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     Content List
    • Abstract
    • BACKGROUND ON ADOLESCENT SUBSTANCE USE
    • TYPICAL ADOLESCENT BRAIN DEVELOPMENT
    • ADOLESCENT SUBSTANCE USE AND NEUROCOGNITION
    • ADOLESCENT SUBSTANCE USE AND BRAIN STRUCTURE
    • ADOLESCENT SUBSTANCE USE AND BRAIN FUNCTIONING
    • METHODOLOGICAL CONSIDERATIONS
    • CONCLUSIONS
    • DISCLOSURE AND CONFLICT OF INTEREST
    • Acknowledgements
    • References

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The Influence of Substance Use on Adolescent Brain Development

L.M. Squeglia, J. Jacobus, and S.F. Tapert, PhD

Clinical EEG and Neuroscience

Vol 40, Issue 1, pp. 31 - 38

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The Influence of Substance Use on Adolescent Brain Development
L.M. Squeglia, J. Jacobus, and S.F. Tapert, PhD
Clinical EEG and Neuroscience 2009 40:1, 31-38
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The Influence of Substance Use on Adolescent Brain Development

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L.M. Squeglia1
L.M. Squeglia
1 Doctoral Program in Clinical Psychology, VA San Diego Healthcare System University of California San Diego, Department of Psychiatry San Diego, California
See all articles by this author
, J. Jacobus1
J. Jacobus
1 Doctoral Program in Clinical Psychology, VA San Diego Healthcare System University of California San Diego, Department of Psychiatry San Diego, California
See all articles by this author
, S.F. Tapert, PhD1
S.F. Tapert
1 Doctoral Program in Clinical Psychology, VA San Diego Healthcare System University of California San Diego, Department of Psychiatry San Diego, California
See all articles by this author
First Published January 1, 2009 Research Article
https://doi.org/10.1177/155005940904000110
https://doi.org/10.1177/155005940904000110
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Article Information

Volume: 40 issue: 1, page(s): 31-38
Article first published online: January 1, 2009; Issue published: January 1, 2009
L.M. Squeglia1, J. Jacobus1, S.F. Tapert, PhD1
1 Doctoral Program in Clinical Psychology, VA San Diego Healthcare System University of California San Diego, Department of Psychiatry San Diego, California

Corresponding Author: Address requests for reprints to S. F. Tapert, PhD, 3350 La Jolla Village Drive (116B), San Diego, CA 92161, USA. Email:

Abstract

Adolescence is a unique period in neurodevelopment. Alcohol and marijuana use are common. Recent research has indicated that adolescent substance users show abnormalities on measures of brain functioning, which is linked to changes in neurocognition over time. Abnormalities have been seen in brain structure volume, white matter quality, and activation to cognitive tasks, even in youth with as little as 1–2 years of heavy drinking and consumption levels of 20 drinks per month, especially if >4–5 drinks are consumed on a single occasion. Heavy marijuana users show some subtle anomalies too, but generally not the same degree of divergence from demographically similar non-using adolescents. This article reviews the extant literature on neurocognition, brain structure, and brain function in adolescent substance users with an emphasis on the most commonly used substances, and in the context of ongoing neuromaturational processes. Methodological and treatment implications are provided.

Keywords Adolescence, Alcohol, Alcoholism, Diffusion Tensor Imaging, Functional Magnetic Resonance Imaging, Hangover, Magnetic Resonance Imaging, Withdrawal

References

Section:
Previous sectionNext section
1. Oscar-Berman, M, Marinkovic, K. Alcoholism and the brain: An overview. Alcohol Res Health 2003; 27:125133. Google Scholar, Medline
2. Johnston, LD, O'Malley, PM, Bachman, JG, Schulenberg, JE. Monitoring the Future National Results on Adolescent Drug Use: Overview of Key Findings. Bethesda, MD: National Institute on Drug Abuse; 2007. Google Scholar
3. Substance Abuse and Mental Health Services Administration. Results from the 2006 National Survey on Drug Use and Health: National Findings (Office of Applied Studies, NSDUH Series H-32, DHHS Publication No. SMA 07–4293). Rockville, MD; 2007. Google Scholar
4. Clark, DB, Thatcher, DL, Tapert, SF. Alcohol, psychological dysregulation, and adolescent brain development. Alcohol Clin Exp Res 2008; 32(3): 375385. Google Scholar, Crossref, Medline, ISI
5. Crews, F, He, J, Hodge, C. Adolescent cortical development: A critical period of vulnerability for addiction. Pharmacol Biochem and Behav 2007; 86(2): 189199. Google Scholar, Crossref, Medline, ISI
6. Spear, LP, Varlinskaya, EI. Adolescence: Alcohol sensitivity, tolerance, and intake. Recent Dev Alcohol 2005; 17:143159. Google Scholar, Crossref, Medline
7. Tapert, SF, Granholm, E, Leedy, NG, Brown, SA. Substance use and withdrawal: Neuropsychological functioning over 8 years in youth. J Int Neuropsychol Soc 2002; 8:873883. Google Scholar, Crossref, Medline, ISI
8. Yakovlev, PI, Lecours, AR. The myelogenetic cycles of regional maturation of the brain. In: Minkowski, A , (ed). Regional Development of the Brain in Early Life. Boston: Blackwell Scientific; 1967: 370. Google Scholar
9. Sowell, ER, Thompson, PMCML, Welcome, SE, Kan, E, Toga, AW. Longitudinal mapping of cortical thickness and brain growth in normal children. J Neurosci 2004; 24(38): 82238231. Google Scholar, Crossref, Medline, ISI
10. Giedd, JN . Structural magnetic resonance imaging of the adolescent brain. Ann NY Acad Sci 2004; 1021:7785. Google Scholar, Crossref, Medline, ISI
11. Huttenlocher, PR . Morphometric study of human cerebral cortex development. Neuropsychologia 1990; 28:517527. Google Scholar, Crossref, Medline, ISI
12. Sowell, ER, Thompson, PM, Holmes, CJ, Jernigan, TL, Toga, AW. In vivo evidence for post adolescent brain maturation in frontal and striatal regions. Nat Neurosci 1999; 2(10): 859861. Google Scholar, Crossref, Medline, ISI
13. Hüppi, PS, Dubois, J. Diffusion tensor imaging of brain development. Semin Fetal Neonatal Med 2006; 11:489497. Google Scholar, Crossref, Medline, ISI
14. Jernigan, TL, Gamst, AC. Changes in volume with age-consistency and interpretation of observed effects. Neurobiol Aging 2005; 26(9): 12711274 (discussion 1275–1278). Google Scholar, Crossref, Medline, ISI
15. Pfefferbaum, A, Mathalon, DH, Sullivan, EV, Rawles, JM, Zipursky, RB, Lim, KO. A quantitative magnetic resonance imaging study of changes in brain morphology from infancy to late adulthood. Arch Neurol 1994; 51(9): 874887. Google Scholar, Crossref, Medline
16. Sowell, ER, Thompson, PM, Toga, AW. Mapping changes in the human cortex throughout the span of life. Neuroscientist 2004; 10(4): 372392. Google Scholar, SAGE Journals, ISI
17. Gogtay, N, Giedd, JN, Lusk, L. Dynamic mapping of human cortical development during childhood through early adulthood. Proc Natl Acad Sci USA 2004; 101:81748179. Google Scholar, Crossref, Medline, ISI
18. Luna, B, Sweeney, JA. The emergence of collaborative brain function: Fmri studies of the development of response inhibition. Ann NY Acad Sci 2004; 1021:296309. Google Scholar, Crossref, Medline, ISI
19. Cloninger, CR, Sigvardsson, S, Bohman, M. Childhood personality predicts alcohol abuse in young adults. Alcohol Clin Exp Res 1988; 12(4): 494505. Google Scholar, Crossref, Medline, ISI
20. Baumrind, D . A developmental perspective on adolescent risk-taking behavior in contemporary America. In: Damon, W , (ed). Adolescent Social Behavior and Health. San Francisco: Jossey-Bass; 1987: 93126. Google Scholar
21. Spear, LP . The adolescent brain and age-related behavioral manifestations. Neurosci Biobehav Rev 2000; 24(4): 417463. Google Scholar, Crossref, Medline, ISI
22. Casey, BJ, Jones, RM, Hare, TA. The adolescent brain. Ann NY Acad Sci 2008; 1124:111126. Google Scholar, Crossref, Medline, ISI
23. Chambers, RA, Potenza, MN. Neurodevelopment, impulsivity, and adolescent gambling. J Gambl Stud 2003; 19(1): 5384. Google Scholar, Crossref, Medline
24. Brown, SA, Tapert, SF, Granholm, E, Delis, DC. Neurocognitive functioning of adolescents: Effects of protracted alcohol use. Alcohol Clin Exp Res 2000; 24(2): 164171. Google Scholar, Crossref, Medline, ISI
25. Tapert, SF, Brown, SA. Substance dependence, family history of alcohol dependence and neuropsychological functioning in adolescence. Addiction 2000; 95(7): 10431053. Google Scholar, Crossref, Medline, ISI
26. Tarter, RE, Mezzich, AC, Hsieh, Y-C, Parks, SM. Cognitive capacity in female adolescent substance abusers. Drug Alcohol Depen 1995; 39:1521. Google Scholar, Crossref, Medline, ISI
27. Giancola, PR, Mezzich, AC, Tarter, RE. Executive cognitive functioning, temperament, and antisocial behavior in conduct disordered adolescent females. J Abnorm Psychol 1998; 107:629641. Google Scholar, Crossref, Medline, ISI
28. Giancola, PR, Shoal, GD, Mezzich, AC. Constructive thinking, executive functioning, antisocial behavior, and drug use involvement in adolescent females with a substance use disorder. Exp Clin Psychopharmacol 2001; 9(2): 215227. Google Scholar, Crossref, Medline, ISI
29. Moss, HB, Kirisci, L, Gordon, HW, Tarter, RE. A neuropsychologic profile of adolescent alcoholics. Alcohol Clin Exp Res 1994; 18:159163. Google Scholar, Crossref, Medline, ISI
30. Medina, KL, Hanson, K, Schweinsburg, AD, Cohen-Zion, M, Nagel, BJ, Tapert, SF. Neuropsychological functioning in adolescent marijuana users: Subtle deficits detectable after 30 days of abstinence. J Int Neuropsychol Soc 2007; 13(5): 207220. Google Scholar, Crossref, ISI
31. Tapert, SF, Brown, SA. Neuropsychological correlates of adolescent substance abuse: Four-year outcomes. J Int Neuropsychol Soc 1999; 5:481493. Google Scholar, Crossref, Medline, ISI
32. Nagel, BJ, Schweinsburg, AD, Phan, V, Tapert, SF. Reduced hippocampal volume among adolescents with alcohol use disorders without psychiatric comorbidity. Psychiatry Res 2005; 139:181190. Google Scholar, Crossref, Medline, ISI
33. De Bellis, MD, Clark, DB, Beers, SR. Hippocampal volume in adolescentonset alcohol use disorders. Am J Psychiatry 2000; 157(5): 737744. Google Scholar, Crossref, Medline, ISI
34. Medina, KL, Schweinsburg, AD, Cohen-Zion, M, Nagel, BJ, Tapert, SF. Effects of alcohol and combined marijuana and alcohol use during adolescence on hippocampal volume and asymmetry. Neurotoxicol Teratol 2007; 29:141152. Google Scholar, Crossref, Medline, ISI
35. Medina, KL, McQueeny, T, Nagel, BJ, Hanson, KL, Schweinsburg, AD, Tapert, SF. Prefrontal cortex volumes in adolescents with alcohol use disorders: Unique gender effects. Alcohol Clin Exp Res 2008; 32(3): 386394. Google Scholar, Crossref, Medline, ISI
36. DeBellis, MD, Narasimhan, A, Thatcher, DL, Keshavan, MS, Soloff, P, Clark, DB. Prefrontal cortex, thalamus, and cerebellar volumes in adolescents and young adults with adolescent-onset alcohol use disorders and comorbid mental disorders. Alcohol Clin Exp Res 2005; 29(9): 15901600. Google Scholar, Crossref, Medline
37. Medina, KL, Nagel, BJ, Park, A, McQueeny, T, Tapert, SF. Depressive symptoms in adolescents: Associations with white matter volume and marijuana use. J Child Psychol Psychiatry 2007; 48(6): 592600. Google Scholar, Crossref, Medline, ISI
38. Hamilton, M . The Hamilton Rating Scale for Depression. New York: Springer-Verlag; 1996. Google Scholar
39. Beck, AT, Ward, C, Mendelson, M. Beck Depression Inventory (BDI). Arch Gen Psychiatry 1961; 4:561571. Google Scholar, Crossref, Medline
40. Pfefferbaum, A, Sullivan, EV, Hedehus, M, Adalsteinsson, E, Lim, KO, Moseley, M. In vivo detection and functional correlates of white matter microstructural disruption in chronic alcoholism. Alcohol Clin Exp Res 2000; 24(8): 12141221. Google Scholar, Crossref, Medline, ISI
41. Pfefferbaum, A, Adalsteinsson, E, Sullivan, EV. Supratentorial profile of white matter microstructural integrity in recovering alcoholic men and women. Biol Psychiatry 2006; 59(4): 364372. Google Scholar, Crossref, Medline, ISI
42. Kril, JJ, Halliday, GM, Svoboda, MD, Cartwright, H. The cerebral cortex is damaged in chronic alcoholics. Neuroscience 1997; 79(4): 983998. Google Scholar, Crossref, Medline, ISI
43. Le Bihan, D . Looking into the functional architecture of the brain with diffusion MRI. Nat Rev Neurosci 2003; 4(6): 469480. Google Scholar, Crossref, Medline, ISI
44. Jacobus, J, McQueeny, T, Bava, S, Schweinsburg, BC, Tapert, SF. White matter integrity and neurocognition in adolescents with histories of binge drinking and marijuana use. Paper presented at: The Research Society on Alcoholism Scientific Conference, 2008; Washington, DC. Google Scholar
45. Frank, LR . Anisotropy in high angular resolution diffusion-weighted MRI. Magn Reson Med 2001; 45(6): 935939. Google Scholar, Crossref, Medline, ISI
46. Smith, SM, Jenkinson, M, Johansen-Berg, H. Tract-based spatial statistics: Voxelwise analysis of multi-subject diffusion data. Neuroimage 2006; 31(4): 14871505. Google Scholar, Crossref, Medline, ISI
47. Tapert, SF, Theilmann, RJ, Schweinsburg, AD. Reduced fractional anisotropy in the splenium of adolescents with alcohol use disorder. Magn Reson Med 2003; 11:8217. Google Scholar
48. Suzuki, Y, Oishi, M, Mizutani, T, Sato, Y. Regional cerebral blood flow measured by the resting and vascular reserve (RVR) method in chronic alcoholics. Alcohol Clin Exp Res 2002; 26(8): 95S99S. Google Scholar, Crossref, Medline, ISI
49. Clark, CP, Brown, GG, Eyler, LT, Drummond, SP, Braun, DR, Tapert, SF. Decreased perfusion in young alcohol-dependent women as compared with age-matched controls. Am J Drug Alcohol Abuse 2007; 33(1): 1319. Google Scholar, Crossref, Medline, ISI
50. Ogawa, S, Lee, TM, Kay, AR, Tank, DW. Brain magnetic resonance imaging with contrast dependent on blood oxygenation. Proc Natl Acad Sci USA 1990; 87(24): 98689872. Google Scholar, Crossref, Medline, ISI
51. Buckner, RL, Logan, JM. Functional neuroimaging methods: PET and fMRI. In: Cabeza, R, Kingstone, A, (eds). Handbook of Functional Neuroimaging of Cognition. Cambridge: MIT Press; 2001. Google Scholar
52. Tapert, SF, Schweinsburg, AD, Barlett, VC. Blood oxygen level dependent response and spatial working memory in adolescents with alcohol use disorders. Alcohol Clin Exp Res 2004; 28(10): 15771586. Google Scholar, Crossref, Medline, ISI
53. Tapert, SF, Brown, GG, Kindermann, SS, Cheung, EH, Frank, LR, Brown, SA. fMRI measurement of brain dysfunction in alcohol-dependent young women. Alcohol Clin Exp Res 2001; 25(2): 236245. Google Scholar, Crossref, Medline, ISI
54. Schweinsburg, AD, Nagel, BJ, Schweinsburg, BC, Park, A, Theilmann, RJ, Tapert, SF. Abstinent adolescent marijuana users show altered fMRI response during spatial working memory. Psychiatry Res 2008; 163:4051. Google Scholar, Crossref, Medline, ISI
55. Schweinsburg, A, McQueeny, T, Brown, S, Tapert, S. Adolescent binge drinkers show altered fMRI response during verbal encoding. Paper presented at the Second International Conference on Applications of Neuroimaging to Alcoholism, 2008; New Haven, CT. Google Scholar
56. McQueeny, T, Schweinsburg, AD, Tapert, SF. Response inhibition in adolescent binge drinkers: an FMRI study. Paper presented at the Second International Conference on Applications of Neuroimaging to Alcoholism, 2008; New Haven, CT. Google Scholar
57. Anderson, KG, Schweinsburg, AD, Paulus, MP, Brown, SA, Tapert, SF. Examining personality and alcohol expectancies using fMRI with adolescents. J Stud Alcohol 2005; 66(3): 323331. Google Scholar, Crossref, Medline, ISI
58. Schweinsburg, AD, Paulus, MP, Barlett, VC. An fMRI study of response inhibition in youths with a family history of alcoholism. Ann NY Acad Sci 2004; 1021(1): 391394. Google Scholar, Crossref, Medline, ISI
59. Tapert, SF, Schweinsburg, AD, Drummond, SPA. Functional MRI of inhibitory processing in abstinent adolescent marijuana users. Psychopharmacology 2007; 194(2): 173183. Google Scholar, Crossref, Medline, ISI
60. Snyder, LB, Milici, FF, Slater, M, Sun, H, Strizhakova, Y. Effects of alcohol advertising exposure on drinking among youth. Arch Pediatr Adolesc Med 2006; 160:1824. Google Scholar, Crossref, Medline
61. Tapert, SF, Cheung, EH, Brown, GG. Neural response to alcohol stimuli in adolescents with alcohol use disorder. Arch Gen Psychiatry 2003; 60(7): 727735. Google Scholar, Crossref, Medline
62. Pulido, C, Mok, A, Brown, SA, Tapert, SF. Heavy drinking relates to positive valence ratings of alcohol cues. Addict Biol. In press. Google Scholar, ISI
63. Paulus, MP, Tapert, SF, Schuckit, MA. Neural activation patterns of methamphetamine-dependent subjects during decision making predict relapse. Arch Gen Psychiatry 2005; 62:761768. Google Scholar, Crossref, Medline
64. Paulus, MP . Decision-making dysfunctions in psychiatry-altered homeostatic processing? Science 2007; 318(5850): 602606. Google Scholar, Crossref, Medline, ISI
65. Hansen, HJ, Caudill, SP, Boone, DJ. Crisis in drug testing: Results of CDC blind study. JAMA 1985; 253(16): 23822387. Google Scholar, Crossref, Medline, ISI
66. Yacoubian, GS . Reassessing the need for urinalysis as a validation technique. J Drug Issues 2000; 30(2): 323334. Google Scholar, SAGE Journals, ISI
67. Huestis, MA, Cone, EJ. Differentiating new marijuana use from residual drug excretion in occasional marijuana users. J Anal Toxicol 1998; 6:445454. Google Scholar, Crossref, ISI
68. Twitchell, G, Hertzog, C, Klein, J, Schuckit, M. The anatomy of a follow-up. Addiction 1992; 87(9): 13271333. Google Scholar, Crossref, ISI
69. Clare, Kelly AM, Garavan, H. Human functional neuroimaging of brain changes associated with practice. Cereb Cortex 2005; 15(8): 10891102. Google Scholar, Medline, ISI
70. Cusack, R, Brett, M, Osswald, K. An evaluation of the use of magnetic field maps to undistort echo-planar images. Neurolmage 2003; 18:127142. Google Scholar, Crossref, Medline, ISI
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