Abstract
Adolescence is an exquisitely sensitive period of development during which pathways branch toward success in school and prosocial pursuits or, conversely, toward behavior problems and involvement in high-risk activities and systems, such as juvenile justice (JJ). Adverse childhood experiences (ACEs) such as poverty, family dysfunction, and child maltreatment, have been strongly and repeatedly associated with JJ involvement. A significant body of research from neuroscience has established that ACEs can alter facets of neurodevelopment that undergird self-regulation throughout childhood and adolescence, thereby increasing susceptibility to behaviors that attract attention of the JJ system. Because the ability to intervene prior to system-entrenchment is crucial to disrupting an adverse developmental pathway, we look toward neuroscience to offer insights into how to do so more effectively. In this chapter, evidence is summarized that informs an understanding of how neurodevelopmental pathways may lead to JJ involvement. Because neurodevelopment is malleable in response to both detrimental and positive experiences, there is potential for well-targeted interventions to normalize brain and cognitive development, especially during sensitive periods of maturation. This discussion is followed by a proposed research agenda to determine how to exploit these critical windows of opportunity to divert youth from persistent antisocial behavior and JJ involvement. Lastly, a review of neuroscience findings regarding the ability of intervention to strengthen brain systems that modulate self-regulation is presented. This research has direct practical significance with potential to be translated into meaningful policy change.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Abram KM, Teplin LA, Charles DR, Longworth SL, McClelland GM, Dulcan MK (2004) Posttraumatic stress disorder and trauma in youth in juvenile detention. Arch Gen Psychiatry 61(4):403–410
Abram KM, Choe JY, Washburn JJ, Romero EG, Teplin LA (2009) Functional impairment in youth three years after detention. J Adolesc Health 44(6):528–535
Andersen SL (2016) Commentary on the special issue on the adolescent brain: adolescence, trajectories, and the importance of prevention. Neurosci Biobehav Rev 70:329–333
Andersen SL, Teicher MH (2009) Desperately driven and no brakes: developmental stress exposure and subsequent risk for substance abuse. Neurosci Biobehav Rev 33(4):516–524
Andersen SL, Tomada A, Vincow ES, Valente E, Polcari A, Teicher MH (2008) Preliminary evidence for sensitive periods in the effect of childhood sexual abuse on regional brain development. J Neuropsychiatry Clin Neurosci 20(3):292–301
Berens AE, Jensen SK, Nelson CA (2017) Biological embedding of childhood adversity: from physiological mechanisms to clinical implications. BMC Med 15(1):1–12
Biglan A, Embry DD (2013) A framework for intentional cultural change. J Contextual Behav Sci 2(3–4):95–104
Blair RJR, Leibenluft E, Pine DS (2014) Conduct disorder and callous–unemotional traits in youth. N Engl J Med 371(23):2207–2216
Boparai SKP, Au V, Koita K, Oh DL, Briner S, Harris NB, Bucci M (2018) Ameliorating the biological impacts of childhood adversity: a review of intervention programs. Child Abuse Negl 81:82–105
Boyce WT, Levitt P, Martinez FD, McEwen BS, Shonkoff JP (2021) Genes, environments, and time: the biology of adversity and resilience. Pediatrics 147(2):e20201651
Bradshaw CP, Goldweber A, Fishbein D, Greenberg MT (2012) Infusing developmental neuroscience into school-based preventive interventions: implications and future directions. J Adolesc Health 51(2):S41–S47
Brody GH, Gray JC, Yu T, Barton AW, Beach SR, Galván A, MacKillop J, Windle M, Chen E, Miller GE, Sweet LH (2017) Protective prevention effects on the association of poverty with brain development. JAMA Pediatr 171(1):46–52
