chemistry may explain the observation that excessive alcohol consumption may consistently promote aggression in some persons, but not in others (25). The following subsections highlight some areas of intensive study.
Serotonin
Serotonin, a chemical messenger in the brain, is thought to function as a behavioral inhibitor. Thus, decreased serotonin activity is associated with increased impulsivity and aggressiveness (26) as well as with early-onset alcoholism among men (27).
Researchers have developed an animal model that simulates many of the characteristics of alcoholism in humans. Rhesus macaque monkeys sometimes consume alcohol in sufficient quantities to become intoxicated. Macaques with low serotonin activity consume alcohol at elevated rates (25); these monkeys also demonstrate impaired impulse control, resulting in excessive and inappropriate aggression (25,27). This behavior and brain chemistry closely resemble that of type II alcoholics. Interestingly, among both macaques and humans, parental neglect leads to early-onset aggression and excessive alcohol consumption in the offspring, again correlated with decreased serotonin activity (27).
Although data are inconclusive, the alcohol-violence link may be mediated by chemical messengers in addition to serotonin, such as dopamine and norepinephrine (28). There is also considerable overlap among nerve cell pathways in the brain that regulate aspects of aggression (29), sexual behavior, and alcohol consumption (30). These observations suggest a biological basis for the frequent co-occurrence of alcohol intoxication and sexual violence.
Testosterone
The steroid hormone testosterone is responsible for the development of male primary and secondary sexual characteristics. High testosterone concentrations in criminals have been associated with violence, suspiciousness, and hostility (31,32). In animal experiments, alcohol administration increased aggressive behavior in socially dominant squirrel monkeys, who already exhibited high levels of aggression and testosterone (33). Alcohol did not, however, increase aggression in subordinate monkeys, which exhibited low levels of aggression and testosterone (6).
These findings may shed some light on the life cycle of violence in humans. In humans, violence occurs largely among adolescent and young adult males, who tend to have high levels of testosterone compared with the general population. Young men who exhibit antisocial behaviors often “burn out” with age, becoming less aggressive when they reach their forties (34). By that age, testosterone concentrations are decreasing, while serotonin concentrations are increasing, both factors that tend to restrain violent behavior (35).
Conclusion
No one model can account for all individuals or types of violence. Alcohol apparently may increase the risk of violent behavior only for certain individuals or subpopulations and only under some situations and social/cultural influences (4,36).
Although much remains to be learned, research suggests that some violent behavior may be amenable to treatment and some may be preventable. One study found decreased levels of marital violence in couples who completed behavioral marital therapy for alcoholism and remained sober during followup (37). Results of another study (7) suggest that a 10-percent increase in the beer tax could reduce murder by 0.3 percent, rape by 1.32 percent, and robbery by 0.9 percent. Although these results are modest, they indicate a direction for future research. In addition, preliminary experiments have identified medications that have the potential to reduce violent behavior. Such medications include certain anticonvulsants (e.g., carbamazepine) (38); mood stabilizers (e.g., lithium) (39); and antidepressants, especially those that increase serotonin activity (e.g., fluoxetine) (40,41). However, these studies either did not differentiate alcoholic from nonalcoholic subjects or excluded alcoholics from participation.
References
- Reiss, A.J., Jr., & Roth, J.A., eds. Understanding and Preventing Violence. Vol. 3. Washington, DC: National Academy Press, 1994.
- Moss, H.B., & Tarter, R.E. Substance abuse, aggression, and violence. Am J Addict 2(2):149-160, 1993.
- Roizen, J. Epidemiological issues in alcohol-related violence. In: Galanter, M., ed. Recent Developments in Alcoholism. Vol. 13. New York: Plenum Press, 1997. pp. 7-40.
- Pernanen, K. Alcohol in Human Violence. New York: Guilford Press, 1991.
- Gustafson, R. Alcohol and aggression. J Offender Rehabil 21 (3/4):41-80, 1994.
- Miczek, K.A., et al. Alcohol, GABAA-benzodiazepine receptor complex, and aggression. In: Galanter, M., ed. Recent Developments in Alcoholism. Vol. 13. New York: Plenum Press, 1997. pp. 139-171.
- Cook, P.J., & Moore, M.J. Economic perspectives on reducing alcohol-related violence. In: Martin, S.E., ed. Alcohol and Interpersonal Violence. NIAAA Research Monograph No. 24. NIH Pub. No. 93-3496. Rockville, MD: NIAAA, 1993. pp. 193-212.
- Buss, A.H. The Psychology of Aggression. New York: Wiley, 1961.
- Gustafson, R. What do experimental paradigms tell us about alcohol-related aggressive responding? J Stud Alcohol 11 (suppl):20-29, 1993.
- Bushman, B.J. Effects of alcohol on human aggression: Validity of proposed explanations. In: Galanter, M., ed. Recent Developments in Alcoholism. Vol. 13. New York: Plenum Press, 1997. pp. 227-243.
- Lang, A.R. Alcohol-related violence: Psychological perspectives. In: Martin, S.E., ed. Alcohol and Interpersonal Violence. NIAAA Research Monograph No. 24. NIH Pub. No. 93-3496. Rockville, MD: NIAAA, 1993. pp. 121-148.
- Collins, J.J. Alcohol and interpersonal violence: Less than meets the eye. In: Wolfgang, M.E., eds. Pathways to Criminal Violence. Newbury Park, CA: Sage Publications, 1989. pp. 49-67.
- Fagan, J. Intoxication and aggression. In: Tonry, M., & Wilson, J.Q., eds. Crime and Justice. Vol. 13. Chicago: Univ. of Chicago Press, 1990. pp. 241-320.
