Book contents
- The Cambridge Handbook of Violent Behavior and Aggression
- The Cambridge Handbook of Violent Behavior and Aggression
- Copyright page
- Dedication
- Contents
- Contributors
- Introduction: The Cambridge Handbook of Violent Behavior and Aggression
- Part I Introduction and Overview
- Part II Biosocial Foundations of Violence and Aggression
- 5 The Behavioral Genetics of Aggression and Violent Behavior
- 6 Neuroimaging Evidence of Violence and Aggression
- 7 Biosocial Bases of Aggression and Antisocial Behavior
- 8 The Neuropsychology of Violence
- 9 The Interaction of Nature and Nurture in Antisocial Behavior
- 10 The Neurobiology of Bullying Victimization
- 11 Molecular Genetics of Aggression and Violent Crime
- 12 Biosocial Foundations of Drug Abuse and Violent Delinquency
- 13 Personality and Aggression: A General Trait Perspective
- Part III Individual and Interpersonal Factors for Violence and Aggression
- Part IV Contextual Factors for Violence and Aggression
- Part V Looking Toward the Future
- Index
- References
12 - Biosocial Foundations of Drug Abuse and Violent Delinquency
from Part II - Biosocial Foundations of Violence and Aggression
Published online by Cambridge University Press: 30 July 2018
Book contents
- The Cambridge Handbook of Violent Behavior and Aggression
- The Cambridge Handbook of Violent Behavior and Aggression
- Copyright page
- Dedication
- Contents
- Contributors
- Introduction: The Cambridge Handbook of Violent Behavior and Aggression
- Part I Introduction and Overview
- Part II Biosocial Foundations of Violence and Aggression
- 5 The Behavioral Genetics of Aggression and Violent Behavior
- 6 Neuroimaging Evidence of Violence and Aggression
- 7 Biosocial Bases of Aggression and Antisocial Behavior
- 8 The Neuropsychology of Violence
- 9 The Interaction of Nature and Nurture in Antisocial Behavior
- 10 The Neurobiology of Bullying Victimization
- 11 Molecular Genetics of Aggression and Violent Crime
- 12 Biosocial Foundations of Drug Abuse and Violent Delinquency
- 13 Personality and Aggression: A General Trait Perspective
- Part III Individual and Interpersonal Factors for Violence and Aggression
- Part IV Contextual Factors for Violence and Aggression
- Part V Looking Toward the Future
- Index
- References
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- The Cambridge Handbook of Violent Behavior and Aggression , pp. 206 - 220Publisher: Cambridge University PressPrint publication year: 2018
References
Aguilar, B., Sroufe, L. A., Egeland, B., & Carlson, E. (2000). Distinguishing the early-onset/persistent and adolescence-onset antisocial behavior types: From birth to 16 years. Development and Psychopathology, 12(2), 109–132.Google Scholar
Althoff, R. R., Verhulst, F. C., Rettew, D. C., Hudziak, J. J., & van der Ende, J. (2010). Adult outcomes of childhood dysregulation: a 14-year follow-up study. Journal of the American Academy of Child & Adolescent Psychiatry, 49(11), 1105–1116.Google Scholar
American Public Health Association (2013). Defining and Implementing a Public Health Response to Drug Use and Misuse. Retrieved on June 10, 2016 from www.apha.org/policies-and-advocacy/public-health-policy-statements/policy-database/2014/07/08/08/04/defining-and-implementing-a-public-health-response-to-drug-use-and-misuse.Google Scholar
Anthony, J. C. & Petronis, K. R. (1995). Early-onset drug use and risk of later drug problems. Drug and Alcohol Dependence, 40(1), 9–15.Google Scholar
Beaver, K. M., DeLisi, M., Vaughn, M. G., & Barnes, J. C. (2010). MAOA genotype is associated with gang membership and weapon use, Comprehensive Psychiatry, 51, 130–134.Google Scholar
Berkman, E. T., Falk, E. B., & Lieberman, M. D. (2011). In the trenches of real-world self-control: Neural correlates and breaking the link between craving and smoking. Psychological Science, 22, 498–506.Google Scholar
Broidy, L. M., Nagin, D. S., Tremblay, R. E., Bates, J. E., Brame, B., Dodge, K. A., … & Lynam, D. R. (2003). Developmental trajectories of childhood disruptive behaviors and adolescent delinquency: a six-site, cross-national study. Developmental Psychology, 39(2), 222–245.Google Scholar
Brower, M. C. & Price, B. H. (2001). Neuropsychiatry of frontal lobe dysfunction in violent and criminal behaviour: a critical review. Journal of Neurology, Neurosurgery, and Psychiatry, 71, 720–726.Google Scholar
Campbell, S. B., Spieker, S., Burchinal, M., & Poe, M. D. (2006). Trajectories of aggression from toddlerhood to age 9 predict academic and social functioning through age 12. Journal of Child Psychology and Psychiatry, 47(8), 791–800.Google Scholar
Campbell, S. B. (2006). Behavior problems in preschool children: Clinical and developmental issues. New York: Guilford Press.Google Scholar
Carson, E. A. & Golinelli, D. (2013). Prisoners in 2012: Trends in Admissions and Releases, 1991–2012. Washington, DC: Bureau of Justice Statistics.Google Scholar
Carter, A. S., Briggs-Gowan, M. J., Jones, S. M., & Little, T. D. (2003). The infant–toddler social and emotional assessment (ITSEA): Factor structure, reliability, and validity. Journal of Abnormal Child Psychology, 31(5), 495–514.Google Scholar
Caspi, A., Henry, B., McGee, R. O., Moffitt, T. E., & Silva, P. A. (1995). Temperamental origins of child and adolescent behavior problems: From age three to age fifteen. Child Development, 66(1), 55–68.Google Scholar
Chen, C. Y., Storr, C. L., & Anthony, J. C. (2009). Early-onset drug use and risk for drug dependence problems. Addictive Behaviors, 34(3), 319–322.CrossRefGoogle ScholarPubMed
Childress, A. R. (2006). What can human brain imaging tell us about vulnerability to addiction and to relapse? In Miller, W. R. & Carroll, K. M. (Eds), Rethinking substance abuse: what the science shows, and what we should do about it (46–60). New York: Guilford Press.Google Scholar
Demers, C. H., Bogdan, R., & Agrawal, A. (2014). The Genetics, Neurogenetics and Pharmacogenetics of Addiction. Current Behavioral Neuroscience Reports, 1(1), 33–44.CrossRefGoogle ScholarPubMed
DeWit, D. J., Adlaf, E. M., Offord, D. R., & Ogborne, A. C. (2000). Age at first alcohol use: a risk factor for the development of alcohol disorders. American Journal of Psychiatry, 157(5), 745–750.CrossRefGoogle ScholarPubMed
Dick, D. M., Latendresse, S. J., Lansford, J. E., Budde, J. P., Goate, A., Dodge, K. A., … & Bates, J. E. (2009). Role of GABRA2 in trajectories of externalizing behavior across development and evidence of moderation by parental monitoring. Archives of General Psychiatry, 66, 649–657.Google Scholar
Edenberg, H. J., Dick, D. M, Xuei, X., Tian, H., Almasy, L., Bauer, L. O., … & Begleiter, H. (2004). Variations in GABRA2, encoding the alpha 2 subunit of the GABA(A) receptor, are associated with alcohol dependence and with brain oscillations. American Journal of Human Genetics, 74, 705–714.Google Scholar
Elder, G. H. (1974). Children of the Great Depression: Social change in life experience. Chicago: University of Chicago Press.Google Scholar
Ellickson, P. L., Tucker, J. S., & Klein, D. J. (2003). Ten-year prospective study of public health problems associated with early drinking. Pediatrics, 11(5), 949–955.CrossRefGoogle Scholar
