• 1
    Ogden CL, Carroll MD, Kit BK, et al. Prevalence of obesity and trends in body mass index among US children and adolescents, 1999–2010. JAMA 2012;307:483-490.
  • 2
    Tomkinson GR, Olds TS. Secular changes in pediatric aerobic fitness test performance: the global picture. Med Sport Sci 2007;50:46-66.
  • 3
    Taras H, Potts-Datema W. Obesity and student performance at school. J School Health 2005;75:291-295.
  • 4
    Davis CL, Cooper S. Fitness, fatness, cognition, behavior, and academic achievement among overweight children: do cross-sectional associations correspond to exercise trial outcomes? Prev Med 2011;52:S65-S69.
  • 5
    LeBlanc MM, Martin CK, Han H, et al. Adiposity and physical activity are not related to academic achievement in school-aged children. J Dev Behav Pediatr 2012;33:486-494.
  • 6
    Colcombe SJ, Kramer AF. Fitness effects on the cognitive function of older adults: a meta-analytic study. Psychol Sci 2003;14:125-130.
    Direct Link:
  • 7
    Eriksen BA, Eriksen CW. Effects of noise letters upon identification of a target letter in a non-search task. Percept Psychophys 1974;16:143-149.
  • 8
    Voss MW, Chaddock L, Kim JS, et al. Aerobic fitness is associated with greater efficiency of the network underlying cognitive control in preadolescent children. Neuroscience 2011;199:166-176.
  • 9
    Chaddock L, Erickson KI, Prakash RS, et al. A functional MRI investigation of the association between childhood aerobic fitness and neurocognitive control. Biol Psychol 2012;89:260-268.
  • 10
    Colcombe SJ, Kramer AF, Erickson KI, et al. Cardiovascular fitness, cortical plasticity, and aging. Proc Natl Acad Sci USA 2004;101:3316-3321.
  • 11
    Luna B, Velanova K, Geier CF. Development of eye-movement control. Brain Cogn 2008;68:293-308.
  • 12
    Chaddock-Heyman L, Erickson KI, Voss MW, et al. The effects of physical activity on functional MRI activation associated with cognitive control in children: a randomized controlled intervention. Front Hum Neurosci 2013;7:72.
  • 13
    Davis CL, Tomporowski PD, McDowell JE, et al. Exercise improves executive function and achievement and alters brain activation in overweight children: a randomized, controlled trial. Health Psychol 2011;30:91-98.
  • 14
    Naglieri JA, Das JP. Cognitive Assessment System: Interpretive Handbook. Riverside Publishing: Itasca, IL; 1997.
  • 15
    American College of Sports Medicine. ACSM's Guidelines for Exercise Testing and Prescription, 6th edn. Lippincott Williams & Wilkins: Baltimore, MD; 2000.
  • 16
    Hallett PE. Primary and secondary saccades to goals defined by instructions. Vis Res 1978;18:1279-1296.
  • 17
    Amaro E, Barker GJ. Study design in fMRI: basic principles. Brain Cogn 2006;60:220-232.
  • 18
    Dyckman KA, Camchong J, Clementz BA, et al. An effect of context on saccade-related behavior and brain activity. NeuroImage 2007;36:774-784.
  • 19
    Durston S, Davidson MC, Thomas KM, et al. Parametric manipulation of conflict and response competition using rapid mixed-trial event-related fMRI. NeuroImage 2003;20:2135-2141.
  • 20
    Cox RW. AFNI: software for analysis and visualization of functional magnetic resonance neuroimages. Comput Biomed Res 1996;29:162-173.
  • 21
    Fonov V, Evans AC, Botteron K, et al. Unbiased average age-appropriate atlases for pediatric studies. NeuroImage 2011;54:313-327.
  • 22
    Ward BD. Simultaneous Inference for fMRI Data. Biophysics Research Institute, Medical College of Wisconsin: Milwaukee, WI; 1997.
  • 23
    Ettinger U, Ffytche DH, Kumari V, et al. Decomposing the neural correlates of antisaccade eye movements using event-related fMRI. Cereb Cortex 2008;18:1148-1159.
  • 24
    McDowell JE, Dyckman KA, Austin BP, et al. Neurophysiology and neuroanatomy of reflexive and volitional saccades: evidence from studies of humans. Brain Cogn 2008;68:255-270.
  • 25
    Casey BJ, Thomas KM, Welsh TF, et al. Dissociation of response conflict, attentional selection, and expectancy with functional magnetic resonance imaging. Proc Natl Acad Sci USA 2000;97 8728-8733.
  • 26
    Hazeltine E, Poldrack R, Gabrieli JD. Neural activation during response competition. J Cogn Neurosci 2000;12:118-129.
  • 27
    Hampshire A, Chamberlain SR, Monti MM, et al. The role of the right inferior frontal gyrus: inhibition and attentional control. NeuroImage 2010;50:1313-1319.
  • 28
    Ford KA, Goltz HC, Brown MR, et al. Neural processes associated with antisaccade task performance investigated with event-related fMRI. J Neurophysiol 2005;94:429-440.
  • 29
    Krafft C, Schwarz N, Chi L, et al. The location and function of parietal cortex supporting of reflexive and volitional saccades, a meta-analysis of over a decade of functional MRI data. In: Costa A, Collalba E, editors. Horizons in Neuroscience Research. Nova Science Publishers: Hauppauge, NY; 2012.
  • 30
    Dosenbach NUF, Visscher KM, Palmer ED, et al. A core system for the implementation of task sets. Neuron 2006;50:799-812.
  • 31
    Connolly JD, Goodale MA, Menon RS, et al. Human fMRI evidence for the neural correlates of preparatory set. Nat Neurosci 2002;5:1345-1352.
  • 32
    Brown MRG, Vilis T, Everling S. Frontoparietal activation with preparation for antisaccades. J Neurophysiol 2007;98:1751-1762.
  • 33
    Lee J, Park C, Dyckman KA, et al. Practice-related changes in neural activation patterns investigated via wavelet-based clustering analysis. Hum Brain Mapp (in press).
  • 34
    Braver TS, Barch DM, Gray JR, et al. Anterior cingulate cortex and response conflict: effects of frequency, inhibition and errors. Cereb Cortex 2001;11:825-836.
  • 35
    Kirschen MP, Chen SHA, Schraedley-Desmond P, et al. Load- and practice-dependent increases in cerebro-cerebellar activation in verbal working memory: an fMRI study. NeuroImage 2005;24:462-472.
  • 36
    Bunge SA, Dudukovic NM, Thomason ME, et al. Immature frontal lobe contributions to cognitive control in children: evidence from fMRI. Neuron 2002;33:301-311.
  • 37
    Luks TL, Simpson GV, Dale CL, et al. Preparatory allocation of attention and adjustments in conflict processing. NeuroImage 2007;35:949-958.
  • 38
    Visscher KM, Miezin FM, Kelly JE, et al. Mixed blocked/event-related designs separate transient and sustained activity in fMRI. NeuroImage 2003;19:1694-1708.
  • 39
    Burgund ED, Lugar HM, Miezin FM, et al. The development of sustained and transient neural activity. NeuroImage 2006;29:812-821.
  • 40
    Best JR, Miller PH, Jones LL. Executive functions after age 5: changes and correlates. Dev Rev 2009;29:180-200.