- MacAndrew, C., & Edgerton, R.B. Drunken Comportment. Chicago: Aldine Publishing, 1969.
- Zack, M., & Vogel-Sprott, M. Drunk or sober? Learned conformity to a behavioral standard. J Stud Alcohol 58 (5):495-501, 1997.
- Miller, B.A. Investigating links between childhood victimization and alcohol problems. In: Martin, S.E., ed. Alcohol and Interpersonal Violence. NIAAA Research Monograph No. 24. NIH Pub. No. 93-3496. Rockville, MD: NIAAA, 1993. pp. 315-323.
- Widom, C.S., et al. Alcohol abuse in abused and neglected children followed-up: Are they at increased risk? J Stud Alcohol 56 (2):207-217, 1995.
- Brookoff, D., et al. Characteristics of participants in domestic violence: Assessment at the scene of domestic assault. JAMA 277 (17):1369-1373, 1997.
- Raine, A., et al. Birth complications combined with early maternal rejection at age 1 year predispose to violent crime at age 18 years. Arch Gen Psychiatry 51(12):984-988, 1994.
- Raine, A., et al. High rates of violence, crime, academic problems, and behavioral problems in males with both early neuromotor deficits and unstable family environments. Arch Gen Psychiatry 53 (6):544-549, 1996.
- White, H.R. Longitudinal perspective on alcohol use and aggression during adolescence. In: Galanter, M., ed. Recent Developments in Alcoholism. Vol. 13. New York: Plenum Press, 1997. pp. 81-103.
- Jessor, R., & Jessor, S.L. Problem Behavior and Psychosocial Development. New York: Academic Press, 1977.
- Virkkunen, M., et al. Serotonin in alcoholic violent offenders. Ciba Foundation Symposium 194:168-182, 1995.
- Cloninger, C.R., et al. Inheritance of alcohol abuse: Cross-fostering analysis of adopted men. Arch Gen Ps ychiatry 38:861-868, 1981.
- Higley, J.D., et al. A nonhuman primate model of type II excessive alcohol consumption? Part 1. Low cerebrospinal fluid 5-hydroxyindoleacetic acid concentrations and diminished social competence correlate with excessive alcohol consumption. Alcohol Clin Exp Res 20 (4):629-642, 1996.
- Virkkunen, M., & Linnoila, M. Serotonin and glucose metabolism in impulsively violent alcoholic offenders. In: Stoff, D.M., & Cairns, R.B., eds. Aggression and Violence. Mahwah, NJ: Lawrence Erlbaum, 1996. pp. 87-100.
- Higley, J.D., & Linnoila, M. A nonhuman primate model of excessive alcohol intake: Personality and neurobiological parallels of type I- and type II-like alcoholism. In: Galanter, M., ed. Recent Developments in Alcoholism. Vol. 13. New York: Plenum Press, 1997. pp. 192-219.
- Coccaro, E.F., & Kavoussi, R.J. Neurotransmitter correlates of impulsive aggression. In: Stoff, D.M., & Cairns, R.B., eds. Aggression and Violence. Mahwah, NJ: Lawrence Erlbaum, 1996. pp. 67-86.
- Alexander, G., et al. Parallel organization of functionally segregated circuits linking basal ganglia and cortex. Annu Rev Neurosci 9:357-381, 1986.
- Modell, J.G., et al. Basal ganglia/limbic striatal and thalamocortical involvement in craving and loss of control in alcoholism. J Neuropsychiatry Clin Neurosci 2 (2):123-144, 1990.
- Dabbs, J.M., Jr., et al. Salivary testosterone and cortisol among late adolescent male offenders. J Abnorm Child Psychol 19 (4):469-478, 1991.
- Virkkunen, M., et al. CSF biochemistries, glucose metabolism, and diurnal activity rhythms in alcoholic, violent offenders, fire setters, and healthy volunteers. Arch Gen Psychiatry 51:20-27, 1994.
- Miczek, K.A., et al. Alcohol, drugs of abuse, aggression, and violence. In: Reiss, A.J., & Roth, J.A., eds. Understanding and Preventing Violence. Vol. 3. Washington, DC: National Academy Press, 1994. pp. 377-570.
- Robins, L.N. Deviant Children Grown Up. Baltimore: Williams & Wilkins, 1996.
- Brown, G.L., & Linnoila, M.I. CSF serotonin metabolite (5-HIAA) studies in depression, impulsivity, and violence. J Clin Psychiatry 51 (4)(suppl):31-43, 1990.
- Lipsey, M.W., et al. Is there a causal relationship between alcohol use and violence? A synthesis of evidence. In: Galanter, M., ed. Recent Developments in Alcoholism. Vol. 13. New York: Plenum Press, 1997. pp. 245-282.
- O’Farrell, T.J., & Murphy, C.M. Marital violence before and after alcoholism treatment. J Consult Clin Psychol 63:256-262, 1995.
- Gardner, D.L., & Cowdry, R.W. Positive effects of carbamazepine on behavioral dyscontrol in borderline personality disorder. Am J Psychiatry 143(4):519-522, 1986.
- Sheard, M.H., et al. The effect of lithium on impulsive behavior in man. Am J Psychiatry 133:1409-1413, 1976.
- Coccaro, E.F., et al. Fluoxetine treatment of compulsive aggression in DSM-III-R personality disorder patients. J Clin Psychopharm 10:373-375, 1990.
- Salzman, C., et al. Effect of fluoxetine on anger in symptomatic volunteers with borderline personality disorder. J Clin Psychopharm 15(1):23-19, 1995.
Source: National Institute on Alcohol Abuse and Alcoholism
Alcohol Alert No. 38 October 1997, Updated October 2000