Englund, M. M., Egeland, B., Oliva, E. M., & Collins, W. A. (2008). Childhood and adolescent predictors of heavy drinking and alcohol use disorders in early adulthood: a longitudinal developmental analysis. Addiction, 103(s1), 23–35.Google Scholar
Farrington, D. P., Lambert, S., & West, D. J. (1998). Criminal careers of two generations of family members in the Cambridge Study in Delinquent Development. Studies on Crime and Crime Prevention, 7, 85–106.Google Scholar
Fearon, R. M., Reiss, D., Leve, L. D., Shaw, D. S., Scaramella, L. V., Ganiban, J. M., & Neiderhiser, J. M. (2014). Child-evoked maternal negativity from 9 to 27 months: Evidence of gene–environment correlation and its moderation by marital distress. Development and Psychopathology, 27(4pt1), 1251–1265.Google Scholar
Fergusson, D. M., Horwood, L. J., & Ridder, E. M., (2007). Conduct and attentional problems in childhood and adolescence and later substance use, abuse and dependence: results of a 25 year longitudinal study. Drug and Alcohol Dependence, 88S, S14–S26.CrossRefGoogle Scholar
Gartstein, M. A. & Rothbart, M. K. (2003). Studying infant temperament via the revised infant behavior questionnaire. Infant Behavior and Development, 26(1), 64–86.Google Scholar
Goldstein, P. J. (1985). The drugs/violence nexus: A tripartite conceptual framework. Journal of Drug Issues, 15, 493–506.Google Scholar
Guo, G., Wilhelmsen, K., & Hamilton, N. (2007). Gene-lifecourse interaction for alcohol consumption in adolescence and young adulthood: Five monoamine genes. American Journal of Medical Genetics Part B (Neuropsychiatric Genetics), 144B, 417–423.Google Scholar
Hicks, B. M., South, S. C., DiRago, A. C., Iacono, W. G., & McGue, M. (2009). Environmental adversity and increasing genetic risk for externalizing disorders. Archives of General Psychiatry, 66, 640–648.Google Scholar
Hser, Y. I., Longshore, D., & Anglin, M. D. (2007). The life course perspective on drug use: A conceptual framework for understanding drug use trajectories. Evaluation Review, 31(6), 515–547.Google Scholar
Kendler, K. S., Schmitt, E., Aggen, S. H., & Prescott, C. A. (2008). Genetic and environmental influences on alcohol, caffeine, cannabis, and nicotine use from early adolescence to middle adulthood. Archives of General Psychiatry, 65: 674–682.Google Scholar
Meier, M. H., Hall, W., Caspi, A., Belsky, D. W., Cerdá, M., Harrington, H. L., … & Moffitt, T. E. (2016). Which adolescents develop persistent substance dependence in adulthood? Using population-representative longitudinal data to inform universal risk assessment. Psychological Medicine, 46(4), 877–889.Google Scholar
Moffitt, T. E. (1993). “Life-course persistent” and “adolescence-limited” antisocial behavior: A developmental taxonomy. Psychological Review, 100, 674–701.Google Scholar
Moffitt, T. E., Arseneault, L., Belsky, D., Dickson, N., Hancox, R. J., Harrington, H., Caspi, A. (2011). A gradient of childhood self-control predicts health, wealth, and public safety. Proceedings of the National Academy of Sciences, U.S.A., 108, 2693–2698.Google Scholar
Moffitt, T. E., Caspi, A., Harrington, H., & Milne, B. J. (2002). Males on the life-course-persistent and adolescence-limited antisocial pathways: Follow-up at age 26 years. Development and Psychopathology, 14(1), 179–207.Google Scholar
Nærde, A., Ogden, , Janson, T., , H., & Zachrisson, H. D. (2014). Normative development of physical aggression from 8 to 26 months. Developmental Psychology, 50(6), 1710–1720.Google Scholar
Nelson, R. J. & Chiavegatto, S. (2001). Molecular basis of aggression. Trends in Neuroscience, 24, 713–719.Google Scholar
Noble, E. P. (2000). Addiction and its reward process through polymorphisms of the D2 dopamine receptor gene: A review. European Psychiatry, 15, 7–89.CrossRefGoogle ScholarPubMed
Odgers, C. L., Caspi, A., Nagin, D. S., Piquero, A. R., Slutske, W. S., Milne, B. J., … & Moffitt, T. E. (2008). Is it important to prevent early exposure to drugs and alcohol among adolescents? Psychological Science, 19(10), 1037–1044.Google Scholar
Piquero, A. R., Jennings, W. G. & Barnes, J. C. (2012). Violence in criminal careers: A review of the literature from a developmental life-course perspective. Aggression and Violent Behavior, 17(3), 171–179.Google Scholar
Rogers, J. C. & De Brito, S. A. (2016). Cortical and subcortical gray matter volume in youths with conduct problems: A meta-analysis. JAMA Psychiatry, 73, 64–72.Google Scholar
Roisman, G. I., Monahan, K. C., Campbell, S. B., Steinberg, L., & Cauffman, E. (2010). Is adolescence-onset antisocial behavior developmentally normative? Development and Psychopathology, 22(2), 295–311.Google Scholar
Rothbart, M. K. (2011). Becoming who we are: Temperament and personality in development. New York: Guilford Press.Google Scholar
Samochowiec, J., Lesch, K. P., Rottman, M., Smolka, M., Syagailo, Y. V., Okladnova, O., … & Sander, T. (1999). Association of a regulatory polymorphism in the promoter region of the MAOA gene with antisocial alcoholism. Psychiatry Research, 86, 67–72.Google Scholar
Sampson, R. J. & Laub, J. H. (2003). Life-course desisters? Trajectories of crime among delinquent boys followed to age 70. Criminology, 41(3), 555–592.CrossRefGoogle Scholar
Science Daily. (2014). Huntington disease prevention trial shows creatine safe, slows progression. Retrieved from www.sciencedaily.com/releases/2014/02/140208080705.htm. Acessed November 1, 2017.Google Scholar
Shook, J. J., Vaughn, M. G., Goodkind, S., & Johnson, H. (2011). An empirical portrait of youthful offenders who sell drugs. Journal of Criminal Justice, 39, 224–231.Google Scholar
Steinberg, L. (2007). Risk-taking in adolescence: New perspectives from brain and behavioral science. Current Directions in Psychological Science, 16, 55–59.Google Scholar
Tarter, R. E., Kirisci, L., Habeych, M., Reynolds, M., & Vanyukov, M. (2003). Neurobehavior disinhibition in childhood predisposes boys to substance use disorder by young adulthood: direct and mediated etiologic pathways. American Journal of Psychiatry, 160, 1078–1085.Google Scholar
Tremblay, R. E. (2015). Antisocial behavior before the age–crime curve: Can developmental criminology continue to ignore developmental origins? In Morizot, J. & Kazemian, L. (Eds), The development of criminal and antisocial behavior (pp. 39–49). Cham, Switzerland: Springer International Publishing.Google Scholar
Tuvblad, C., Isen, J., Baker, L. A., Raine, A., Lozano, D. I., & Jacobson, K. C. (2010). The genetic and environmental etiology of sympathetic and parasympathetic activity in children. Behavior Genetics, 40(4), 452–466.Google Scholar
Van Zeijl, J., Mesman, J., Stolk, M. N., Alink, L. R., Van Ijzendoorn, M. H., Bakermans-Kranenburg, M. J., … & Koot, H. M. (2006). Terrible ones? Assessment of externalizing behaviors in infancy with the Child Behavior Checklist. Journal of Child Psychology and Psychiatry, 47(8), 801–810.Google Scholar
Volkow, N. D. (2003). The addicted brain: Why such poor decisions? NIDA Notes, 18, 1–15.Google Scholar
Volkow, N. D. & Muenke, M. (2012). The genetics of addiction. Human Genetics, 131, 773–777.Google Scholar
Weeland, J., Overbeek, G., Orobio de Castro, B., & Matthys, W. (2015). Underlying mechanisms of gene–environment interactions in externalizing behavior: A systematic review and search for theoretical mechanisms. Clinical Child and Family Psychology Review, 18, 413–442.Google Scholar