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11a - Traumatic brain injury in childhood

from Section II - Disorders

Published online by Cambridge University Press:  07 May 2010

By
Michael W. Kirkwood ,
Keith Owen Yeates  and
Jane Holmes Bernstein
Edited by
Jacobus Donders  and
Scott J. Hunter
Jacobus Donders
Affiliation:
Mary Free Bed Rehabilitation Hospital
Scott J. Hunter
Affiliation:
University of Chicago
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Summary

Introduction

Traumatic brain injury (TBI) is one of the leading causes of morbidity and mortality in youth worldwide. Though much remains to be learned, research focused on pediatric TBI has flourished in the last two decades. The current chapter will emphasize recent scientific literature relevant to understanding the consequences of moderate to severe TBI and the role of neuropsychological assessment in particular in characterizing and managing these difficulties. Epidemiological, pathophysiological, and intervention data will be highlighted as well. Outcomes and clinical care after uncomplicated mild TBI in children can be expected to differ from more severe injury; comprehensive reviews of this literature are available elsewhere [1, 2].

Epidemiology

In the USA, more than one million children and adolescents sustain TBI each year. Among children aged 0 to 14 years, TBI accounts for approximately 2700 annual deaths, 37,000 hospitalizations, and 435,000 emergency department visits [3]. Not surprisingly given such frequency, the associated financial costs are considerable. Annual hospitalization charges alone exceed $1 billion [4]. Rates and costs of all childhood TBI are undoubtedly much larger, as many milder injuries go unreported entirely or are treated in outpatient settings and remain unaccounted for in hospital-based estimates.

The incidence of TBI varies by severity, with mild TBI comprising 80 to 90% of all treated cases. Throughout childhood, boys are at considerably greater risk for TBI than girls.

Type
Chapter
Information
Principles and Practice of Lifespan Developmental Neuropsychology , pp. 299 - 314
Publisher: Cambridge University Press
Print publication year: 2010

