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Relación entre la variabilidad intra-individual de los tiempos de reacción (IIV-RT) y la inhibición de la respuesta en adolescentes y adultos con TDAH de la ciudad de Barranquilla

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datacite.rightshttp://purl.org/coar/access_right/c_16ecspa
dc.contributor.advisorPuentes R., Pedro
dc.contributor.authorJiménez Ayala, Andrea Stefanía
dc.date.accessioned2022-11-11T15:31:50Z
dc.date.available2022-11-11T15:31:50Z
dc.date.issued2022
dc.description.abstractEl Trastorno por Déficit de atención e hiperactividad (TDAH) es un desorden del Neuro-desarrollo, cuyos principales dominios sintomáticos son: la inatención, hiperactividad e impulsividad (American Psychiatric Association, 2013). Estos síntomas se caracterizan por ser persistentes e inapropiados para la edad cronológica y se presentan en diferentes contextos donde se desarrolla un individuo (familiar, social, laboral y/o escolar) (Okumura et al., 2019). La evidencia sugiere que estos síntomas, persisten de manera diferenciada a lo largo del ciclo vital (Lubar et al., 1995; Shallice et al., 2002). Los estudios longitudinales, revelan que el deterioro funcional debido a los síntomas del TDAH continúa hasta la adolescencia y la edad adulta para la mayoría de las personas. Y están asociados con resultados adversos como: la deserción académica y/o laboral, adicciones, inestabilidad emocional, problemas adaptativos, entre otros (Canals et al., 2018; Kofler et al., 2013). Hasta el momento no ha sido posible especificar un perfil neuropsicológico que defina a los sujetos con TDAH, más allá de las definiciones categoriales, pues la evidencia sustenta una alta heterogeneidad a nivel neurofisiológico (estructural, funcional) y cognitivo, a lo largo del ciclo vital (Halperin & Schulz, 2006; Hinshaw, 2018; Nigg et al., 2020).spa
dc.description.abstractAttention Deficit Hyperactivity Disorder (ADHD) is a Neurodevelopmental disorder, whose main symptom domains are: inattention, hyperactivity and impulsivity (American Psychiatric Association, 2013). These symptoms are characterized by being persistent and inappropriate for chronological age and occur in different contexts where an individual develops (family, social, work and/or school) (Okumura et al., 2019). Evidence suggests that these symptoms persist in a differentiated manner throughout the life cycle (Lubar et al., 1995; Shallice et al., 2002). Longitudinal studies reveal that functional impairment due to ADHD symptoms continues into adolescence and adulthood for most people. And they are associated with adverse outcomes such as: academic and/or job dropout, addictions, emotional instability, adaptive problems, among others (Canals et al., 2018; Kofler et al., 2013). Until now, it has not been possible to specify a neuropsychological profile that defines subjects with ADHD, beyond categorical definitions, since the evidence supports a high degree of heterogeneity at the neurophysiological (structural, functional) and cognitive levels, throughout the life cycle. (Halperin & Schulz, 2006; Hinshaw, 2018; Nigg et al., 2020).eng
dc.format.mimetypepdfspa
dc.identifier.urihttps://hdl.handle.net/20.500.12442/11294
dc.language.isospaspa
dc.publisherEdiciones Universidad Simón Bolívarspa
dc.publisherFacultad de Ciencias de la Saludspa
dc.rightsAttribution-NonCommercial-NoDerivatives 4.0 Internacionaleng
dc.rights.accessrightsinfo:eu-repo/semantics/restrictedAccessspa
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/4.0/
dc.subjectTDAHspa
dc.subjectInhibición de la respuestaspa
dc.subjectVariabilidad de los tiempos de reacciónspa
dc.subjectCorrelaciónspa
dc.subjectEdadspa
dc.subjectADHDeng
dc.subjectResponse inhibitioneng
dc.subjectReaction time variabilityeng
dc.subjectCorrelationeng
dc.subjectAgeeng
dc.titleRelación entre la variabilidad intra-individual de los tiempos de reacción (IIV-RT) y la inhibición de la respuesta en adolescentes y adultos con TDAH de la ciudad de Barranquillaspa
dc.type.driverinfo:eu-repo/semantics/masterThesisspa
dc.type.spaTrabajo de grado másterspa
dcterms.referencesAcosta, M. T., Arcos-Burgos, M., & Muenke, M. (2004). Attention deficit/hyperactivity disorder (ADHD): complex phenotype, simple genotype? Genet Med, 6(1), 1-15. https://doi.org/10.109701.GIM.0000110413.07490.0Beng
dcterms.referencesAcosta, M. T., Velez, J. I., Bustamante, M. L., Balog, J. Z., Arcos-Burgos, M., & Muenke, M. (2011). A two-locus genetic interaction between LPHN3 and 11q predicts ADHD severity and long-term outcome. Transl Psychiatry, 1, e17. https://doi.org/10.1038/tp.2011.14eng
dcterms.referencesAdamo, N., Hodsoll, J., Asherson, P., Buitelaar, J. K., & Kuntsi, J. (2019). Ex-Gaussian, frequency and reward analyses reveal specificity of reaction time fluctuations to ADHD and not autism traits. Journal of abnormal child psychology, 47(3), 557-567.eng
dcterms.referencesAdams, Z. W., Roberts, W. M., Milich, R., & Fillmore, M. T. (2011). Does response variability predict distractibility among adults with attention-deficit/hyperactivity disorder? Psychological assessment, 23(2), 427.eng
dcterms.referencesAdleman, N. E., Menon, V., Blasey, C. M., White, C. D., Warsofsky, I. S., Glover, G. H., & Reiss, A. L. (2002). A developmental fMRI study of the Stroop color-word task. Neuroimage, 16(1), 61-75.eng
dcterms.referencesAgarwal, R., Goldenberg, M., Perry, R., & Ishak, W. W. (2012). The quality of life of adults with attention deficit hyperactivity disorder: a systematic review. Innovations in clinical neuroscience, 9(5-6), 10.eng
dcterms.referencesAlbaugh, M. D., Orr, C., Chaarani, B., Althoff, R. R., Allgaier, N., D’Alberto, N., . . . Banaschewski, T. (2017). Inattention and reaction time variability are linked to ventromedial prefrontal volume in adolescents. Biological psychiatry, 82(9), 660-668.eng
dcterms.referencesAlbrecht, B., Brandeis, D., Uebel, H., Heinrich, H., Mueller, U. C., Hasselhorn, M., . . . Banaschewski, T. (2008). Action monitoring in boys with attention-deficit/hyperactivity disorder, their nonaffected siblings, and normal control subjects: evidence for an endophenotype. Biol Psychiatry, 64(7), 615-625. https://doi.org/10.1016/j.biopsych.2007.12.016eng
dcterms.referencesAlderson, R. M., Rapport, M. D., & Kofler, M. J. (2007). Attention-deficit/hyperactivity disorder and behavioral inhibition: a meta-analytic review of the stop-signal paradigm. Journal of Abnormal Child Psychology, 35(5), 745-758.eng
dcterms.referencesAmerican Psychiatric Association. (2013). Diagnostic and statistical manual of mental disorders (5 ed.). American Psychiatric Pub.eng
dcterms.referencesAmerican Psychiatric Association, A. (1980). Diagnostic and statistical manual of mental disorders (Vol. 3). American Psychiatric Association Washington, DC.eng
dcterms.referencesAnderson, S. W., Bechara, A., Damasio, H., Tranel, D., & Damasio, A. R. (1999). Impairment of social and moral behavior related to early damage in human prefrontal cortex. Nature neuroscience, 2(11), 1032-1037.eng
dcterms.referencesAndrews, G., Pine, D., Hobbs, M., Anderson, T., & Sunderland, M. (2009). Neurodevelopmental disorders: Cluster 2 of the proposed meta-structure for DSM-V and ICD-11: Paper 3 of 7 of the thematic section:‘A proposal for a meta-structure for DSM-V and ICD-11’. Psychological medicine, 39(12), 2013-2023.eng
dcterms.referencesAndrews, S., & Heathcote, A. (2001). Distinguishing common and task-specific processes in word identification: A matter of some moment? Journal of Experimental Psychology: Learning, Memory, and Cognition, 27(2), 514.eng
dcterms.referencesAnguera, J. A., & Gazzaley, A. (2012). Dissociation of motor and sensory inhibition processes in normal aging. Clinical Neurophysiology, 123(4), 730-740.eng
dcterms.referencesAntonini, T. N., Narad, M. E., Langberg, J. M., & Epstein, J. N. (2013). Behavioral correlates of reaction time variability in children with and without ADHD. Neuropsychology, 27(2), 201.eng
dcterms.referencesArcos-Burgos, M., Jain, M., Acosta, M. T., Shively, S., Stanescu, H., Wallis, D., . . . Muenke, M. (2010). A common variant of the latrophilin 3 gene, LPHN3, confers susceptibility to ADHD and predicts effectiveness of stimulant medication. Mol Psychiatry, 15(11), 1053-1066. https://doi.org/10.1038/mp.2010.6eng
dcterms.referencesArcos-Burgos, M., Velez, J. I., Martinez, A. F., Ribases, M., Ramos-Quiroga, J. A., Sanchez-Mora, C., . . . Muenke, M. (2019). ADGRL3 (LPHN3) variants predict substance use disorder. Transl Psychiatry, 9(1), 42. https://doi.org/10.1038/s41398-019-0396-7eng
dcterms.referencesArns, M., Clark, C. R., Trullinger, M., DeBeus, R., Mack, M., & Aniftos, M. (2020). Neurofeedback and attention-deficit/hyperactivity-disorder (ADHD) in children: Rating the evidence and proposed guidelines. Applied psychophysiology and biofeedback, 45(2), 39-48.eng
dcterms.referencesArtigas-Pallarés, J. (2009). Modelos cognitivos en el trastorno por déficit de atención/hiperactividad. Rev neurol, 49(11), 587-593.spa
dcterms.referencesAsherson, P., & Trzaskowski, M. (2015). Attention-deficit/hyperactivity disorder is the extreme and impairing tail of a continuum. Journal of the American Academy of Child and Adolescent Psychiatry, 54(4), 249-250.eng
dcterms.referencesAssociation, A. P. (1998). DSM IV: manual diagnóstico y estadístico de los trastornos mentales. In DSM IV: manual diagnóstico y estadístico de los trastornos mentales (pp. 907 p.-907 p.).spa
dcterms.referencesAston-Jones, G., Iba, M., Clayton, E., Rajkowski, J., & Cohen, J. (2007). The locus coeruleus and regulation of behavioral flexibility and attention: clinical implications.eng
dcterms.referencesAston-Jones, G., Rajkowski, J., & Cohen, J. (2000). Locus coeruleus and regulation of behavioral flexibility and attention. Progress in brain research, 126, 165-182.eng
dcterms.referencesAydmune, Y., Lipina, S., & Introzzi, I. (2020). Resistencia a la interferencia de distractores: diseño y aplicación de una tarea de entrenamiento para niños. Acta de investigación psicológica, 10(1), 5-22.spa
dcterms.referencesBaayen, R. H., & Milin, P. (2010). Analyzing reaction times. International Journal of Psychological Research, 3(2), 12-28.eng
dcterms.referencesBalota, D. A., & Spieler, D. H. (1999). Word frequency, repetition, and lexicality effects in word recognition tasks: Beyond measures of central tendency. Journal of Experimental Psychology: General, 128(1), 32.eng
dcterms.referencesBalota, D. A., & Yap, M. J. (2011). Moving beyond the mean in studies of mental chronometry: The power of response time distributional analyses. Current Directions in Psychological Science, 20(3), 160-166.eng
dcterms.referencesBarbas, H., & Pandya, D. (1989). Architecture and intrinsic connections of the prefrontal cortex in the rhesus monkey. Journal of Comparative Neurology, 286(3), 353-375.eng
dcterms.referencesBarkley, R. A. (1997). ADHD and the nature of self-control. Guilford Press.eng
dcterms.referencesBarkley, R. A. (1997). Behavioral inhibition, sustained attention, and executive functions: constructing a unifying theory of ADHD. Psychol Bull, 121(1), 65-94. https://doi.org/10.1037/0033-2909.121.1.65eng
dcterms.referencesBarkley, R. A. (1998a). A theory of ADHD: Inhibition, executive functions, self-control, and time. In Attention-deficit hyperactivity disorder: a handbook for diagnosis and treatment (pp. 225-260).eng
dcterms.referencesBarkley, R. A. (1998b). Attention-deficit hyperactivity disorder. Scientific American, 279(3), 66-71.eng
dcterms.referencesBarkley, R. A. (2004). Adolescents with attention-deficit/hyperactivity disorder: An overview of empirically based treatments. Journal of Psychiatric Practice®, 10(1), 39-56.eng
dcterms.referencesBarkley, R. A. (2015a). Educational, occupational, dating and marital, and financial impairments in adults with ADHD.eng
dcterms.referencesBarkley, R. A. (2015b). Emotional dysregulation is a core component of ADHD.eng
dcterms.referencesBarkley, R. A., DuPaul, G. J., & McMurray, M. B. (1990). Comprehensive evaluation of attention deficit disorder with and without hyperactivity as defined by research criteria. Journal of consulting and clinical psychology, 58(6), 775.eng
dcterms.referencesBarkley, R. A., Fischer, M., Edelbrock, C., & Smallish, L. (1991). The adolescent outcome of hyperactive children diagnosed by research criteria—III. Mother–child interactions, family conflicts and maternal psychopathology. Journal of Child Psychology and Psychiatry, 32(2), 233-255.eng
dcterms.referencesBarkley, R. A., Fischer, M., Edelbrock, C. S., & Smallish, L. (1990). The adolescent outcome of hyperactive children diagnosed by research criteria: I. An 8-year prospective follow-up study. Journal of the American Academy of Child & Adolescent Psychiatry, 29(4), 546-557.eng
dcterms.referencesBarkley, R. A., & Murphy, K. R. (2010). Impairment in occupational functioning and adult ADHD: the predictive utility of executive function (EF) ratings versus EF tests. Archives of clinical neuropsychology, 25(3), 157-173.eng
dcterms.referencesBarkley, R. A., Murphy, K. R., & Fischer, M. (2010). ADHD in adults: What the science says. Guilford Press.eng
dcterms.referencesBartrim, K., McCarthy, B., McCartney, D., Grant, G., Desbrow, B., & Irwin, C. (2020). Three consecutive nights of sleep loss: effects of morning caffeine consumption on subjective sleepiness/alertness, reaction time and simulated driving performance. Transportation research part F: traffic psychology and behaviour, 70, 124-134.eng
dcterms.referencesBasoudan, N., Torrens-Burton, A., Jenkins, A., Thornton, I. M., Hanley, C., Tree, J. J., . . . Tales, A. (2019). Sequential Information Processing: The" Elevated First Response Effect" Can Contribute to Exaggerated Intra-Individual Variability in Older Adults. The Yale journal of biology and medicine, 92(1), 13-20.eng
dcterms.referencesBayless, D. W., Darling, J. S., Stout, W. J., & Daniel, J. M. (2012). Sex differences in attentional processes in adult rats as measured by performance on the 5-choice serial reaction time task. Behav Brain Res, 235(1), 48-54.eng
dcterms.referencesBédard, A.-C. V., Trampush, J. W., Newcorn, J. H., & Halperin, J. M. (2010). Perceptual and motor inhibition in adolescents/young adults with childhood-diagnosed ADHD. Neuropsychology, 24(4), 424.eng
dcterms.referencesBellgrove, M. A., Hawi, Z., Kirley, A., Gill, M., & Robertson, I. H. (2005). Dissecting the attention deficit hyperactivity disorder (ADHD) phenotype: sustained attention, response variability and spatial attentional asymmetries in relation to dopamine transporter (DAT1) genotype. Neuropsychologia, 43(13), 1847-1857.eng
dcterms.referencesBellgrove, M. A., Hester, R., & Garavan, H. (2004). The functional neuroanatomical correlates of response variability: evidence from a response inhibition task. Neuropsychologia, 42(14), 1910-1916.eng
dcterms.referencesBerberat, J., Huggenberger, R., Montali, M., Gruber, P., Pircher, A., Lövblad, K.-O., . . . Remonda, L. (2021). Brain activation patterns in medicated versus medication-naïve adults with attention-deficit hyperactivity disorder during fMRI tasks of motor inhibition and cognitive switching. BMC Medical Imaging, 21(1), 1-12.eng
dcterms.referencesBidwell, L. C., Willcutt, E. G., McQueen, M. B., DeFries, J. C., Olson, R. K., Smith, S. D., & Pennington, B. F. (2011). A family based association study of DRD4, DAT1, and 5HTT and continuous traits of attention-deficit hyperactivity disorder. Behavior Genetics, 41(1), 165-174.eng
dcterms.referencesBiederman, J., Mick, E., & Faraone, S. V. (2000). Age-dependent decline of symptoms of attention deficit hyperactivity disorder: impact of remission definition and symptom type. American Journal of Psychiatry, 157(5), 816-818.eng
dcterms.referencesBlough, D. S. (1988). Quantitative relations between visual search speed and target-distractor similarity. Perception & Psychophysics, 43(1), 57-71.eng
dcterms.referencesBlough, D. S. (1989). Contrast as seen in visual search reaction times. Journal of the experimental analysis of behavior, 52(3), 199-211.eng
dcterms.referencesBluschke, A., Chmielewski, W. X., Mückschel, M., Roessner, V., & Beste, C. (2017). Neuronal intra-individual variability masks response selection differences between ADHD subtypes—A need to change perspectives. Frontiers in Human Neuroscience, 11, 329.eng
dcterms.referencesBluschke, A., Schuster, J., Roessner, V., & Beste, C. (2018). Neurophysiological mechanisms of interval timing dissociate inattentive and combined ADHD subtypes. Scientific Reports, 8(1), 1-10.eng
dcterms.referencesBoesveldt, S., Frasnelli, J., Gordon, A., & Lundström, J. (2010). The fish is bad: negative food odors elicit faster and more accurate reactions than other odors. Biological psychology, 84(2), 313-317.eng
dcterms.referencesBollmann, S., Ghisleni, C., Poil, S.-S., Martin, E., Ball, J., Eich-Höchli, D., . . . Brandeis, D. (2017). Age-dependent and-independent changes in attention-deficit/hyperactivity disorder (ADHD) during spatial working memory performance. The World Journal of Biological Psychiatry, 18(4), 279-290.eng
dcterms.referencesBonath, B., Tegelbeckers, J., Wilke, M., Flechtner, H.-H., & Krauel, K. (2018). Regional gray matter volume differences between adolescents with ADHD and typically developing controls: further evidence for anterior cingulate involvement. Journal of attention disorders, 22(7), 627-638.eng
dcterms.referencesBörger, N., & van der Meere, J. (2000). Visual behaviour of ADHD children during an attention test: An almost forgotten variable. The Journal of Child Psychology and Psychiatry and Allied Disciplines, 41(4), 525-532.eng
dcterms.referencesBoyer, B. E., Geurts, H. M., Prins, P. J., & Van der Oord, S. (2015). Two novel CBTs for adolescents with ADHD: the value of planning skills. European child & adolescent psychiatry, 24(9), 1075-1090.eng
dcterms.referencesBoyer, B. E., Geurts, H. M., & Van der Oord, S. (2018). Planning skills of adolescents with ADHD. Journal of attention disorders, 22(1), 46-57.eng
dcterms.referencesBrebner, J., & Welford, A. T. (1980). Introduction: an historical background sketch. Reaction times.eng
dcterms.referencesBresnahan, S. M., Anderson, J. W., & Barry, R. J. (1999). Age-related changes in quantitative EEG in attention-deficit/hyperactivity disorder. Biol Psychiatry, 46(12), 1690-1697.eng
dcterms.referencesBrikell, I., Larsson, H., Lu, Y., Pettersson, E., Chen, Q., Kuja-Halkola, R., . . . Martin, J. (2020). The contribution of common genetic risk variants for ADHD to a general factor of childhood psychopathology. Molecular psychiatry, 25(8), 1809-1821.eng
dcterms.referencesBroadbent, D. (1971). Decision and stress Academic Press. London New York.eng
dcterms.referencesBrocki, K. C., Nyberg, L., Thorell, L. B., & Bohlin, G. (2007). Early concurrent and longitudinal symptoms of ADHD and ODD: Relations to different types of inhibitory control and working memory. Journal of Child Psychology and Psychiatry, 48(10), 1033-1041.eng
dcterms.referencesBronowski, J. (1977). Human and animal languages. A sense of the future (pp. 104-131). In: Cambridge, MA: MIT Press.eng
dcterms.referencesBrookes, K.-J., Mill, J., Guindalini, C., Curran, S., Xu, X., Knight, J., . . . Taylor, E. (2006). A common haplotype of the dopamine transporter gene associated with attention-deficit/hyperactivity disorder and interacting with maternal use of alcohol during pregnancy. Archives of general psychiatry, 63(1), 74-81.eng
dcterms.referencesBrown, S. D., & Heathcote, A. (2008). The simplest complete model of choice response time: Linear ballistic accumulation. Cognitive psychology, 57(3), 153-178.eng
dcterms.referencesBruxel, E. M., Salatino-Oliveira, A., Akutagava-Martins, G. C., Tovo-Rodrigues, L., Genro, J. P., Zeni, C. P., . . . Hutz, M. H. (2015). LPHN3 and attention-deficit/hyperactivity disorder: a susceptibility and pharmacogenetic study. Genes Brain Behav, 14(5), 419-427. https://doi.org/10.1111/gbb.12224eng
dcterms.referencesBunge, S. A., Dudukovic, N. M., Thomason, M. E., Vaidya, C. J., & Gabrieli, J. D. (2002). Immature frontal lobe contributions to cognitive control in children: evidence from fMRI. Neuron, 33(2), 301-311.eng
dcterms.referencesBush, G., Valera, E. M., & Seidman, L. J. (2005). Functional neuroimaging of attention-deficit/hyperactivity disorder: a review and suggested future directions. Biological psychiatry, 57(11), 1273-1284.eng
dcterms.referencesBuzy, W. M., Medoff, D. R., & Schweitzer, J. B. (2009). Intra-individual variability among children with ADHD on a working memory task: an ex-Gaussian approach. Child Neuropsychology, 15(5), 441-459.eng
dcterms.referencesCaballero, A., Granberg, R., & Tseng, K. Y. (2016). Mechanisms contributing to prefrontal cortex maturation during adolescence. Neuroscience & Biobehavioral Reviews, 70, 4-12.eng
dcterms.referencesCahill, B. S., Coolidge, F. L., Segal, D. L., Klebe, K. J., Marle, P. D., & Overmann, K. A. (2012). Prevalence of ADHD and its subtypes in male and female adult prison inmates. Behavioral Sciences & the Law, 30(2), 154-166.eng
dcterms.referencesCamacho-Conde, J. A., & Climent, G. (2020). Attentional profile of adolescents with ADHD in virtual-reality dual execution tasks: A pilot study. Applied Neuropsychology: Child, 1-10.eng
dcterms.referencesCampbell, S. B., Halperin, J. M., & Sonuga-Barke, E. J. (2014). A developmental perspective on attention-deficit/hyperactivity disorder (ADHD). In Handbook of developmental psychopathology (pp. 427-448). Springer.eng
dcterms.referencesCanals, J., Morales-Hidalgo, P., Jané, M. C., & Domènech, E. (2018). ADHD prevalence in Spanish preschoolers: comorbidity, socio-demographic factors, and functional consequences. Journal of attention disorders, 22(2), 143-153.eng
dcterms.referencesCanu, W. H., & Carlson, C. L. (2007). Rejection sensitivity and social outcomes of young adult men with ADHD. Journal of attention disorders, 10(3), 261-275.eng
dcterms.referencesCarr, L. A., Nigg, J. T., & Henderson, J. M. (2006). Attentional versus motor inhibition in adults with attention-deficit/hyperactivity disorder. Neuropsychology, 20(4), 430.eng
dcterms.referencesCastellanos, F. X. (2001). Neural substrates of attention-deficit hyperactivity disorder. Advances in Neurology, 85, 197-206.eng
dcterms.referencesCastellanos, F. X., Giedd, J. N., Marsh, W. L., Hamburger, S. D., Vaituzis, A. C., Dickstein, D. P., . . . Rapoport, J. L. (1996). Quantitative brain magnetic resonance imaging in attention-deficit hyperactivity disorder. Arch Gen Psychiatry, 53(7), 607-616.eng
dcterms.referencesCastellanos, F. X., Margulies, D. S., Kelly, C., Uddin, L. Q., Ghaffari, M., Kirsch, A., . . . Biswal, B. (2008). Cingulate-precuneus interactions: a new locus of dysfunction in adult attention-deficit/hyperactivity disorder. Biological psychiatry, 63(3), 332-337.eng
dcterms.referencesCastellanos, F. X., Sonuga-Barke, E. J., Milham, M. P., & Tannock, R. (2006). Characterizing cognition in ADHD: beyond executive dysfunction. Trends in cognitive sciences, 10(3), 117-123.eng
dcterms.referencesCastellanos, F. X., Sonuga-Barke, E. J., Milham, M. P., & Tannock, R. (2006a). Executive function: is there a central executive? Trends in cognitive sciences, 3(10), 117-123.eng
dcterms.referencesCastellanos, F. X., Sonuga-Barke, E. J., Milham, M. P., & Tannock, R. (2006b). Characterizing cognition in ADHD: beyond executive dysfunction. Trends in cognitive sciences, 10(3), 117-123.eng
dcterms.referencesCastellanos, F. X., Sonuga-Barke, E. J., Scheres, A., Di Martino, A., Hyde, C., & Walters, J. R. (2005). Varieties of attention-deficit/hyperactivity disorder-related intra-individual variability. Biological psychiatry, 57(11), 1416-1423.eng
dcterms.referencesCastellanos, F. X., & Tannock, R. (2002). Neuroscience of attention-deficit/hyperactivity disorder: the search for endophenotypes. Nat Rev Neurosci, 3(8), 617-628. https://doi.org/10.1038/nrn896eng
dcterms.referencesCastellanos, F. X., & Tannock, R. (2002). Neuroscience of attention-deficit/hyperactivity disorder: the search for endophenotypes. Nature Reviews Neuroscience, 3(8), 617-628. https://doi.org/10.1038/nrn896eng
dcterms.referencesCervantes-Henríquez, M. L., Acosta-López, J. E., Martinez, A. F., Arcos-Burgos, M., Puentes-Rozo, P. J., & Vélez, J. I. (2022). Machine learning prediction of ADHD severity: association and linkage to ADGRL3, DRD4, and SNAP25. Journal of attention disorders, 26(4), 587-605.eng
dcterms.referencesCervantes-Henríquez, M. L., Acosta-López, J. E., Martínez-Banfi, M. L., Vélez, J. I., Mejía-Segura, E., Lozano-Gutiérrez, S. G., . . . Puentes-Rozo, P. J. (2018). ADHD Endophenotypes in Caribbean Families. Journal of attention disorders, 1087054718763741. https://doi.org/10.1177/1087054718763741eng
dcterms.referencesChelune, G. J., Ferguson, W., Koon, R., & Dickey, T. (1986). Frontal lobe disinhibition in attention deficit disorder. Child Psychiatry and Human Development, 16(4), 221-234.eng
dcterms.referencesChen, W., Zhou, K., Sham, P., Franke, B., Kuntsi, J., Campbell, D., . . . Arnold, R. (2008). DSM‐IV combined type ADHD shows familial association with sibling trait scores: A sampling strategy for QTL linkage. American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 147(8), 1450-1460.eng
dcterms.referencesCheung, C. H., Rijsdijk, F., McLoughlin, G., Brandeis, D., Banaschewski, T., Asherson, P., & Kuntsi, J. (2016). Cognitive and neurophysiological markers of ADHD persistence and remission. The British Journal of Psychiatry, 208(6), 548-555.eng
dcterms.referencesChhabildas, N., Pennington, B. F., & Willcutt, E. G. (2001). A comparison of the neuropsychological profiles of the DSM-IV subtypes of ADHD. Journal of Abnormal Child Psychology, 29(6), 529-540.eng
dcterms.referencesChrist, B. U., Combrinck, M. I., & Thomas, K. G. (2018). Both reaction time and accuracy measures of intraindividual variability predict cognitive performance in Alzheimer's disease. Frontiers in Human Neuroscience, 12, 124.eng
dcterms.referencesClerkin, S. M., Schulz, K. P., Berwid, O. G., Fan, J., Newcorn, J. H., Tang, C. Y., & Halperin, J. M. (2013). Thalamo-cortical activation and connectivity during response preparation in adults with persistent and remitted ADHD. American Journal of Psychiatry, 170(9), 1011-1019.eng
dcterms.referencesConners, C. K., Epstein, J. N., Angold, A., & Klaric, J. (2003). Continuous performance test performance in a normative epidemiological sample. Journal of Abnormal Child Psychology, 31(5), 555-562.eng
dcterms.referencesCornejo, J., Osío, O., Sánchez, Y., Carrizosa, J., Sánchez, G., Grisales, H., . . . Holguín, J. (2005). Prevalencia del trastorno por déficit de atención-hiperactividad en niños y adolescentes colombianos. Rev neurol, 40(12), 716-722.spa
dcterms.referencesCortese, S., Ferrin, M., Brandeis, D., Buitelaar, J., Daley, D., Dittmann, R. W., . . . Stringaris, A. (2015). Cognitive training for attention-deficit/hyperactivity disorder: meta-analysis of clinical and neuropsychological outcomes from randomized controlled trials. Journal of the American Academy of Child & Adolescent Psychiatry, 54(3), 164-174.eng
dcterms.referencesCortese, S., Imperati, D., Zhou, J., Proal, E., Klein, R. G., Mannuzza, S., . . . Castellanos, F. X. (2013). White matter alterations at 33-year follow-up in adults with childhood attention-deficit/hyperactivity disorder. Biological psychiatry, 74(8), 591-598.eng
dcterms.referencesCoyle, T. R. (2003). A review of the worst performance rule: Evidence, theory, and alternative hypotheses. Intelligence, 31(6), 567-587.eng
dcterms.referencesCrosbie, J., Arnold, P., Paterson, A., Swanson, J., Dupuis, A., Li, X., . . . Strug, L. (2013). Response inhibition and ADHD traits: correlates and heritability in a community sample. Journal of Abnormal Child Psychology, 41(3), 497-507.eng
dcterms.referencesD Palacio, J., Castellanos, F. X., Pineda, D. A., Lopera, F., Arcos-Burgos, M., Yakeel, T. Q., . . . Rapoport, J. L. (2004). Attention-deficit/hyperactivity disorder and comorbidities in 18 Paisa Colombian multigenerational families. Journal of the American Academy of Child & Adolescent Psychiatry, 43(12), 1506-1515.eng
dcterms.referencesDai, D., Wang, J., Hua, J., & He, H. (2012). Classification of ADHD children through multimodal magnetic resonance imaging. Front Syst Neurosci, 6, 63. https://doi.org/10.3389/fnsys.2012.00063eng
dcterms.referencesDamasio, A. R. (1995). On Some Functions of the Human Prefrontal Cortex a. Annals of the New York Academy of Sciences, 769(1), 241-252.eng
dcterms.referencesDassanayake, T. L., Michie, P. T., Jones, A., Carter, G., Mallard, T., & Whyte, I. (2012). Cognitive impairment in patients clinically recovered from central nervous system depressant drug overdose. Journal of Clinical Psychopharmacology, 32(4), 503-510.eng
dcterms.referencesDawson, M. R. (1988). Fitting the ex-Gaussian equation to reaction time distributions. Behavior Research Methods, Instruments, & Computers, 20(1), 54-57.eng
dcterms.referencesDe Luca, M., Beckmann, C. F., De Stefano, N., Matthews, P. M., & Smith, S. M. (2006). fMRI resting state networks define distinct modes of long-distance interactions in the human brain. Neuroimage, 29(4), 1359-1367.eng
dcterms.referencesDe Sonneville, L. (1999). Amsterdam Neuropsychological Tasks: A computer-aided assessment. Cognitive ergonomics, clinical assessment and computer-assisted learning, 6, 187.eng
dcterms.referencesDeary, I. J., Der, G., & Ford, G. (2001). Reaction times and intelligence differences: A population-based cohort study. Intelligence, 29(5), 389-399.eng
dcterms.referencesDeiber, M.-P., Hasler, R., Colin, J., Dayer, A., Aubry, J.-M., Baggio, S., . . . Ros, T. (2020). Linking alpha oscillations, attention and inhibitory control in adult ADHD with EEG neurofeedback. NeuroImage: Clinical, 25, 102145.eng
dcterms.referencesDempster, F. N. (1993). Resistance to interference: Developmental changes in a basic processing mechanism. In Emerging themes in cognitive development (pp. 3-27). Springer.eng
dcterms.referencesDenckla, M. (1996). Research on executive function in a neurodevelopmental context: Application of clinical measures. Developmental Neuropsychology, 12(1), 5-15. https://doi.org/10.1080/87565649609540637eng
dcterms.referencesDer, G., & Deary, I. J. (2003). IQ, reaction time and the differentiation hypothesis. Intelligence, 31(5), 491-503.eng
dcterms.referencesDeRight, J. (2019). History of “frontal” syndromes and executive dysfunction. A History of Neuropsychology, 44, 100-107.eng
dcterms.referencesDi Martino, A., Ghaffari, M., Curchack, J., Reiss, P., Hyde, C., Vannucci, M., . . . Castellanos, F. X. (2008). Decomposing intra-subject variability in children with attention-deficit/hyperactivity disorder. Biological psychiatry, 64(7), 607-614.eng
dcterms.referencesDias, T. G. C., Iyer, S. P., Carpenter, S. D., Cary, R. P., Wilson, V. B., Mitchell, S. H., . . . Fair, D. A. (2015). Characterizing heterogeneity in children with and without ADHD based on reward system connectivity. Developmental cognitive neuroscience, 11, 155-174.eng
dcterms.referencesDias, T. G. C., Wilson, V. B., Bathula, D. R., Iyer, S. P., Mills, K. L., Thurlow, B. L., . . . Grayson, D. S. (2013). Reward circuit connectivity relates to delay discounting in children with attention-deficit/hyperactivity disorder. European Neuropsychopharmacology, 23(1), 33-45.eng
dcterms.referencesDick, D. M. (2018). Mapping risk from genes to behavior: the enduring and evolving influence of Irving Gottesman's endophenotype concept. Twin Research and Human Genetics, 21(4), 306-309.eng
dcterms.referencesDoebler, P., & Scheffler, B. (2016). The relationship of choice reaction time variability and intelligence: A meta-analysis. Learning and Individual Differences, 52, 157-166.eng
dcterms.referencesDörrenbächer, S., & Kray, J. (2019). Impairments in resource allocation and executive control in children with ADHD. Clinical child psychology and psychiatry, 24(3), 462-481.eng
dcterms.referencesDouglas, V. (1972). Stop, look and listen: The problem of sustained attention and impulse control in hyperactive and normal children. Canadian Journal of Behavioural Science/Revue canadienne des sciences du comportement, 4(4), 259.eng
dcterms.referencesDouglas, V. (1983). Attention and cognitive problems. Developmental neuropsychiatry, 280-329.eng
dcterms.referencesDykiert, D., Der, G., Starr, J. M., & Deary, I. J. (2012a). Age differences in intra-individual variability in simple and choice reaction time: systematic review and meta-analysis. PloS one, 7(10), e45759.eng
dcterms.referencesDykiert, D., Der, G., Starr, J. M., & Deary, I. J. (2012b). Sex differences in reaction time mean and intraindividual variability across the life span. Developmental psychology, 48(5), 1262.eng
dcterms.referencesEgeland, J., & Kovalik-Gran, I. (2010). Validity of the factor structure of Conners’ CPT. Journal of attention disorders, 13(4), 347-357.eng
dcterms.referencesEpstein, J. N., Brinkman, W. B., Froehlich, T., Langberg, J. M., Narad, M. E., Antonini, T. N., . . . Altaye, M. (2011). Effects of stimulant medication, incentives, and event rate on reaction time variability in children with ADHD. Neuropsychopharmacology, 36(5), 1060-1072.eng
dcterms.referencesEpstein, J. N., Erkanli, A., Conners, C. K., Klaric, J., Costello, J. E., & Angold, A. (2003). Relations between continuous performance test performance measures and ADHD behaviors. Journal of Abnormal Child Psychology, 31(5), 543-554.eng
dcterms.referencesEpstein, J. N., Hwang, M. E., Antonini, T., Langberg, J. M., Altaye, M., & Arnold, L. E. (2010). Examining predictors of reaction times in children with ADHD and normal controls. Journal of the International Neuropsychological Society, 16(1), 138-147.eng
dcterms.referencesEpstein, J. N., Keith Conners, C., Hervey, A. S., Tonev, S. T., Eugene Arnold, L., Abikoff, H. B., . . . Hoagwood, K. (2006). Assessing medication effects in the MTA study using neuropsychological outcomes. Journal of Child Psychology and Psychiatry, 47(5), 446-456.eng
dcterms.referencesEpstein, J. N., Langberg, J. M., Rosen, P. J., Graham, A., Narad, M. E., Antonini, T. N., . . . Altaye, M. (2011b). Evidence for higher reaction time variability for children with ADHD on a range of cognitive tasks including reward and event rate manipulations. Neuropsychology, 25(4), 427-441. https://doi.org/10.1037/a0022155eng
dcterms.referencesEslinger, P. J., Grattan, L. M., Damasio, H., & Damasio, A. R. (1992). Developmental consequences of childhood frontal lobe damage. Archives of Neurology, 49(7), 764-769.eng
dcterms.referencesEvans, S. W., Owens, J. S., & Bunford, N. (2014). Evidence-based psychosocial treatments for children and adolescents with attention-deficit/hyperactivity disorder. Journal of Clinical Child & Adolescent Psychology, 43(4), 527-551.eng
dcterms.referencesEvans, S. W., Schultz, B. K., White, L. C., Brady, C., Sibley, M. H., & Van Eck, K. (2009). A school-based organization intervention for young adolescents with attention-deficit/hyperactivity disorder. School Mental Health, 1(2), 78-88.eng
dcterms.referencesFabio, R. A., & Caprì, T. (2017). The executive functions in a sample of Italian adults with ADHD: Attention, response inhibition and planning/organization. Mediterranean Journal of Clinical Psychology, 5(3).eng
dcterms.referencesFair, D., Nigg, J. T., Iyer, S., Bathula, D., Mills, K. L., Dosenbach, N. U., . . . Bangaru, S. (2013). Distinct neural signatures detected for ADHD subtypes after controlling for micro-movements in resting state functional connectivity MRI data. Frontiers in systems neuroscience, 6, 80.eng
dcterms.referencesFair, D. A., Bathula, D., Nikolas, M. A., & Nigg, J. T. (2012). Distinct neuropsychological subgroups in typically developing youth inform heterogeneity in children with ADHD. Proceedings of the National Academy of Sciences, 109(17), 6769-6774.eng
dcterms.referencesFair, D. A., Posner, J., Nagel, B. J., Bathula, D., Dias, T. G. C., Mills, K. L., . . . Nigg, J. T. (2010). Atypical default network connectivity in youth with attention-deficit/hyperactivity disorder. Biological psychiatry, 68(12), 1084-1091.eng
dcterms.referencesFallgatter, A. J., Ehlis, A. C., Dresler, T., Reif, A., Jacob, C. P., Arcos-Burgos, M., . . . Lesch, K. P. (2013). Influence of a latrophilin 3 (LPHN3) risk haplotype on event-related potential measures of cognitive response control in attention-deficit hyperactivity disorder (ADHD). Eur Neuropsychopharmacol, 23(6), 458-468. https://doi.org/10.1016/j.euroneuro.2012.11.001eng
dcterms.referencesFan, J., McCandliss, B. D., Sommer, T., Raz, A., & Posner, M. I. (2002). Testing the efficiency and independence of attentional networks. Journal of cognitive neuroscience, 14(3), 340-347.eng
dcterms.referencesFaraone, S. V., Biederman, J., Feighner, J. A., & Monuteaux, M. C. (2000a). Assessing symptoms of attention deficit hyperactivity disorder in children and adults: which is more valid? Journal of Consulting and Clinical Psychology, 68(5), 830.eng
dcterms.referencesFaraone, S. V., Biederman, J., & Monuteaux, M. C. (2000). Attention-deficit disorder and conduct disorder in girls: evidence for a familial subtype. Biological psychiatry, 48(1), 21-29.eng
dcterms.referencesFaraone, S. V., Biederman, J., & Monuteaux, M. C. (2000b). Toward guidelines for pedigree selection in genetic studies of attention deficit hyperactivity disorder. Genetic Epidemiology: The Official Publication of the International Genetic Epidemiology Society, 18(1), 1-16.eng
dcterms.referencesFaraone, S. V., Bonvicini, C., & Scassellati, C. (2014). Biomarkers in the diagnosis of ADHD–promising directions. Current psychiatry reports, 16(11), 1-20.eng
dcterms.referencesFaraone, S. V., Perlis, R. H., Doyle, A. E., Smoller, J. W., Goralnick, J. J., Holmgren, M. A., & Sklar, P. (2005). Molecular genetics of attention-deficit/hyperactivity disorder. Biological psychiatry, 57(11), 1313-1323.eng
dcterms.referencesFarooq, R., Emerson, L.-M., Keoghan, S., & Adamou, M. (2016). Prevalence of adult ADHD in an all-female prison unit. ADHD Attention Deficit and Hyperactivity Disorders, 8(2), 113-119.eng
dcterms.referencesFassbender, C., Zhang, H., Buzy, W. M., Cortes, C. R., Mizuiri, D., Beckett, L., & Schweitzer, J. B. (2009). A lack of default network suppression is linked to increased distractibility in ADHD. Brain research, 1273, 114-128.eng
dcterms.referencesFayyad, J., Sampson, N. A., Hwang, I., Adamowski, T., Aguilar-Gaxiola, S., Al-Hamzawi, A., . . . Florescu, S. (2017). The descriptive epidemiology of DSM-IV Adult ADHD in the world health organization world mental health surveys. ADHD Attention Deficit and Hyperactivity Disorders, 9(1), 47-65.eng
dcterms.referencesFeige, B., Biscaldi, M., Saville, C. W., Kluckert, C., Bender, S., Ebner-Priemer, U., . . . Klein, C. (2013). On the temporal characteristics of performance variability in attention deficit hyperactivity disorder (ADHD). PloS one, 8(10), e69674.eng
dcterms.referencesFilipek, P. A., Semrud-Clikeman, M., Steingard, R. J., Renshaw, P. F., Kennedy, D. N., & Biederman, J. (1997). Volumetric MRI analysis comparing subjects having attention-deficit hyperactivity disorder with normal controls. Neurology, 48(3), 589-601. https://doi.org/10.1212/wnl.48.3.589eng
dcterms.referencesFinke, K., Schwarzkopf, W., Müller, U., Frodl, T., Müller, H. J., Schneider, W. X., . . . Hennig-Fast, K. (2011). Disentangling the adult attention-deficit hyperactivity disorder endophenotype: Parametric measurement of attention. Journal of Abnormal Psychology, 120(4), 890.eng
dcterms.referencesFitousi, D. (2015). Composite faces are not processed holistically: Evidence from the Garner and redundant target paradigms. Attention, Perception, & Psychophysics, 77(6), 2037-2060.eng
dcterms.referencesFitousi, D. (2020). Linking the ex-Gaussian parameters to cognitive stages: Insights from the linear ballistic accumulator (LBA) model. The Quantitative Methods for Psychology, 16, 91-106.eng
dcterms.referencesFitousi, D., & Wenger, M. J. (2013). Variants of independence in the perception of facial identity and expression. Journal of Experimental Psychology: Human perception and performance, 39(1), 133.eng
dcterms.referencesFjell, A. M., Westlye, L. T., Amlien, I. K., & Walhovd, K. B. (2011). Reduced white matter integrity is related to cognitive instability. Journal of Neuroscience, 31(49), 18060-18072.eng
dcterms.referencesForstmann, B. U., Ratcliff, R., & Wagenmakers, E.-J. (2016). Sequential sampling models in cognitive neuroscience: Advantages, applications, and extensions. Annual review of psychology, 67, 641-666.eng
dcterms.referencesFosco, W. D., Rosch, K. S., Waxmonsky, J. G., Pelham Jr, W. E., & Hawk Jr, L. W. (2021). Baseline performance moderates stimulant effects on cognition in youth with ADHD. Experimental and clinical psychopharmacology, 29(4), 302.eng
dcterms.referencesFox, M. D., Snyder, A. Z., Vincent, J. L., Corbetta, M., Van Essen, D. C., & Raichle, M. E. (2005). The human brain is intrinsically organized into dynamic, anticorrelated functional networks. Proceedings of the National Academy of Sciences, 102(27), 9673-9678.eng
dcterms.referencesFrancx, W., Llera, A., Mennes, M., Zwiers, M. P., Faraone, S. V., Oosterlaan, J., . . . Franke, B. (2016). Integrated analysis of gray and white matter alterations in attention-deficit/hyperactivity disorder. NeuroImage: Clinical, 11, 357-367.eng
dcterms.referencesFrancx, W., Oldehinkel, M., Oosterlaan, J., Heslenfeld, D., Hartman, C. A., Hoekstra, P. J., . . . Mennes, M. (2015). The executive control network and symptomatic improvement in attention-deficit/hyperactivity disorder. Cortex, 73, 62-72.eng
dcterms.referencesFrazier‐Wood, A. C., Bralten, J., Arias‐Vasquez, A., Luman, M., Ooterlaan, J., Sergeant, J., . . . Kuntsi, J. (2012). Neuropsychological intra‐individual variability explains unique genetic variance of ADHD and shows suggestive linkage to chromosomes 12, 13, and 17. American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 159(2), 131-140.eng
dcterms.referencesFredriksen, M., Egeland, J., Haavik, J., & Fasmer, O. B. (2021). Individual variability in reaction time and prediction of clinical response to methylphenidate in adult ADHD: a prospective open label study using conners’ continuous performance test II. Journal of attention disorders, 25(5), 657-671.eng
dcterms.referencesFuermaier, A. B., Fricke, J. A., de Vries, S. M., Tucha, L., & Tucha, O. (2019). Neuropsychological assessment of adults with ADHD: a Delphi consensus study. Applied Neuropsychology: Adult, 26(4), 340-354.eng
dcterms.referencesFuermaier, A. B., Tucha, L., Koerts, J., Aschenbrenner, S., Weisbrod, M., Lange, K. W., & Tucha, O. (2013). Source discrimination in adults with attention deficit hyperactivity disorder. PloS one, 8(5).eng
dcterms.referencesFuster, J. M. (1995). Memory and planning: Two temporal perspectives of frontal lobe function.eng
dcterms.referencesFuster, J. M. (2002). Frontal lobe and cognitive development. Journal of neurocytology, 31(3), 373-385.eng
dcterms.referencesFuster, J. n. M. (1997). Network memory. Trends in neurosciences, 20(10), 451-459.eng
dcterms.referencesGalloway-Long, H., & Huang-Pollock, C. (2018). Using inspection time and ex-Gaussian parameters of reaction time to predict executive functions in children with ADHD. Intelligence, 69, 186-194.eng
dcterms.referencesGalton, F. (1890). Exhibition of instruments (1) for testing perception of differences of tint, and (2) for determining reaction-time. The Journal of the Anthropological Institute of Great Britain and Ireland, 19, 27-29.eng
dcterms.referencesGarcía, M. A. (1984). El tiempo de reacción como variable dependiente: algunas cuestiones de procedimiento experimental. Anales de Psicología/Annals of Psychology, 1, 209-224.spa
dcterms.referencesGarner, W. R., Hake, H. W., & Eriksen, C. W. (1956). Operationism and the concept of perception. Psychological review, 63(3), 149.eng
dcterms.referencesGasser, T., Jennen-Steinmetz, C., Sroka, L., Verleger, R., & Möcks, J. (1988). Development of the EEG of school-age children and adolescents II. Topography. Electroencephalography and clinical neurophysiology, 69(2), 100-109.eng
dcterms.referencesGasser, T., Rousson, V., & Gasser, U. S. (2003). EEG power and coherence in children with educational problems. Journal of Clinical Neurophysiology, 20(4), 273-282.eng
dcterms.referencesGau, S. S.-F., Chiu, C.-D., Shang, C.-Y., Cheng, A. T.-A., & Soong, W.-T. (2009). Executive function in adolescence among children with attention-deficit/hyperactivity disorder in Taiwan. Journal of Developmental & Behavioral Pediatrics, 30(6), 525-534.eng
dcterms.referencesGau, S. S. F., & Shang, C. Y. (2010). Executive functions as endophenotypes in ADHD: evidence from the Cambridge Neuropsychological Test Battery (CANTAB). Journal of Child Psychology and Psychiatry, 51(7), 838-849.eng
dcterms.referencesGholson, B., & Hohle, R. H. (1968). Choice reaction times to hues printed in conflicting hue names and nonsense words. Journal of experimental psychology, 76(3p1), 413.eng
dcterms.referencesGholson, B., & Hohle, R. H. (1968b). Verbal reaction times to hues vs hue names and forms vs form names. Perception & Psychophysics, 3(3), 191-196.eng
dcterms.referencesGiedd, J. N., Snell, J. W., Lange, N., Rajapakse, J. C., Casey, B., Kozuch, P. L., . . . Kaysen, D. (1996). Quantitative magnetic resonance imaging of human brain development: ages 4–18. Cerebral cortex, 6(4), 551-559.eng
dcterms.referencesGizer, I. R., Ficks, C., & Waldman, I. D. (2009). Candidate gene studies of ADHD: a meta-analytic review. Human genetics, 126(1), 51-90.eng
dcterms.referencesGizer, I. R., & Waldman, I. D. (2012). Double dissociation between lab measures of inattention and impulsivity and the dopamine transporter gene (DAT1) and dopamine D4 receptor gene (DRD4). Journal of Abnormal Psychology, 121(4), 1011.eng
dcterms.referencesGmehlin, D., Fuermaier, A. B., Walther, S., Debelak, R., Rentrop, M., Westermann, C., . . . Tucha, O. (2014). Intraindividual variability in inhibitory function in adults with ADHD–An ex-gaussian approach. PloS one, 9(12), e112298.eng
dcterms.referencesGogtay, N., Giedd, J. N., Lusk, L., Hayashi, K. M., Greenstein, D., Vaituzis, A. C., . . . Toga, A. W. (2004). Dynamic mapping of human cortical development during childhood through early adulthood. Proceedings of the National Academy of Sciences, 101(21), 8174-8179.eng
dcterms.referencesGoldman, P. S. (1971). Functional development of the prefrontal cortex in early life and the problem of neuronal plasticity. Experimental neurology, 32(3), 366-387.eng
dcterms.referencesGoldman‐Rakic, P. S. (1995). Architecture of the prefrontal cortex and the central executive. Annals of the New York Academy of Sciences, 769(1), 71-84.eng
dcterms.referencesGonen-Yaacovi, G., Arazi, A., Shahar, N., Karmon, A., Haar, S., Meiran, N., & Dinstein, I. (2016). Increased ongoing neural variability in ADHD. Cortex, 81, 50-63.eng
dcterms.referencesGooch, D., Snowling, M. J., & Hulme, C. (2012). Reaction time variability in children with ADHD symptoms and/or dyslexia. Developmental Neuropsychology, 37(5), 453-472.eng
dcterms.referencesGoos, L. M., Crosbie, J., Payne, S., & Schachar, R. (2009). Validation and extension of the endophenotype model in ADHD patterns of inheritance in a family study of inhibitory control. American Journal of Psychiatry, 166(6), 711-717.eng
dcterms.referencesGordon, B., & Carson, K. (1990). The basis for choice reaction time slowing in Alzheimer's disease. Brain and Cognition, 13(2), 148-166.eng
dcterms.referencesGornick, M., Addington, A., Shaw, P., Bobb, A., Sharp, W., Greenstein, D., . . . Rapoport, J. (2007). Association of the dopamine receptor D4 (DRD4) gene 7‐repeat allele with children with attention‐deficit/hyperactivity disorder (ADHD): An update. American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 144(3), 379-382.eng
dcterms.referencesGottesman, I. I., & Gould, T. D. (2003). The endophenotype concept in psychiatry: etymology and strategic intentions. American Journal of Psychiatry, 160(4), 636-645.eng
dcterms.referencesGraveson, J., Bauermeister, S., McKeown, D., & Bunce, D. (2016). Intraindividual reaction time variability, falls, and gait in old age: A systematic review. Journals of Gerontology Series B: Psychological Sciences and Social Sciences, 71(5), 857-864.eng
dcterms.referencesGreven, C. U., Bralten, J., Mennes, M., O’Dwyer, L., van Hulzen, K. J., Rommelse, N., . . . Heslenfeld, D. (2015). Developmentally stable whole-brain volume reductions and developmentally sensitive caudate and putamen volume alterations in those with attention-deficit/hyperactivity disorder and their unaffected siblings. JAMA Psychiatry, 72(5), 490-499.eng
dcterms.referencesGriffiths, K., Grieve, S., Kohn, M., Clarke, S., Williams, L., & Korgaonkar, M. (2016). Altered gray matter organization in children and adolescents with ADHD: a structural covariance connectome study. Transl Psychiatry, 6(11), e947-e947.eng
dcterms.referencesGu, S.-L. H., Gau, S. S.-F., Tzang, S.-W., & Hsu, W.-Y. (2013). The ex-Gaussian distribution of reaction times in adolescents with attention-deficit/hyperactivity disorder. Research in developmental disabilities, 34(11), 3709-3719.eng
dcterms.referencesHalperin, J. M., & Schulz, K. P. (2006). Revisiting the role of the prefrontal cortex in the pathophysiology of attention-deficit/hyperactivity disorder. Psychological bulletin, 132(4), 560.eng
dcterms.referencesHalperin, J. M., Trampush, J. W., Miller, C. J., Marks, D. J., & Newcorn, J. H. (2008). Neuropsychological outcome in adolescents/young adults with childhood ADHD: profiles of persisters, remitters and controls. Journal of Child Psychology and Psychiatry, 49(9), 958-966.eng
dcterms.referencesHamilton, L. S., Levitt, J. G., O’Neill, J., Alger, J. R., Luders, E., Phillips, O. R., . . . Narr, K. L. (2008). Reduced white matter integrity in attention-deficit hyperactivity disorder. Neuroreport, 19(17), 1705.eng
dcterms.referencesHart, E. L., Lahey, B. B., Loeber, R., Applegate, B., & Frick, P. J. (1995). Developmental change in attention-deficit hyperactivity disorder in boys: a four-year longitudinal study. Journal of Abnormal Child Psychology, 23(6), 729-749.eng
dcterms.referencesHart, H., Chantiluke, K., Cubillo, A. I., Smith, A. B., Simmons, A., Brammer, M. J., . . . Rubia, K. (2014). Pattern classification of response inhibition in ADHD: toward the development of neurobiological markers for ADHD. Human Brain Mapping, 35(7), 3083-3094.eng
dcterms.referencesHawi, Z., Matthews, N., Barry, E., Kirley, A., Wagner, J., Wallace, R. H., . . . Bellgrove, M. A. (2013). A high density linkage disequilibrium mapping in 14 noradrenergic genes: evidence of association between S LC6A2, ADRA1B and ADHD. Psychopharmacology, 225(4), 895-902.eng
dcterms.referencesHayman, V., & Fernandez, T. V. (2018). Genetic insights into ADHD biology. Frontiers in psychiatry, 9, 251.eng
dcterms.referencesHaynes, B. I., Bauermeister, S., & Bunce, D. (2017). A systematic review of longitudinal associations between reaction time intraindividual variability and age-related cognitive decline or impairment, dementia, and mortality. Journal of the International Neuropsychological Society, 23(5), 431-445.eng
dcterms.referencesHaynes, B. I., Kliegel, M., Zimprich, D., & Bunce, D. (2018). Intraindividual reaction time variability predicts prospective memory failures in older adults. Aging, Neuropsychology, and Cognition, 25(1), 132-145.eng
dcterms.referencesHeathcote, A., Popiel, S. J., & Mewhort, D. (1991). Analysis of response time distributions: an example using the Stroop task. Psychological bulletin, 109(2), 340.eng
dcterms.referencesHeijtz, R. D., Kolb, B., & Forssberg, H. (2007). Motor inhibitory role of dopamine D1 receptors: implications for ADHD. Physiology & behavior, 92(1-2), 155-160.eng
dcterms.referencesHenríquez-Henríquez, M., Zamorano-Mendieta, F., Rothhammer-Engel, F., & Aboitiz, F. (2010). Modelos neurocognitivos para el trastorno por déficit de atención/hiperactividad y sus implicaciones en el reconocimiento de endofenotipos. Rev neurol, 50(2), 109-116.spa
dcterms.referencesHenríquez-Henríquez, M. P., Billeke, P., Henríquez, H., Zamorano, F. J., Rothhammer, F., & Aboitiz, F. (2015). Intra-individual response variability assessed by ex-Gaussian analysis may be a new endophenotype for attention-deficit/hyperactivity disorder. Frontiers in psychiatry, 5, 197.eng
dcterms.referencesHervey, A. S., Epstein, J. N., & Curry, J. F. (2004). Neuropsychology of adults with attention-deficit/hyperactivity disorder: a meta-analytic review. Neuropsychology, 18(3), 485.eng
dcterms.referencesHervey, A. S., Epstein, J. N., Curry, J. F., Tonev, S., Eugene Arnold, L., Keith Conners, C., . . . Hechtman, L. (2006). Reaction time distribution analysis of neuropsychological performance in an ADHD sample. Child Neuropsychology, 12(2), 125-140.eng
dcterms.referencesHill, J. C., & Schoener, E. P. (1996). Age-dependent decline of attention deficit hyperactivity disorder. The American Journal of Psychiatry.eng
dcterms.referencesHinshaw, S. P. (2018). Attention deficit hyperactivity disorder (ADHD): controversy, developmental mechanisms, and multiple levels of analysis. Annual review of clinical psychology, 14, 291-316.eng
dcterms.referencesHockley, W. E. (1984). Analysis of response time distributions in the study of cognitive processes. Journal of Experimental Psychology: Learning, Memory, and Cognition, 10(4), 598.eng
dcterms.referencesHohle, R. H. (1965). Inferred components of reaction times as functions of foreperiod duration. Journal of experimental psychology, 69(4), 382.eng
dcterms.referencesHolst, Y., & Thorell, L. B. (2017). Neuropsychological functioning in adults with ADHD and adults with other psychiatric disorders: the issue of specificity. Journal of attention disorders, 21(2), 137-148.eng
dcterms.referencesHoogman, M., Bralten, J., Hibar, D. P., Mennes, M., Zwiers, M. P., Schweren, L. S., . . . Jahanshad, N. (2017). Subcortical brain volume differences in participants with attention deficit hyperactivity disorder in children and adults: a cross-sectional mega-analysis. The Lancet Psychiatry, 4(4), 310-319.eng
dcterms.referencesHoyniak, C. P., & Petersen, I. T. (2019). A meta-analytic evaluation of the N2 component as an endophenotype of response inhibition and externalizing psychopathology in childhood. Neuroscience & Biobehavioral Reviews, 103, 200-215.eng
dcterms.referencesHultsch, D. F., MacDonald, S. W., & Dixon, R. A. (2002). Variability in reaction time performance of younger and older adults. The Journals of Gerontology Series B: Psychological Sciences and Social Sciences, 57(2), P101-P115.eng
dcterms.referencesHwang, S., Meffert, H., Parsley, I., Tyler, P. M., Erway, A. K., Botkin, M. L., . . . Blair, R. (2019). Segregating sustained attention from response inhibition in ADHD: An fMRI study. NeuroImage: Clinical, 21, 101677.eng
dcterms.referencesIbanez, A., Cetkovich, M., Petroni, A., Urquina, H., Baez, S., Gonzalez-Gadea, M. L., . . . Manes, F. (2012). The neural basis of decision-making and reward processing in adults with euthymic bipolar disorder or attention-deficit/hyperactivity disorder (ADHD). PloS one, 7(5), e37306. https://doi.org/10.1371/journal.pone.0037306eng
dcterms.referencesJain, M., Velez, J. I., Acosta, M. T., Palacio, L. G., Balog, J., Roessler, E., . . . Muenke, M. (2012). A cooperative interaction between LPHN3 and 11q doubles the risk for ADHD. Mol Psychiatry, 17(7), 741-747. https://doi.org/10.1038/mp.2011.59eng
dcterms.referencesJames, S.-N., Cheung, C. H., Rijsdijk, F., Asherson, P., & Kuntsi, J. (2016). Modifiable arousal in attention-deficit/hyperactivity disorder and its etiological association with fluctuating reaction times. Biological Psychiatry: Cognitive Neuroscience and Neuroimaging, 1(6), 539-547.eng
dcterms.referencesJames, S.-N., Cheung, C. H., Rommel, A.-S., McLoughlin, G., Brandeis, D., Banaschewski, T., . . . Kuntsi, J. (2020). Peripheral hypoarousal but not preparation-vigilance impairment endures in ADHD remission. Journal of attention disorders, 24(13), 1944-1951.eng
dcterms.referencesJanssen, T. W., Heslenfeld, D. J., van Mourik, R., Logan, G. D., & Oosterlaan, J. (2015). Neural correlates of response inhibition in children with attention-deficit/hyperactivity disorder: A controlled version of the stop-signal task. Psychiatry Research: Neuroimaging, 233(2), 278-284.eng
dcterms.referencesJensen, A. R. (2006). Clocking the mind: Mental chronometry and individual differences. Elsevier.eng
dcterms.referencesJiménez-Figueroa, G., Ardila-Duarte, C., Pineda, D. A., Acosta-López, J. E., Cervantes-Henríquez, M. L., Pineda-Alhucema, W., . . . Puentes-Rozo, P. J. (2017). Prepotent response inhibition and reaction times in children with attention deficit/hyperactivity disorder from a Caribbean community [journal article]. ADHD Attention Deficit and Hyperactivity Disorders, 9(4), 199-211. https://doi.org/10.1007/s12402-017-0223-zeng
dcterms.referencesJohansson, S., Halleland, H., Halmøy, A., Jacobsen, K., Landaas, E., Dramsdahl, M., . . . Gillberg, C. (2008). Genetic analyses of dopamine related genes in adult ADHD patients suggest an association with the DRD5‐microsatellite repeat, but not with DRD4 or SLC6A3 VNTRs. American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 147(8), 1470-1475.eng
dcterms.referencesJones, M., & Dzhafarov, E. N. (2014). Unfalsifiability and mutual translatability of major modeling schemes for choice reaction time. Psychological review, 121(1), 1.eng
dcterms.referencesKaiser, S., Aschenbrenner, S., Pfüller, U., Roesch-Ely, D., & Weisbrod, M. (2012). Manual response inhibition (INHIB). Mödling: SCHUHFRIED GmbH.eng
dcterms.referencesKamimori, G. H., McLellan, T. M., Tate, C. M., Voss, D. M., Niro, P., & Lieberman, H. R. (2015). Caffeine improves reaction time, vigilance and logical reasoning during extended periods with restricted opportunities for sleep. Psychopharmacology, 232(12), 2031-2042.eng
dcterms.referencesKaplan, R. F., & Stevens, M. C. (2002). A review of adult ADHD: a neuropsychological and neuroimaging perspective. CNS spectrums, 7, 355-370.eng
dcterms.referencesKaralunas, S. L., Fair, D., Musser, E. D., Aykes, K., Iyer, S. P., & Nigg, J. T. (2014). Subtyping attention-deficit/hyperactivity disorder using temperament dimensions: toward biologically based nosologic criteria. JAMA Psychiatry, 71(9), 1015-1024.eng
dcterms.referencesKaralunas, S. L., Geurts, H. M., Konrad, K., Bender, S., & Nigg, J. T. (2014). Annual research review: Reaction time variability in ADHD and autism spectrum disorders: Measurement and mechanisms of a proposed trans‐diagnostic phenotype. Journal of Child Psychology and Psychiatry, 55(6), 685-710.eng
dcterms.referencesKaralunas, S. L., & Huang-Pollock, C. L. (2013). Integrating impairments in reaction time and executive function using a diffusion model framework. Journal of Abnormal Child Psychology, 41(5), 837-850.eng
dcterms.referencesKemp, B. J. (1973). Reaction time of young and elderly subjects in relation to perceptual deprivation and signal-on versus signal-off conditions. Developmental Psychology, 8(2), 268.eng
dcterms.referencesKessler, R. C., Adler, L. A., Barkley, R., Biederman, J., Conners, C. K., Faraone, S. V., . . . Spencer, T. (2005). Patterns and predictors of attention-deficit/hyperactivity disorder persistence into adulthood: results from the national comorbidity survey replication. Biological psychiatry, 57(11), 1442-1451.eng
dcterms.referencesKieffaber, P. D., Kappenman, E. S., Bodkins, M., Shekhar, A., O'Donnell, B. F., & Hetrick, W. P. (2006). Switch and maintenance of task set in schizophrenia. Schizophrenia research, 84(2-3), 345-358.eng
dcterms.referencesKlein, C., Wendling, K., Huettner, P., Ruder, H., & Peper, M. (2006). Intra-subject variability in attention-deficit hyperactivity disorder. Biological psychiatry, 60(10), 1088-1097.eng
dcterms.referencesKlein, M., Onnink, M., van Donkelaar, M., Wolfers, T., Harich, B., Shi, Y., . . . Franke, B. (2017). Brain imaging genetics in ADHD and beyond–mapping pathways from gene to disorder at different levels of complexity. Neuroscience & Biobehavioral Reviews, 80, 115-155.eng
dcterms.referencesKlein, M., Walters, R. K., Demontis, D., Stein, J. L., Hibar, D. P., Adams, H. H., . . . Sonuga-Barke, E. (2019). Genetic markers of ADHD-related variations in intracranial volume. American Journal of Psychiatry, 176(3), 228-238.eng
dcterms.referencesKlein, R. G., & Mannuzza, S. (1991). Long-term outcome of hyperactive children: A review. Journal of the American Academy of Child & Adolescent Psychiatry, 30(3), 383-387.eng
dcterms.referencesKlorman, R., Hazel-Fernandez, L. A., Shaywitz, S. E., Fletcher, J. M., Marchione, K. E., Holahan, J. M., . . . Shaywitz, B. A. (1999). Executive functioning deficits in attention‐deficit/hyperactivity disorder are independent of oppositional defiant or reading disorder. Journal of the American Academy of Child & Adolescent Psychiatry, 38(9), 1148-1155.eng
dcterms.referencesKlotz, J. M., Johnson, M. D., Wu, S. W., Isaacs, K. M., & Gilbert, D. L. (2012). Relationship between reaction time variability and motor skill development in ADHD. Child Neuropsychology, 18(6), 576-585. https://doi.org/10.1080/09297049.2011.625356eng
dcterms.referencesKóbor, A., Takács, Á., Bryce, D., Szűcs, D., Honbolygó, F., Nagy, P., & