Top

Published in:

01-09-2006 | Research Article

Improving antisaccade performance in adolescents with attention-deficit/hyperactivity disorder (ADHD)

Author: Canan Karatekin

Published in: Experimental Brain Research | Issue 2/2006

Abstract

The goal of the study was to examine the effects of task manipulations on antisaccade accuracy and response times (RTs) of adolescents with attention-deficit/hyperactivity disorder (ADHD), age-matched controls, 10-year-olds and young adults. Order effects were tested by administering the task at the beginning and end of the session. Other manipulations involved a visual landmark to reduce demands on working memory and internal generation of saccades; spatially specific and non-specific cues at three intervals; and central engagement of attention through perceptual and cognitive means at three intervals. As expected, adolescents with ADHD were impaired relative to age-matched controls in terms of accuracy and saccadic RT on the first administration of the task. Although their accuracy improved with most of the manipulations, it did not improve disproportionately compared to age-matched controls. Nevertheless, with most of the manipulations, they could achieve the same level of accuracy as unaided controls on the first administration of the task. In contrast, the saccadic RTs of the ADHD group came close to normal under several conditions, indicating that elevated antisaccade RTs in this disorder may be related to attentional factors. The ADHD group made more premature saccades and fewer corrective saccades than both the age-matched and younger groups, suggesting difficulties with impulsivity and goal neglect. The findings suggest that cognitive scaffolds can ameliorate at least some of the inhibition deficits in adolescents with ADHD.

Achenbach TM (1991a) Manual for the child behavior checklist/4-18 and 1991 profile. Department of Psychiatry, University of Vermont, Burlington

Achenbach TM (1991b) Manual for the teacher’s report form and 1991 profile. Department of Psychiatry, University of Vermont, Burlington

Allik J, Toom M, Luuk A (2003) Planning of saccadic eye movements. Psychol Res 67:10–21PubMed

Amador N, Schlag-Rey M, Schlag J (1998) Primate antisaccades. I. Behavioral characteristics. J Neurophysiol 80:1775–1786PubMed

Aman CJ, Roberts RJ, Pennington BF (1998) A neuropsychological examination of the underlying deficit in attention deficit hyperactivity disorder: frontal lobe versus right parietal lobe theories. Dev Psychol 34:956–969PubMed

American Psychiatric Association (1994) Diagnostic and statistical manual of mental disorders, 4th edn. Washington

Armstrong IT, Munoz DP (2003) Attentional blink in adults with attention-deficit hyperactivity disorder: influence of eye movements. Exp Brain Res 152:243–250PubMed

Aron AR, Poldrack RA (2005) The cognitive neuroscience of response inhibition: relevance for genetic research in attention-deficit/hyperactivity disorder. Biol Psychiatry 57:1285–1292PubMed

Banaschewski T, Brandeis D, Heinrich H, Albrecht B, Brunner E, Rothenberger A (2003) Association of ADHD and conduct disorder—brain electrical evidence for the existence of a distinct subtype. J Child Psychol Psychiatry 44:356–376PubMed

Barkley R (1997) Behavioral inhibition, sustained attention, and executive functions: constructing a unifying theory of ADHD. Psychol Bull 121:65–94PubMed

Bedard A, Ickowicz A, Logan GD, Hogg-Johnson S, Schachar R, Tannock R (2003) Selective inhibition in children with attention-deficit hyperactivity disorder off and on stimulant medication. J Abnorm Child Psychol 31:315–327PubMed

Behrmann M, Geng JJ, Shomstein S (2004) Parietal cortex and attention. Curr Opin Neurobiol 14:212–217PubMed

Bell AH, Everling S, Munoz DP (2000) Influence of stimulus eccentricity and direction on characteristics of pro- and antisaccades in non-human primates. J Neurophysiol 84:2595–2604PubMed

Brandeis D, Banaschewski T, Baving L, Georgiewa P, Blanz B, Schmidt MH, Warnke A, Steinhausen H-C, Rothenberger A, Scheuerpflug P (2002) Multicenter P300 brain mapping of impaired attention to cues in hyperkinetic children. J Am Acad Child Adolesc Psychiatry 41:990–998PubMed

Breitmeyer BG, Braun D (1990) Effects of fixation and attention on saccadic reaction time. In: Groner R, d’Ydewalle G, Parham R (eds) From eye to mind: information acquisition in perception, search and reading. Elsevier Science, New York, pp 71–79

Briand KA, Strallow D, Hening W, Poisner H, Sereno AB (1999) Control of voluntary and reflexive saccades in Parkinson’s disease. Exp Brain Res 129:38–48PubMed

Cairney S, Maruff P, Vance A, Barnett R, Luk E, Currie J (2001) Contextual abnormalities of saccadic inhibition in children with attention deficity hyperactivity disorder. Exp Brain Res 141:507–518PubMed

Carpenter RHS (1988) Movements of the eyes. Pion, London

Carpenter RHS, Williams MLL (1995) Neural computation of log likelihood in control of saccadic eye movements. Nature 377:59–62PubMed

Castellanos FX (1997) Toward a pathophysiology of attention-deficit hyperactivity disorder. Clin Pediatr 36:381–393

Castellanos FX, Marvasti FF, Ducharme JL, Walter JM, Israel ME, Krain A, Pavlovsky C, Hommer DW (2000) Executive function oculomotor tasks in girls with ADHD. J Am Acad Child Adolesc Psychiatry 39:644–650PubMed

Chapman LJ, Chapman JP, Curran TE, Miller MB (1994) Do children and the elderly show heightened semantic priming? How to answer the question. Dev Rev 14:159–185

deCharms RC, Maeda F, Glover GH, Ludlow D, Pauly JM, Soneji D, Gabrieli JDE, Mackey SC (2005) Control over brain activation and pain learned by using real-time functional MRI. Proc Natl Acad Sci USA 102:18626–18631PubMed

Cherkasova MV, Manoach DS, Intriligator JM, Barton JJS (2002) Antisaccades and task-switching: interactions in controlled processing. Exp Brain Res 144:528–537PubMed

Cohen ME, Ross LE (1977) Saccade latency in children and adults: effects of warning interval and target eccentricity. J Exp Child Psychol 23:539–549PubMed

Crawford TJ, Müller HJ (1992) Spatial and temporal effects of spatial attention on human saccadic eye movements. Vision Res 32:293–304PubMed

Curtis CE, D’Esposito M (2003) Success and failure suppressing reflexive behavior. J Cogn Neurosci 15:409–418PubMed

DeSouza JFX, Menon RS, Everling S (2003) Preparatory set associated with pro-saccades and anti-saccades in humans investigated with event-related fMRI. J Neurophysiol 89:1016–1023PubMed

Drechsler R, Brandeis D, Földenyi M, Imhof K, Steinhausen H-C (2005) The course of neuropsychological functions in children with attention deficit hyperactivity disorder from late childhood to early adolescence. J Child Psychol Psychiatry 46:824–836PubMed

Dyckman KA, McDowell JE (2005) Behavioral plasticity of antisaccade performance following daily practice. Exp Brain Res 162:63–69PubMed

El-Sayed E, Larsson J-O, Persson HE, Santosh PJ, Rydelius P-A (2003) “Maturational lag” hypothesis of attention deficit hyperactivity disorder: an update. Acta Pediatr 92:776–784

Ettinger U, Antonova E, Crawford TJ, Mitterschiffthaler MT, Goswani S, Sharma T, Kumari V (2005) Structural neural correlates of prosaccade and antisaccade eye movements in healthy humans. NeuroImage 24:487–494PubMed

Evdokimidis I, Smyrnis N, Constantinidis TS, Stefanis NC, Avramopoulos D, Paximadis C, Theleritis C, Efstratiadis C, Kastrinakis G, Stefanis CN (2002) The antisaccade task in a sample of 2,006 young men. I. Normal population characteristics. Exp Brain Res 147:45–52PubMed

Everling S, Fischer B (1998) The antisaccade: a review of basic research and clinical studies. Neuropsychologia 36:885–899PubMed

Everling S, Munoz DP (2000) Neuronal correlates for preparatory set associated with pro-saccades and anti-saccades in the primate frontal eye field. J Neurosci 20:387–400PubMed

Everling S, Spantekow A, Krappman P, Flohr H (1998) Event-related potentials associated with correct and incorrect responses in a cued antisaccade task. Exp Brain Res 118:27–34PubMed

Feifel D, Farber RH, Clementz BA, Perry W, Anllo-Vento L (2004) Inhibitory deficits in ocular motor behavior in adults with attention-deficit/hyperactivity disorder. Biol Psychiatry 56:333–339PubMed

Fischer B, Weber H (1992) Characteristics of “anti” saccades in man. Exp Brain Res 89:415–424PubMed

Fischer B, Weber H (1997) Effects of stimulus conditions on the performance of antisaccades in man. Exp Brain Res 116:191–200PubMed

Fischer B, Biscaldi M, Gezeck S (1997) On the development of voluntary and reflexive components in human saccade generation. Brain Res 754:285–297PubMed

Fischer M, Barkley RA, Smallish L, Fletcher K (2005) Executive functioning in children as young adults: attention, inhibition, response perseveration, and the impact of comorbidity. Dev Neuropsychol 27:107–133PubMed

Ford KA, Goltz HC, Brown MRG, Everling S (2005) Neural processes associated with antisaccade task performance investigated with event-related fMRI. J Neurophysiol 94:429–440PubMed

Fukushima J, Hatta T, Fukushima K (2000) Development of voluntary control of saccadic eye movements. I. Age-related changes in normal children. Brain Dev 22:173–180PubMed

Gagnon D, O’Driscoll GAO, Petrides M, Pike GB (2002) The effect of spatial and temporal information on saccades and neural activity in oculomotor structures. Brain 125:123–139PubMed

Gathercole SE, Alloway TP (2006) Short-term and working memory impairments in neurodevelopmental disorders: diagnosis and remedial support. J Child Psychol Psychiatry 47:4–15PubMed

Gould TD, Bastain TM, Israel ME, Hommer DW, Castellanos FX (2001) Altered performance on an ocular fixation task in attention-deficit/hyperactivity disorder. Biol Psychiatry 50:633–635PubMed

Grodzinsky GM, Diamond R (1992) Frontal lobe functioning in boys with attention-deficit hyperactivity disorder. Dev Neuropsychol 8:427–445CrossRef

Hainline L (1988) Normal lifespan developmental changes in saccadic and pursuit eye movements. In: Johnston CW, Pirozzolo FJ (eds) Neuropsychology of eye movements. Erlbaum, Hillsdale, pp 31–64

Hallett PE, Adams BD (1980) The predictability of saccadic latency in a novel voluntary oculomotor task. Vision Res 20:329–339PubMed

Hartman RR, Stage SA, Webster-Stratton C (2003) A growth curve analysis of parent training outcomes: examining the influence of child risk factors (inattention, impulsivity, and hyperactivity problems), parental and family risk factors. J Child Psychol Psychiatry 44:388–398PubMed

Heinrich H, Gevensleben H, Freisleder FJ, Moll GH, Rothenberger A (2004) Training of slow cortical potentials in attention-deficit/hyperactivity disorder: evidence for positive behavioral and neurophysiological effects. Biol Psychiatry 55:772–775PubMed

Herjanic B, Campbell W (1977) Differentiating psychiatrically disturbed children on the basis of a structured interview. J Abnorm Child Psychol 5:127–134PubMed

Herjanic B, Reich W (1982) Development of a structured psychiatric interview for children: agreement between child and parent on individual symptoms. J Abnorm Child Psychol 10:307–324PubMed

Hollingshead AB (1975) Four factor index of social status. Department of Sociology, Yale University, New Haven

Hurks PM, Adam JJ, Vles JSH, Kalff AC, Crolla IFAM, Hendriksen JGM, Feron FJM, Kroes M, Steyaert J, van Zeben TMCB (2005) Controlled visuomotor preparation deficits in attention-deficit/hyperactivity disorder. Neuropsychology 19:66–76PubMed

Kahneman D (1973) Attention and effort. Prentice-Hall, Englewood Cliffs

Karatekin C, Asarnow RF (1998) Components of visual search in childhood-onset schizophrenia and attention-deficit/hyperactivity disorder (ADHD). J Abnorm Child Psychol 26:367–380PubMed

Kaufman J, Birmaher B, Brent D, Rao U, Ryan N (1996) Kiddie schedule for affective disorders and schizophrenia—present and lifetime version (K-SADS-PL). School of Medicine, University of Pittsburgh, Pittsburgh

Kim S-Y, Kim M-S, Chun MM (2005) Concurrent working memory load can reduce distraction. Proc Natl Acad Sci USA 102:16524–16529PubMed

Kirk RE (1995) Experimental design: procedures for the behavioral sciences. Brooks/Cole, Pacific Grove

Klein C (2001) Developmental functions for saccadic eye movement parameters derived from pro- and antisaccade tasks. Exp Brain Res 139:1–17PubMed

Klein C, Feige B (2005) An independent components analysis (ICA) approach to the study of developmental differences in the saccadic contingent negative variation. Biol Psychol 70:105–114PubMed

Klein C, Fischer B (2005) Instrumental and test–retest reliability of saccadic measures. Biol Psychol 68:201–213PubMed

Klein C, Fischer B, Fischer B, Hartnegg K (2002) Effects of methylphenidate on saccadic responses in patients with ADHD. Exp Brain Res 145:121–125PubMed

Klein CH, Raschke A, Brandenbusch A (2003) Development of pro- and antisaccades in children with attention-deficit hyperactivity disorder (ADHD) and healthy controls. Psychophysiology 40:17–28PubMed

Klingberg T, Fernell E, Olesen PJ, Johnson M, Gustafson P, Dahlström K, Gillberg CG, Forrsberg H, Westerberg H (2005) Computerized training of working memory in children with ADHD—a randomized, controlled trial. J Am Acad Child Adolesc Psychiatry 44:177–186PubMed

Krappman P (1998) Accuracy of visually and memory-guided antisaccades in man. Vision Res 38:2979–2985

Kristjánsson Á, Chen Y, Nakayama K (2001) Less attention is more in the preparation of antisaccades, but not prosaccades. Nat Neurosci 4:1037–1042PubMed

Kristjánsson Á, Vandenbroucke MWG, Driver J (2004) When pros become cons for anti- versus prosaccades: factors with opposite or common effects on different saccade types. Exp Brain Res 155:231–244PubMed

Leigh RJ, Kennard C (2004) Using saccades as a research tool in the clinical neurosciences. Brain 127:460–477PubMed

Leigh RJ, Zee DS (1983) The neurology of eye movements. FA Davis, Philadelphia

Lijffijt M, Kenemans JL, Verbaten MN, van Engeland H (2005) A meta-analytic review of stopping performance in attention-deficit/hyperactivity disorder: deficient inhibitory motor control? J Abnorm Psychol 114:216–222PubMed

van der Linden D, Frese M, Meijman TF (2003) Mental fatigue and the control of cognitive processes: effects on perseveration and planning. Acta Psychol (Amst) 113:45–65

Luna B, Thulborn KR, Munoz DP, Merriam EP, Garver KE, Minshew NJ, Keshavan MS, Genovese CR, Eddy WF, Sweeney JA (2001) Maturation of widely distributed brain function subserves cognitive development. NeuroImage 13:786–793PubMed

Malone SM, Iacono WG (2002) Error rate on the antisaccade task: heritability and developmental change in performance among preadolescent and late-adolescent female twin youth. Psychophysiology 39:664–673PubMed

Manassis K, Tannock R, Barbosa J (2000) Dichotic listening and response inhibition in children with comorbid anxiety disorders. J Am Acad Child Adolesc Psychiatry 39:1152–1159PubMed

Maruff P, Purcell R, Tyler P, Pantelis C, Currie J (1999) Abnormalities of internally generated saccades in obsessive–compulsive disorder. Psychol Med 29:1377–1385PubMed

Mokler A, Fischer B (1999) The recognition and correction of involuntary prosaccades in an antisaccade task. Exp Brain Res 125:511–516PubMed

Morrone MC, Ross J, Burr D (2005) Saccadic eye movements cause compression of time as well as space. Nat Neurosci 8:950–954PubMed

Mostofsky SH, Lasker AG, Singer HS, Denckla MB, Zee DS (2001) Oculomotor abnormalities in boys with Tourette syndrome with and without ADHD. J Am Acad Child Adolesc Psychiatry 40:1464–1472PubMed

Munoz DP, Broughton JR, Goldring JE, Armstrong IT (1998) Age-related performance of human subjects on saccadic eye movement tasks. Exp Brain Res 121:391–400PubMed

Munoz DP, Armstrong IT, Hampton KA, Moore KD (2003) Altered control of visual fixation and saccadic eye movements in attention-deficit hyperactivity disorder. J Neurophysiol 90:503–514PubMed

Newcorn JH, Halperin JM, Jensen PS, Abikoff HB, Arnold E, Cantwell DP, Conners CK, Elliott GR, Epstein JN, Greenhill LL, Hechtman L, Hinshaw SP, Hoza B, Kraemer HC, Pelham WE, Severe JB, Swanson JM, Wells KC, Wigal T, Vitello B (2001) Symptom profiles in children with ADHD: effects of comorbidity and gender. J Am Acad Child Adolesc Psychiatry 40:137–146PubMed

Nieuwenhuis S, Ridderinkhof KR, Blom J, Band GPG, Kok A (2001) Error-related brain potentials are differentially related to awareness of response errors: evidence from an antisaccade task. Psychophysiology 38:752–760PubMed

Nieuwenhuis S, Broerse A, Nielen MMA, de Jong R (2004) A goal activation approach to the study of executive function: an application to antisaccade tasks. Brain Cogn 56:198–214PubMed

Nigg JT (2001) Is ADHD an inhibitory disorder? Psychol Bull 127:571–598PubMed

Nigg JT, Butler KM, Huang-Pollock CL, Henderson JM (2002) Inhibitory processes in adults with persistent childhood onset ADHD. J Consult Clin Psychol 70:153–157PubMed

Novak GP, Solanto M, Abikoff H (1995) Spatial orienting and focused attention in attention deficit hyperactivity disorder. Psychophysiology 32:546–559PubMed

O’Driscoll GA, Depatle L, Holahan AV, Savlon-Lemleux-T, Barr RG, Jolicoeur C, Douglas VI (2005) Executive functions and methylphenidate response in subtypes of attention-deficit/hyperactivity disorder. Biol Psychiatry 57:1452–1460PubMed

Olk B, Kingstone A (2003) Why are antisaccades slower than prosaccades? A novel finding using a new paradigm. NeuroReport 14:151–155PubMed

Overtoom CCE, Kenemans JL, Verbaten MN, Kemner C, van der Molen MW, van Engeland H, Buitelaar JK, Koelega HS (2002) Inhibition in children with attention-deficit/hyperactivity disorder: a psychophysiological study of the stop task. Biol Psychiatry 51:668–676PubMed

Pearson DA, Yaffee LS, Loveland KA, Norton AM (1995) Covert visual attention in children with attention deficit hyperactivity disorder: evidence for developmental immaturity? Dev Psychopathol 7:351–367CrossRef

Perchet C, Revol O, Fourneret P, Mauguiere F, Garcia-Larrea L (2001) Attention shifts and anticipatory mechanisms in hyperactive children: an ERP study using the Posner paradigm. Biol Psychiatry 50:44–57PubMed

Polli FE, Barton JJS, Cain MS, Thakkar KN, Rauch SL, Manoach DS (2005) Rostral and dorsal anterior cingulate cortex make dissociable contributions during antisaccade error commission. Proc Natl Acad Sci USA 102:15700–15705PubMed

Posner MI (1978) Chronometric explorations of mind. LEA, Hillsdale

Ross RG, Hommer D, Breiger D, Varley C, Radant A (1994a) Eye movement task related to frontal lobe functioning in children with attention deficit disorder. J Am Acad Child Adolesc Psychiatry 33:869–874

Ross RG, Radant AD, Young DA, Hommer DW (1994b) Saccadic eye movements in normal children from 8 to 15 years of age: a developmental study of visuospatial attention. J Autism Dev Disord 24:413–431

Ross RG, Harris JG, Olincy A, Radant A (2000) Eye movement task measures inhibition and spatial working memory in adults with schizophrenia, ADHD, and a normal comparison group. Psychiatry Res 95:35–42PubMed

Rubia K, Smith AB, Brammer MJ, Toone B, Taylor E (2005) Abnormal brain activation during inhibition and error detection in medication-naïve adolescents with ADHD. Am J Psychiatry 162:1067–1075PubMed

Rucklidge JJ, Tannock R (2002) Neuropsychological profiles of adolescents with ADHD: effects of reading difficulties and gener. J Child Psychol Psychiatry 43:988–1003PubMed

Rueda MR, Rothbart MK, McCandliss BD, Saccomanno L, Posner MI (2005) Training, maturation, and genetic influences on the development of executive attention. Proc Natl Acad Sci USA 102:14931–14936PubMed

Schachar RJ, Chen S, Logan GD, Ornstein TJ, Crosbie J, Ickowicz A, Pakulak A (2004) Evidence for an error monitoring deficit in attention deficit hyperactivity disorder. J Abnorm Child Psychol 32:285–293PubMed

Schlag-Rey M, Amador N, Sanchez H, Schlag J (1997) Antisaccade performance predicted by neuronal activity in the supplementary eye field. Nature 390:398–401PubMed

Schweitzer JB, Lee DO, Hanford RB, Zink CF, Ely TD, Tagamets MA, Hoffman JM, Grafton ST, Kilts CD (2004) Effects of methylphenidate on executive functioning in adults with attention-deficit/hyperactivity disorder: normalization of behavior but not related brain activity. Biol Psychiatry 56:597–606PubMed

Sergeant JA (2005) Modeling attention-deficit/hyperactivity disorder: a critical appraisal of the cognitive–energetic model. Biol Psychiatry 57:1248–1255PubMed

Sergeant JA, Geurts H, Oosterlaan J (2002) How specific is a deficit of executive functioning for attention-deficit/hyperactivity disorder? Behav Brain Res 130:3–28PubMed

Shallice T, Marzocchi GM, Coser S, del Savio M, Meuter RF, Rumiati R (2002) Executive function profile of children with attention deficit hyperactivity disorder. Dev Neuropsychol 21:43–71PubMed

Smit AC, van Gisbergen JAM, Cools AR (1987) A parametric analysis of human saccades in different experimental paradigms. Vision Res 27:1745–1762PubMed

Smyrnis N, Evdokimidis I, Stefanis NC, Constantinidis TS, Avramopoulos D, Theleritis C, Paximadis C, Efstratiadis C, Kastrinakis G, Stefanis CN (2002) The antisaccade task in a sample of 2,006 young males. III. Effects of task parameters. Exp Brain Res 147:53–63PubMed

Straube A, Ditterich J, Oertel W, Kupsch A (1998) Electrical stimulation of the posteroventral pallidum influences internally guided saccades in Parkinson’s disease. J Neurol 245:101–105PubMed

Stuss DT, Alexander MP (2000) Executive functions and frontal lobes: a conceptual view. Psychol Res 63:289–298PubMed

Swanson J (1992) School based assessments and interventions for ADD students. KC Publishing, Irvine

Swanson JM, Posner M, Potkin S, Bonforte S, Youpa D, Fiore C, Cantwell D, Crinella F (1991) Activating tasks for the study of visual–spatial attention in ADHD children: a cognitive anatomic approach. J Child Neurol 6:S119–S127PubMed

Sweeney JA, Strojwas MH, Mann JJ, Thase ME (1998) Prefrontal and cerebellar abnormalities in major depression: evidence from oculomotor studies. Biol Psychiatry 43:584–594PubMed

Van Gelder P, Lebedev S, Tsui WH (1997) Peak velocities of visually and nonvisually guided saccades in smooth-pursuit and saccadic tasks. Exp Brain Res 116:201–215PubMed

Walker R, Husain M, Hodgson TL, Harrison J, Kennard C (1998) Saccadic eye movement and working memory deficits following damage to human prefrontal cortex. Neuropsychologia 36:1141–1159PubMed

Wechsler D (1991) Wechsler Intelligence Scale for Children (WISC-III), 3rd edn. Psychological Corporation, San Antonio

Wechsler D (1992) Wechsler Individual Achievement Test (WIAT). Psychological Corporation, San Antonio

Wechsler D (1997) Wechsler Adult Intelligence Scale (WAIS-III), 3rd edn. Psychological Corporation, San Antonio

Wood D, Bruner JS, Ross G (1976) The role of tutoring in problem-solving. J Child Psychol Psychiatry 17:89–100PubMed

Title: Improving antisaccade performance in adolescents with attention-deficit/hyperactivity disorder (ADHD)
Author: Canan Karatekin
Publication date: 01-09-2006
Publisher: Springer-Verlag
Published in: Experimental Brain Research / Issue 2/2006
Print ISSN: 0014-4819
Electronic ISSN: 1432-1106
DOI: https://doi.org/10.1007/s00221-006-0467-x

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Improving antisaccade performance in adolescents with attention-deficit/hyperactivity disorder (ADHD)

Abstract

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 2/2006

The mirror antisaccade task: direction–amplitude interaction and spatial accuracy characteristics

Stretch reflex modulation during imposed static and dynamic hip movements in standing humans

The influence of mild traumatic brain injury on the temporal distribution of attention

Inhibitory control of reaching movements in humans

Extensive training of elementary finger tapping movements changes the pattern of motor cortex excitability

Genetic interaction between α4 and β2 subunits of high affinity nicotinic receptor: analysis in schizophrenia