Burchinal MR, Roberts JE, Zeisel SA, Rowley SJ (2008) Social risk and protective factors for African American children’s academic achievement and adjustment during the transition to middle school. Dev Psychol 44(1):286–292
Caldwell BM, Anderson NE, Harenski KA, Sitney MH, Caldwell MF, Van Rybroek GJ, Kiehl KA (2019) The structural brain correlates of callous-unemotional traits in incarcerated male adolescents. NeuroImage Clin 22:101703
Carter A (2019) The consequences of adolescent delinquent behavior for adult employment outcomes. J Youth Adolesc 48(1):17–29
Casey BJ, Jones RM (2010) Neurobiology of the adolescent brain and behavior: implications for substance use disorders. J Am Acad Child Adolesc Psychiatry 49(12):1189–1201
Casey BJ, Getz S, Galvan A (2008) The adolescent brain. Dev Rev 28(1):62–77
Colich NL, Rosen ML, Williams ES, McLaughlin KA (2020) Biological aging in childhood and adolescence following experiences of threat and deprivation: a systematic review and meta-analysis. Psychol Bull 146(9):721
Craig SG, Goulter N, Moretti MM (2021) A systematic review of primary and secondary callous-unemotional traits and psychopathy variants in youth. Clin Child Fam Psychol Rev 24(1):65–91
De Bellis MD, Spratt EG, Hooper SR (2011) Neurodevelopmental biology associated with childhood sexual abuse. J Child Sex Abus 20(5):548–587
Deas D, Brown ES (2006) Adolescent substance abuse and psychiatric comorbidities. J Clin Psychiatry 67:18
Deighton S, Neville A, Pusch D, Dobson K (2018) Biomarkers of adverse childhood experiences: a scoping review. Psychiatry Res 269:719–732
DePasquale CE, Donzella B, Gunnar MR (2019) Pubertal recalibration of cortisol reactivity following early life stress: a cross-sectional analysis. J Child Psychol Psychiatry 60(5):566–575
Dierkhising CB, Ko SJ, Woods-Jaeger B, Briggs EC, Lee R, Pynoos RS (2013) Trauma histories among justice-involved youth: findings from the National Child Traumatic Stress Network. Eur J Psychotraumatol 4(1):20274
Dishion TJ, Tipsord JM (2011) Peer contagion in child and adolescent social and emotional development. Annu Rev Psychol 62:189–214
Drevets WC, Price JL, Furey ML (2008) Brain structural and functional abnormalities in mood disorders: implications for neurocircuitry models of depression. Brain Struct Funct 213(1–2):93–118
Fishbein DH, Ridenour T, Stahl M, Sussman S (2016) The full translational spectrum of prevention science: facilitating the transfer of knowledge to practices and policies that prevent behavioral health problems. Transl Behav Med 6(1):5–16
Fisher PA (2016) Translational neuroscience as a tool for intervention development in the context of high-adversity families. New Dir Child Adolesc Dev 2016(153):111–125
Flannery JE, Gabard-Durnam LJ, Shapiro M, Goff B, Caldera C, Louie J, Gee DG, Telzer EH, Humphreys KL, Lumian DS, Tottenham N (2017) Diurnal cortisol after early institutional care – age matters. Dev Cogn Neurosci 25:160–166
Frick PJ, Moffitt TE (2010) A proposal to the DSM-V childhood disorders and the ADHD and disruptive behavior disorders work groups to include a specifier to the diagnosis of conduct disorder based on the presence of callous-unemotional traits. American Psychiatric Association, Washington, pp 1–36
Frick PJ, Stickle TR, Dandreaux DM, Farrell JM, Kimonis ER (2005) Callous–unemotional traits in predicting the severity and stability of conduct problems and delinquency. J Abnorm Child Psychol 33(4):471–487
Fuhrmann D, Knoll LJ, Blakemore SJ (2015) Adolescence as a sensitive period of brain development. Trends Cogn Sci 19(10):558–566
Garcia AR, Gupta M, Greeson JK, Thompson A, DeNard C (2017) Adverse childhood experiences among youth reported to child welfare: results from the national survey of child & adolescent wellbeing. Child Abuse Negl 70:292–302
Gee DG, Gabard-Durnam LJ, Flannery J, Goff B, Humphreys KL, Telzer EH, Hare TA, Bookheimer SY, Tottenham N (2013) Early developmental emergence of human amygdala–prefrontal connectivity after maternal deprivation. Proc Natl Acad Sci 110(39):15638–15643
