A Social Neuroscience Perspective on Adolescent Risk-Taking

doi:10.1016/j.dr.2007.08.002

. 2008 Mar;28(1):78-106.

doi: 10.1016/j.dr.2007.08.002.

A Social Neuroscience Perspective on Adolescent Risk-Taking

Laurence Steinberg¹

Affiliations

PMID: 18509515
PMCID: PMC2396566
DOI: 10.1016/j.dr.2007.08.002

A Social Neuroscience Perspective on Adolescent Risk-Taking

Laurence Steinberg. Dev Rev. 2008 Mar.

. 2008 Mar;28(1):78-106.

doi: 10.1016/j.dr.2007.08.002.

Author

Laurence Steinberg¹

Affiliation

¹ Department of Psychology, Temple University.

PMID: 18509515
PMCID: PMC2396566
DOI: 10.1016/j.dr.2007.08.002

Abstract

This article proposes a framework for theory and research on risk-taking that is informed by developmental neuroscience. Two fundamental questions motivate this review. First, why does risk-taking increase between childhood and adolescence? Second, why does risk-taking decline between adolescence and adulthood? Risk-taking increases between childhood and adolescence as a result of changes around the time of puberty in the brain's socio-emotional system leading to increased reward-seeking, especially in the presence of peers, fueled mainly by a dramatic remodeling of the brain's dopaminergic system. Risk-taking declines between adolescence and adulthood because of changes in the brain's cognitive control system - changes which improve individuals' capacity for self-regulation. These changes occur across adolescence and young adulthood and are seen in structural and functional changes within the prefrontal cortex and its connections to other brain regions. The differing timetables of these changes make mid-adolescence a time of heightened vulnerability to risky and reckless behavior.

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Figures

**Figure 1**
Proportion of individuals in each age group scoring at or above the mean for 26- to 30- year-olds on indices of intellectual and psychosocial maturity. From Steinberg et al., 2007.

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References

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[1] Adleman N, Menon V, Blasey C, White C, Warsofsky I, Glover G, Reiss A. A developmental fMRI study of the Stroop Color-Word task. Neuroimage. 2002;16:61–75. - PubMed

[2] Adleman N, Menon V, Blasey C, White C, Warsofsky I, Glover G, Reiss A. A developmental fMRI study of the Stroop Color-Word task. Neuroimage. 2002;16:61–75. - PubMed

[3] Aharon I, Etcoff N, Ariely D, Chabris C, O’Connor E, Breiter H. Beautiful faces have variable reward value: fMRI and behavioral evidence. Neuron. 2001;8:537–551. - PubMed

[4] Aharon I, Etcoff N, Ariely D, Chabris C, O’Connor E, Breiter H. Beautiful faces have variable reward value: fMRI and behavioral evidence. Neuron. 2001;8:537–551. - PubMed

[5] Adolphs R. Cognitive neuroscience of human social behavior. Nature Reviews Neuroscience. 2003;4:165–178. - PubMed

[6] Adolphs R. Cognitive neuroscience of human social behavior. Nature Reviews Neuroscience. 2003;4:165–178. - PubMed

[7] Andersen S, Thompson A, Krenzel E, Teicher M. Pubertal changes in gonadal hormones do not underlie adolescent dopamine receptor overproduction. Psychoneuroendocrinology. 2002;27:683–691. - PubMed

[8] Andersen S, Thompson A, Krenzel E, Teicher M. Pubertal changes in gonadal hormones do not underlie adolescent dopamine receptor overproduction. Psychoneuroendocrinology. 2002;27:683–691. - PubMed

[9] Babalola S. Perceived peer behavior and the timing of sexual debut in Rwanda: A survival analysis of youth data. Journal of Youth and Adolescence. 2004;33:353–363.

[10] Babalola S. Perceived peer behavior and the timing of sexual debut in Rwanda: A survival analysis of youth data. Journal of Youth and Adolescence. 2004;33:353–363.

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A Social Neuroscience Perspective on Adolescent Risk-Taking

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