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References

Carroll, LJ, Cassidy, JD, Peloso, PM, Borg, J, Holst, H, Holm, L, et al. Prognosis for mild traumatic brain injury: results of the WHO collaborating centre task force on mild traumatic brain injury. J Rehabil Med 2004;43 (Suppl):84–105.CrossRefGoogle Scholar
Kirkwood, MW, Yeates, KO, Taylor, HG, Randolph, C, McCrea, M, Anderson, V. Management of pediatric mild traumatic brain injury: a neuropsychological review from injury through recovery. Clin Neuropsychol 2007;22:769–800.CrossRefGoogle ScholarPubMed
Langlois, JA, Rutland-Brown, W, Thomas, KE. Traumatic brain injury in the United States: Emergency department visits, hospitalizations, and deaths. Atlanta: Centers for Disease Control and Prevention, National Center for Injury Prevention and Control; 2006.Google Scholar
Schneier, AJ, Shields, BJ, Hostetler, SG, Xiang, H, Smith, G. Incidence of pediatric traumatic brain injury and associated hospital resource utilization in the United States. Pediatrics 2006;118(2):483–92.CrossRefGoogle ScholarPubMed
Keenan, HT, Bratton, SL. Epidemiology and outcomes of pediatric traumatic brain injury. Dev Neurosci 2006;28(4–5):256–63.CrossRefGoogle ScholarPubMed
Langlois, JA, Rutland-Brown, W, Thomas, KE. The incidence of traumatic brain injury among children in the United States: differences by race. J Head Trauma Rehabil 2005;20(3):229–38.CrossRefGoogle Scholar
Kraus, JF. Epidemiological features of brain injury in children: occurrence, children at risk, causes, and manner of injury, severity, and outcomes. In: Broman, SH, Michel, ME, eds. Traumatic Head Injury in Children. New York: Oxford University Press; 1995: 22–39.Google Scholar
Giza, CC, Mink, RB, Madikians, A. Pediatric traumatic brain injury: not just little adults. Curr Opin Crit Care 2007;13(2):143–52.CrossRefGoogle ScholarPubMed
Kochanek, PMPediatric traumatic brain injury: quo vadis?Dev Neurosci 2006;28(4–5):244–55.CrossRefGoogle ScholarPubMed
Anderson, VA, Catroppa, C, Haritou, F, Morse, S, Rosenfeld, JV. Identifying factors contributing to child and family outcome 30 months after traumatic brain injury in children. J Neurol Neurosurg Psychiatry 2005;76(3):401–8.CrossRefGoogle ScholarPubMed
Ewing-Cobbs, L, Prasad, MR, Kramer, L, Cox, CS, Baumgartner, J, Fletcher, S, et al. Late intellectual and academic outcomes following traumatic brain injury sustained during early childhood. J Neurosurg 2006;105(4 Suppl):287–96.Google ScholarPubMed
Tremont, G, Mittenberg, W, Miller, L. Acute intellectual effects of pediatric head trauma. Child Neuropsychol 1999;5:104–14.Google Scholar
Donders, J, Janke, K. Criterion validity of the Wechsler Intelligence Scale for Children-Fourth Edition after pediatric traumatic brain injury. J Int Neuropsychol Soc 2008;14(4):651–5.CrossRefGoogle ScholarPubMed
Ewing-Cobbs, L, Barnes, M. Linguistic outcomes following traumatic brain injury in children. Semin Pediatr Neurol 2002;9(3):209–17.CrossRefGoogle ScholarPubMed
Lehnung, M, Leplow, B, Herzog, A, Benz, B, Ritz, A, Stolze, H, et al. Children's spatial behavior is differentially affected after traumatic brain injury. Child Neuropsychol 2001;7(2):59–71.CrossRefGoogle ScholarPubMed
Yeates, KO, Taylor, HG, Wade, SL, Drotar, D, Stancin, T, Minich, N. A prospective study of short- and long-term neuropsychological outcomes after traumatic brain injury in children. Neuropsychology 2002;16(4):514–23.CrossRefGoogle Scholar
Catroppa, C, Anderson, V. Recovery in memory function, and its relationship to academic success, at 24 months following pediatric TBI. Child Neuropsychol 2007;13(3):240–61.CrossRefGoogle ScholarPubMed
Ward, H, Shum, D, McKinlay, L, Baker, S, Wallace, G. Prospective memory and pediatric traumatic brain injury: effects of cognitive demand. Child Neuropsychol 2007;13(3):219–39.CrossRefGoogle ScholarPubMed
Catroppa, C, Anderson, VA, Morse, SA, Haritou, F, Rosenfeld, JV. Children's attentional skills 5 years post-TBI. J Pediatr Psychol 2007;32(3):354–69.CrossRefGoogle ScholarPubMed
Mandalis, A, Kinsella, G, Ong, B, Anderson, V. Working memory and new learning following pediatric traumatic brain injury. Dev Neuropsychol 2007;32(2):683–701.CrossRefGoogle ScholarPubMed