Geier CF, Terwilliger R, Teslovich T, Velanova K, Luna B (2010) Immaturities in reward processing and its influence on inhibitory control in adolescence. Cereb Cortex 20(7):1613–1629
Giedd JN (2008) The teen brain: insights from neuroimaging. J Adolesc Health 42(4):335–343
Glaser D (2000) Child abuse and neglect and the brain – a review. J Child Psychol Psychiatry 41(01):97–116
Glenn AL, Yang Y (2012) The potential role of the striatum in antisocial behavior and psychopathy. Biol Psychiatry 72(10):817–822
Gunnar MR, DePasquale CE, Reid BM, Donzella B, Miller BS (2019) Pubertal stress recalibration reverses the effects of early life stress in postinstitutionalized children. Proc Natl Acad Sci 116(48):23984–23988
Herrera VM, McCloskey LA (2003) Sexual abuse, family violence, and female delinquency: findings from a longitudinal study. Violence Vict 18(3):319–334
Herz DC, Ryan JP (2008) Exploring the characteristics and outcomes of 241.1 youth crossing over from dependency to delinquency in Los Angeles County. California Courts, The Administrative Office of the Courts
Herz DC, Ryan JP, Bilchik S (2010) Challenges facing crossover youth: an examination of juvenile-justice decision making and recidivism. Fam Court Rev 48(2):305–321
Hyde LW, Gard AM, Tomlinson RC, Burt SA, Mitchell C, Monk CS (2020) An ecological approach to understanding the developing brain: examples linking poverty, parenting, neighborhoods, and the brain. Am Psychol 75(9):1245–1259
Ireland TO, Smith CA, Thornberry TP (2002) Developmental issues in the impact of child maltreatment on later delinquency and drug use. Criminology 40(2):359–400
Johnson MM, Mikolajewski A, Shirtcliff EA, Eckel LA, Taylor J (2015) The association between affective psychopathic traits, time incarcerated, and cortisol response to psychosocial stress. Horm Behav 72:20–27
Johnson SB, Riis JL, Noble KG (2016) State of the art review: poverty and the developing brain. Pediatrics 137(4):e20153075
Kerig PK, Becker SP, Egan S (2010) From internalizing to externalizing: theoretical models of the processes linking PTSD to juvenile delinquency. Posttraumatic Stress Disord Causes Symptoms Treat 33:78
Kharitonova M, Munakata Y (2011) The role of representations in executive function: investigating a developmental link between flexibility and abstraction. Front Psychol 2:347
Kim HK, Bhimji J, Fisher PA (2015) Plasticity of decision-making abilities among maltreated adolescents: evidence from a random controlled trial. Dev Psychopathol 27(2):535
Kim J, Kim R, Oh H, Lippert AM, Subramanian SV (2020) Estimating the influence of adolescent delinquent behavior on adult health using sibling fixed effects. Soc Sci Med 265:113397
Lansing AE, Virk A, Notestine R, Plante WY, Fennema-Notestine C (2016) Cumulative trauma, adversity and grief symptoms associated with fronto-temporal regions in life-course persistent delinquent boys. Psychiatry Res Neuroimaging 254:92–102
Larsen B, Luna B (2018) Adolescence as a neurobiological critical period for the development of higher-order cognition. Neurosci Biobehav Rev 94:179–195
Leibowitz GS (2014) Neurodevelopmental approaches to understanding and working with adolescents in the juvenile justice system. In: Matto HC, Strolin-Goltzman J, Ballan MS (eds) Neuroscience for social work: current research and practice. Springer, New York, pp 335–354
Lin B, Kidwell MC, Kerig PK, Crowell SE, Fortuna AJ (2021) Profiles of autonomic stress responsivity in a sample of justice-involved youth: associations with childhood trauma exposure and emotional and behavioral functioning. Dev Psychobiol 63(2):206–225
Ling S, Raine A, Waller RE, Ruparel K, Loughead J, Gur RC (2020) Divergent amygdala volume asymmetries for male and female youth with high versus low callous-unemotional traits. Crime Delinq 66(10):1419–1437
Loeber R, Farrington DP (2011) Young homicide offenders and victims: risk factors, prediction, and prevention from childhood. Springer, New York
Luby JL, Baram TZ, Rogers CE, Barch DM (2020) Neurodevelopmental optimization after early-life adversity: cross-species studies to elucidate sensitive periods and brain mechanisms to inform early intervention. Trends Neurosci 43(10):744–751
Marek S, Hwang K, Foran W, Hallquist MN, Luna B (2015) The contribution of network organization and integration to the development of cognitive control. PLoS Biol 13(12):e1002328
Marsh AA, Finger EC, Mitchell DG, Reid ME, Sims C, Kosson DS, Towbin KE, Leibenluft E, Pine DS, Blair RJ (2008) Reduced amygdala response to fearful expressions in children and adolescents with callous-unemotional traits and disruptive behavior disorders. Am J Psychiatr 165(6):712–720
McEwen BS (2009) The brain is the central organ of stress and adaptation. NeuroImage 47(3):911
McEwen BS, Morrison JH (2013) The brain on stress: vulnerability and plasticity of the prefrontal cortex over the life course. Neuron 79(1):16–29
McLaughlin KA, Sheridan MA, Lambert HK (2014) Childhood adversity and neural development: deprivation and threat as distinct dimensions of early experience. Neurosci Biobehav Rev 47:578–591
McLaughlin KA, Weissman D, Bitrán D (2019) Childhood adversity and neural development: a systematic review. Annu Rev Dev Psychol 1:277–312
Moffitt TE (2006) Life-course-persistent versus adolescence-limited antisocial behavior. In: Cicchetti D, Cohen DJ (eds) Developmental psychopathology: risk, disorder, and adaptation. Wiley, pp 570–598
Moffitt TE, Caspi A, Dickson N, Silva P, Stanton W (1996) Childhood-onset versus adolescent-onset antisocial conduct problems in males: natural history from ages 3 to 18 years. Dev Psychopathol 8(2):399–424
Moffitt TE, Arseneault L, Jaffee SR, Kim-Cohen J, Koenen KC, Odgers CL, Slutske WS, Viding E (2008) Research review: DSM-V conduct disorder: research needs for an evidence base. J Child Psychol Psychiatry 49(1):3–33
Nelson CA III, Zeanah CH, Fox NA (2019) How early experience shapes human development: the case of psychosocial deprivation. Neural Plast 2019:1676285
Padmanabhan A, Geier CF, Ordaz SJ, Teslovich T, Luna B (2011) Developmental changes in brain function underlying the influence of reward processing on inhibitory control. Dev Cogn Neurosci 1(4):517–529
Pardini D (2016) Empirically based strategies for preventing juvenile delinquency. Child Adolesc Psychiatr Clin 25(2):257–268
Pardini DA, Frick PJ, Moffitt TE (2010) Building an evidence base for DSM–5 conceptualizations of oppositional defiant disorder and conduct disorder: introduction to the special section. J Abnorm Psychol 119(4):683
Perry BD (2009) Examining child maltreatment through a neurodevelopmental lens: clinical applications of the neurosequential model of therapeutics. J Loss Trauma 14(4):240–255
Pitman RK, Rasmusson AM, Koenen KC, Shin LM, Orr SP, Gilbertson MW, Milad MR, Liberzon I (2012) Biological studies of post-traumatic stress disorder. Nat Rev Neurosci 13(11):769–787
Puzzanchera C (2020) The decline in arrests of juveniles continued through 2019. U.S. Department of Justice, Office of Juvenile Justice and Delinquency Prevention, Washington, DC. Retrieved from https://www.ojjdp.gov/ojstatbb/snapshots/DataSnapshot_UCR2019.pdf
Quevedo K, Johnson AE, Loman ML, LaFavor TL, Gunnar M (2012) The confluence of adverse early experience and puberty on the cortisol awakening response. Int J Behav Dev 36(1):19–28
Reiss F (2013) Socioeconomic inequalities and mental health problems in children and adolescents: a systematic review. Soc Sci Med 90:24–31
Ryan JP, Williams AB, Courtney ME (2013) Adolescent neglect, juvenile delinquency and the risk of recidivism. J Youth Adolesc 42(3):454–465
Scheepers FE, Buitelaar JK, Matthys W (2011) Conduct disorder and the specifier callous and unemotional traits in the DSM-5. Eur Child Adolesc Psychiatry 20(2):89–93
Sheridan MA, Shi F, Miller AB, Sahali C, McLaughlin KA (2020) Network structure reveals clusters of associations between childhood adversities and development outcomes. Dev Sci 23(5):e12934
Smith AR, Chein J, Steinberg L (2013) Impact of socio-emotional context, brain development, and pubertal maturation on adolescent risk-taking. Horm Behav 64(2):323–332
Somerville LH, Casey BJ (2010) Developmental neurobiology of cognitive control and motivational systems. Curr Opin Neurobiol 20(2):236–241
Somerville LH, Jones RM, Casey BJ (2010) A time of change: behavioral and neural correlates of adolescent sensitivity to appetitive and aversive environmental cues. Brain Cogn 72(1):124–133
Stanis JJ, Andersen SL (2014) Reducing substance use during adolescence: a translational framework for prevention. Psychopharmacology 231(8):1437–1453
Steinberg L (2010) A dual systems model of adolescent risk-taking. Dev Psychobiol 52(3):216–224
Steinberg L, Graham S, O’Brien L, Woolard J, Cauffman E, Banich M (2009) Age differences in future orientation and delay discounting. Child Dev 80(1):28–44
Sterrett EM, Dymnicki AB, Henry D, Byck GR, Bolland J, Mustanski B (2014) Predictors of co-occurring risk behavior trajectories among economically disadvantaged African-American youth: contextual and individual factors. J Adolesc Health 55(3):380–387
Stuss DT (2011) The future of cognitive neurorehabilitation. Neuropsychol Rehabil 21(5):755–768
Teicher MH, Samson JA (2016) Annual research review: enduring neurobiological effects of childhood abuse and neglect. J Child Psychol Psychiatry 57(3):241–266
Teicher MH, Andersen SL, Polcari A, Anderson CM, Navalta CP, Kim DM (2003) The neurobiological consequences of early stress and childhood maltreatment. Neurosci Biobehav Rev 27(1–2):33–44
Teicher MH, Samson JA, Anderson CM, Ohashi K (2016) The effects of childhood maltreatment on brain structure, function and connectivity. Nat Rev Neurosci 17(10):652
Tottenham N, Hare TA, Millner A, Gilhooly T, Zevin JD, Casey BJ (2011) Elevated amygdala response to faces following early deprivation. Dev Sci 14(2):190–204
Tracy JI, Osipowicz KZ (2011) A conceptual framework for interpreting neuroimaging studies of brain neuroplasticity and cognitive recovery. NeuroRehabilitation 29(4):331–338
Umbach R, Berryessa CM, Raine A (2015) Brain imaging research on psychopathy: implications for punishment, prediction, and treatment in youth and adults. J Crim Just 43(4):295–306
United Nations (2020) World social report 2020: inequality in a rapidly changing world. Department of Economic and Social Affairs, United Nations Publication, Vienna
Venkatakrishnan A, Sandrini M (2012) Combining transcranial direct current stimulation and neuroimaging: novel insights in understanding neuroplasticity. J Neurophysiol 107(1):1–4
Waller R, Trentacosta CJ, Shaw DS, Neiderhiser JM, Ganiban JM, Reiss D, Leve LD, Hyde LW (2016) Heritable temperament pathways to early callous–unemotional behaviour. Br J Psychiatry 209(6):475–482
Waller R, Hawes SW, Byrd AL, Dick AS, Sutherland MT, Riedel MC, Tobia MJ, Bottenhorn KL, Laird AR, Gonzalez R (2020) Disruptive behavior problems, callous-unemotional traits, and regional gray matter volume in the adolescent brain and cognitive development study. Biol Psychiatr Cogn Neurosci Neuroimaging 5(5):481–489
Yang Y, Raine A (2018) The neuroanatomical bases of psychopathy: a review of brain imaging findings. In: Patrick CJ (ed) Handbook of psychopathy. The Guilford Press, pp 380–400
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2021 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this chapter
Cite this chapter
Chaplo, S., Fishbein, D. (2021). Capitalizing on Neuroplasticity Across Development to Redirect Pathways from Juvenile Justice Involvement. In: Andersen, S.L. (eds) Sensitive Periods of Brain Development and Preventive Interventions. Current Topics in Behavioral Neurosciences, vol 53. Springer, Cham. https://doi.org/10.1007/7854_2021_251
Download citation
DOI: https://doi.org/10.1007/7854_2021_251
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-031-04472-4
Online ISBN: 978-3-031-04473-1
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)