Anderson, V, Catroppa, C, Morse, S, Haritou, F, Rosenfeld, J. Attentional and processing skills following traumatic brain injury in early childhood. Brain Inj 2005;19(9):699–710.CrossRefGoogle ScholarPubMed
Ganesalingam, K, Sanson, A, Anderson, V, Yeates, KO. Self-regulation and social and behavioral functioning following childhood traumatic brain injury. J Int Neuropsychol Soc 2006;12(5):609–21.CrossRefGoogle ScholarPubMed
Levin, HS, Song, J, Ewing-Cobbs, L, Roberson, G. Porteus Maze performance following traumatic brain injury in children. Neuropsychology 2001;15(4):557–67.CrossRefGoogle ScholarPubMed
Mangeot, S, Armstrong, K, Colvin, A, Yeates, K, Taylor, H. Long-term executive function deficits in children with traumatic brain injuries: assessment using the Behavior Rating Inventory of Executive Function (BRIEF). Child Neuropsychol 2002;8(4):271–84.CrossRefGoogle Scholar
Taylor, HG, Yeates, KO, Wade, SL, Drotar, D, Stancin, T, Minich, N. A prospective study of short- and long-term outcomes after traumatic brain injury in children: behavior and achievement. Neuropsychology 2002;16(1):15–27.CrossRefGoogle Scholar
Yeates, KO, Bigler, ED, Dennis, M, Gerhardt, C, Rubin, K, Stancin, T, et al. Social outcomes in childhood brain disorder: a heuristic integration of social neuroscience and developmental psychology. Psychol Bull 2007;133(3):535–56.CrossRefGoogle ScholarPubMed
Yeates, KO, Swift, E, Taylor, HG, Wade, SL, Drotar, D, Stancin, T, et al. Short- and long-term social outcomes following pediatric traumatic brain injury. J Int Neuropsychol Soc 2004;10(3):412–26.CrossRefGoogle Scholar
Schwartz, L, Taylor, HG, Drotar, D, Yeates, KO, Wade, SL, Stancin, T. Long-term behavior problems following pediatric traumatic brain injury: prevalence, predictors, and correlates. J Pediatr Psychol 2003;28(4):251–63.CrossRefGoogle ScholarPubMed
Max, JE, Koele, SL, Castillo, CC, Lindgren, SD, Arndt, S, Bokura, H, et al. Personality change disorder in children and adolescents following traumatic brain injury. J Int Neuropsychol Soc 2000;6(3):279–89.CrossRefGoogle ScholarPubMed
Yeates, KO, Armstrong, K, Janusz, J, Taylor, HG, Wade, S, Stancin, T, et al. Long-term attention problems in children with traumatic brain injury. J Am Acad Child Adolesc Psychiatry 2005;44(6):574–84.CrossRefGoogle ScholarPubMed
Levin, H, Hanten, G, Max, J, Li, X, Swank, P, Ewing-Cobbs, L, et al. Symptoms of attention-deficit/hyperactivity disorder following traumatic brain injury in children. J Dev Behav Pediatr 2007;28(2):108–18.CrossRefGoogle ScholarPubMed
Max, JE, Castillo, CS, Bokura, H, Robin, DA, Lindgren, SD, Smith, WL, Jr., et al. Oppositional defiant disorder symptomatology after traumatic brain injury: a prospective study. J Nerv Ment Dis 1998;186(6):325–32.CrossRefGoogle ScholarPubMed
Luis, CA, Mittenberg, W. Mood and anxiety disorders following pediatric traumatic brain injury: a prospective study. J Clin Exp Neuropsychol 2002;24(3):270–9.CrossRefGoogle ScholarPubMed
Vasa, RA, Gerring, JP, Grados, M, Slomine, B, Christensen, JR, Rising, W, et al. Anxiety after severe pediatric closed head injury. J Am Acad Child Adolesc Psychiatry 2002;41(2):148–56.CrossRefGoogle ScholarPubMed
Max, JE, Koele, SL, Lindgren, SD, Robin, DA, Smith, WL, Jr., Sato, Y, et al. Adaptive functioning following traumatic brain injury and orthopedic injury: a controlled study. Arch Phys Med Rehabil 1998;79(8):893–9.CrossRefGoogle ScholarPubMed
McCarthy, ML, MacKenzie, EJ, Durbin, DR, Aitken, ME, Jaffe, KM, Paidas, CN, et al. Health-related quality of life during the first year after traumatic brain injury. Arch Pediatr Adolesc Med 2006;160(3):252–60.CrossRefGoogle ScholarPubMed
Yeates, K, Taylor, H, Barry, C, Drotar, D, Wade, S, Stancin, T. Neurobehavioral symptoms in childhood closed-head injuries: changes in prevalence and correlates during the first year postinjury. J Pediatr Psychol 2001;26(2):79–91.CrossRefGoogle ScholarPubMed
Ewing-Cobbs, L, Barnes, M, Fletcher, JM, Levin, HS, Swank, PR, Song, J. Modeling of longitudinal academic achievement scores after pediatric traumatic brain injury. Dev Neuropsychol 2004;25(1–2):107–33.CrossRefGoogle ScholarPubMed
Yeates, KO, Taylor, HG. Behavior problems in school and their educational correlates among children with traumatic brain injury. Exceptionality 2006;14(3):141–54.CrossRefGoogle Scholar
Wade, SL, Taylor, HG, Drotar, D, Stancin, T, Yeates, K, Minich, N. A prospective study of long-term caregiver and family adaptation following brain injury in children. J Head Trauma Rehabil 2002;17(2):96–111.CrossRefGoogle ScholarPubMed
Sambuco, M, Brookes, N, Lah, S. Paediatric traumatic brain injury: a review of siblings' outcome. Brain Inj 2008;22(1):7–17.CrossRefGoogle ScholarPubMed
Wade, SL, Taylor, HG, Yeates, KO, Drotar, D, Stancin, T, Minich, NM, et al. Long-term parental and family adaptation following pediatric brain injury. J Pediatr Psychol 2006;31(10):1072–83.CrossRefGoogle ScholarPubMed
Wade, SL, Stancin, T, Taylor, H, Drotar, D, Yeates, KO, Minich, NM. Interpersonal stressors and resources as predictors of parental adaptation following pediatric traumatic injury. J Consult Clin Psychol 2004;72(5):776–84.CrossRefGoogle ScholarPubMed
Yeates, KO, Taylor, HG, Rusin, J, Bangert, B, Dietrich, A, Nuss, K, et al. Longitudinal trajectories of post-concussive symptoms in children with mild traumatic brain injuries and their relationship to acute clinical status. Pediatrics 2009;123:735–43.CrossRefGoogle ScholarPubMed
Kothari, S. Prognosis after severe TBI: a practical, evidence-based approach. In Zasler, ND, Katz, DI, Zafonte, RD, eds. Brain Injury Medicine: Principles and Practice. New York: Demos Medical Publishing; 2007: 169–200.Google Scholar
Yeates, KO. Closed-head injury. In Yeates, KO, Ris, MD, Taylor, HG, eds. Pediatric Neuropsychology: Research, Theory, and Practice. New York: The Guilford Press; 2000.Google Scholar
Wilde, EA, Hunter, JV, Newsome, MR, Scheibel, RS, Bigler, ED, Johnson, JL, et al. Frontal and temporal morphometric findings on MRI in children after moderate to severe traumatic brain injury. J Neurotrauma 2005;22(3):333–44.CrossRefGoogle ScholarPubMed
Levin, HS, Hanten, G. Executive functions after traumatic brain injury in children. Pediatr Neurol 2005;33(2):79–93.CrossRefGoogle ScholarPubMed
Slomine, BS, Gerring, JP, Grados, MA, Vasa, R, Brady, K, Christensen, J, et al. Performance on measures of executive function following pediatric traumatic brain injury. Brain Inj 2002;16(9):759–72.CrossRefGoogle ScholarPubMed
Power, T, Catroppa, C, Coleman, L, Ditchfield, M, Anderson, V. Do lesion site and severity predict deficits in attentional control after preschool traumatic brain injury (TBI)?Brain Inj 2007;21(3):279–92.CrossRefGoogle ScholarPubMed
Salorio, CF, Slomine, BS, Grados, MA, Vasa, RA, Christensen, JR, Gerring, JP. Neuroanatomic correlates of CVLT-C performance following pediatric traumatic brain injury. J Int Neuropsychol Soc 2005;11(6):686–96.CrossRefGoogle ScholarPubMed
Bonnier, C, Marique, P, Hout, A, Potelle, D. Neurodevelopmental outcome after severe traumatic brain injury in very young children: role for subcortical lesions. J Child Neurol 2007;22(5):519–29.CrossRefGoogle ScholarPubMed
Babikian, T, Freier, MC, Tong, KA, Nickerson, JP, Wall, CJ, Holshouser, BA, et al. Susceptibility weighted imaging: neuropsychologic outcome and pediatric head injury. Pediatr Neurol 2005;33(3):184–94.CrossRefGoogle ScholarPubMed
Wilde, EA, Chu, Z, Bigler, E, Hunter, J, Fearing, M, Hanten, G, et al. Diffusion tensor imaging in the corpus callosum in children after moderate to severe traumatic brain injury. J Neurotrauma 2006;23(10):1412–26.CrossRefGoogle ScholarPubMed
Babikian, T, Freier, MC, Ashwal, S, Riggs, ML, Burley, T, Holshouser, BA. MR spectroscopy: predicting long-term neuropsychological outcome following pediatric TBI. J Magn Reson Imaging 2006;24(4):801–11.CrossRefGoogle ScholarPubMed
Taylor, HG, Yeates, KO, Wade, SL, Drotar, D, Stancin, T, Burant, C. Bidirectional child-family influences on outcomes of traumatic brain injury in children. J Int Neuropsychol Soc 2001;7(6):755–67.CrossRefGoogle ScholarPubMed
Catroppa, C, Anderson, VA, Morse, SA, Haritou, F, Rosenfeld, J. Outcome and predictors of functional recovery 5 years following pediatric traumatic brain injury (TBI). J Pediatr Psychol 2008;33(7):707–18.CrossRefGoogle Scholar
Max, JE, Levin, HS, Schachar, RJ, Landis, J, Saunders, A, Ewing-Cobbs, L, et al. Predictors of personality change due to traumatic brain injury in children and adolescents six to twenty-four months after injury. J Neuropsychiatry Clin Neurosci 2006;18(1):21–32.CrossRefGoogle ScholarPubMed
Kolb, B, Gibb, R. Brain plasticity and recovery from early cortical injury. Dev Psychobiol 2007;49(2):107–18.CrossRefGoogle ScholarPubMed
Bates, E, Reilly, J, Wulfeck, B, Dronkers, N, Opie, M, Fenson, J, et al. Differential effects of unilateral lesions on language production in children and adults. Brain Lang 2001;79(2):223–65.CrossRefGoogle ScholarPubMed
Anderson, V, Catroppa, C, Morse, S, Haritou, F, Rosenfeld, J. Functional plasticity or vulnerability after early brain injury?Pediatrics 2005;116(6):1374–82.CrossRefGoogle ScholarPubMed
Ewing-Cobbs, L, Prasad, MR, Landry, SH, Kramer, L, DeLeon, R. Executive functions following traumatic brain injury in young children: a preliminary analysis. Dev Neuropsychol 2004;26(1):487–512.CrossRefGoogle ScholarPubMed
Holmes-Bernstein, J, Waber, DP. Developmental neuropsychological assessment: The systematic approach. In Boulton, AA, Baker, GB, Hiscock, M, eds. Neuromethods: Vol. 17, Neuropsychology. Clifton, NJ: Humana Press; 1990: 311–71.Google Scholar
Goldstrohm, SL, Arffa, S. Preschool children with mild to moderate traumatic brain injury: an exploration of immediate and post-acute morbidity. Arch Clin Neuropsychol 2005;20(6):675–95.CrossRefGoogle ScholarPubMed
Simpson, DA, Cockington, RA, Hanieh, A, Raftos, J, Reilly, P. Head injuries in infants and young children: the value of the Paediatric Coma Scale. Review of literature and report on a study. Childs Nerv Syst 1991;7(4):183–90.CrossRefGoogle ScholarPubMed
Bloom, DR, Levin, HS, Ewing-Cobbs, L, Saunders, AE, Song, J, Fletcher, JM, et al. Lifetime and novel psychiatric disorders after pediatric traumatic brain injury. J Am Acad Child Adolesc Psychiatry 2001;40(5):572–9.CrossRefGoogle ScholarPubMed
Holmes, JM. History and observations. In Rudel, RG, Holmes, JM, Pardes, JR, eds. Assessment of Developmental Learning Disorders: A Neuropsychological Approach. New York: Basic Books; 1988: 144–65.Google Scholar
Glutting, JJ, Youngstrom, EA, Oakland, T, Watkins, M. Situational specificity and generality of test behaviors for samples of normal and referred children. School Psychology Review 1996;25:94–107.Google Scholar
Gioia, GA, Isquith, PK, Guy, SC, Kenworthy, L. Behavior Rating Inventory of Executive Function Professional Manual. Odessa, FL: Psychological Assessment Resources; 2000.Google Scholar
Nadebaum, C, Anderson, V, Catroppa, C. Executive function outcomes following traumatic brain injury in young children: a five year follow-up. Dev Neuropsychol 2007;32(2):703–28.CrossRefGoogle ScholarPubMed
Baron, IS. Neuropsychological Evaluation of the Child. Oxford: Oxford University Press; 2004.Google Scholar
Strauss, E, Sherman, EMS, Spreen, O. A Compendium of Neuropsychological Tests: Administration, Norms, and Commentary, 3rd edn. Oxford: Oxford University Press; 2006.Google Scholar
Delis, DC, Kramer, JH, Kaplan, E, Ober, BA. California Verbal Learning Test–Children's Version. Austin, TX: The Psychological Corporation; 1994.Google Scholar
Mottram, L, Donders, J. Construct validity of the California Verbal Learning Test – Children's Version (CVLT-C) after pediatric traumatic brain injury. Psychol Assess 2005;17(2):212–7.CrossRefGoogle ScholarPubMed
Mottram, L, Donders, J. Cluster subtypes on the California verbal learning test-children's version after pediatric traumatic brain injury. Dev Neuropsychol 2006;30(3):865–83.CrossRefGoogle ScholarPubMed
Donders, J, Minnema, MT. Performance discrepancies on the California Verbal Learning Test-Children's Version (CVLT-C) in children with traumatic brain injury. J Int Neuropsychol Soc 2004;10(4):482–8.CrossRefGoogle ScholarPubMed
Donders, J, Hoffman, NM. Gender differences in learning and memory after pediatric traumatic brain injury. Neuropsychology 2002;16(4):491–9.CrossRefGoogle ScholarPubMed
Miller, LJ, Donders, J. Prediction of educational outcome after pediatric traumatic brain injury. Rehabilitation Psychology 2003;48:237–41.CrossRefGoogle Scholar
Bernstein, JH. Developmental neuropsychological assessment. In Yeates, KO, Ris, MD, Taylor, HG, eds. Pediatric Neuropsychology: Research, Theory, and Practice. New York: The Guilford Press; 2000.Google Scholar
Aitken, ME, Mele, N, Barrett, K. Recovery of injured children: parent perspectives on family needs. Arch Phys Med Rehabil 2004;85(4):567–73.CrossRefGoogle ScholarPubMed
Laatsch, L, Harrington, D, Hotz, G, Marcantuono, J, Mozzoni, M, Walsh, V, et al. An evidence-based review of cognitive and behavioral rehabilitation treatment studies in children with acquired brain injury. J Head Trauma Rehabil 2007;22(4):248–56.CrossRefGoogle ScholarPubMed
van't Hooft, I, Andersson, K, Bergman, B, Sejersen, T, Wendt, L, Bartfai, A. Beneficial effect from a cognitive training programme on children with acquired brain injuries demonstrated in a controlled study. Brain Inj 2005;19(7):511–8.CrossRefGoogle Scholar
van't Hooft, I, Andersson, K, Bergman, B, Sejersen, T, Wendt, L, Bartfai, A. Sustained favorable effects of cognitive training in children with acquired brain injuries. Neurorehabilitation 2007;22(2):109–16.Google Scholar
Braga, LW, Da Paz, AC, Ylvisaker, M. Direct clinician-delivered versus indirect family-supported rehabilitation of children with traumatic brain injury: a randomized controlled trial. Brain Inj 2005;19(10):819–31.CrossRefGoogle ScholarPubMed
Jin, C, Schachar, R. Methylphenidate treatment of attention-deficit/hyperactivity disorder secondary to traumatic brain injury: a critical appraisal of treatment studies. CNS Spectr 2004;9(3):217–26.CrossRefGoogle ScholarPubMed
Ylvisaker, M, Turkstra, L, Coehlo, C, Yorkston, K, Kennedy, M, Sohlberg, M, et al. Behavioural interventions for children and adults with behaviour disorders after TBI: a systematic review of the evidence. Brain Inj 2007;21(8):769–805.CrossRefGoogle Scholar
Wade, SL, Michaud, L, Brown, T. Putting the pieces together: preliminary efficacy of a family problem-solving intervention for children with traumatic brain injury. J Head Trauma Rehabil 2006;21(1):57–67.CrossRefGoogle ScholarPubMed
Wade, SL, Wolfe, C, Brown, T, Pestian, J. Putting the pieces together: preliminary efficacy of a web-based family intervention for children with traumatic brain injury. J Pediatr Psychol 2005;30(5):437–42.CrossRefGoogle ScholarPubMed
Wade, SL, Carey, J, Wolfe, CR. An online family intervention to reduce parental distress following pediatric brain injury. J Consult Clin Psychol 2006;74(3):445–54.CrossRefGoogle ScholarPubMed
Singer, GHS, Glang, A, Nixon, C, Cooley, E, Kerns, KA, Williams, D, et al. A comparison of two psychosocial interventions for parents of children with acquired brain injury: An exploratory study. J Head Trauma Rehabil 1994;9:38–49.CrossRefGoogle Scholar
Ylvisaker, M, Todis, B, Glang, A, Urbanczyk, B, Franklin, C, DePompei, R, et al. Educating students with TBI: themes and recommendations. J Head Trauma Rehabil 2001;16(1):76–93.CrossRefGoogle ScholarPubMed
Bilukha, O, Hahn, RA, Crosby, A, Fullilove, M, Liberman, A, Moscicki, E, et al. The effectiveness of early childhood home visitation in preventing violence: a systematic review. Am J Prev Med 2005;28(2 Suppl 1):11–39.CrossRefGoogle ScholarPubMed
Macpherson, A, Spinks, A. Bicycle helmet legislation for the uptake of helmet use and prevention of head injuries. Cochrane Database Syst Rev 2007;(2):CD005401.
Chen, LH, Baker, SP, Li, G. Graduated driver licensing programs and fatal crashes of 16-year-old drivers: a national evaluation. Pediatrics 2006;118(1):56–62.CrossRefGoogle ScholarPubMed
Adelson, PD, Bratton, SL, Carney, NA, Chesnut, RM, du Coudray, HE, Goldstein, B, et al. Guidelines for the acute medical management of severe traumatic brain injury in infants, children, and adolescents. Chapter 1: Introduction. Pediatr Crit Care Med 2003;4(3 Suppl):S2–4.CrossRefGoogle ScholarPubMed

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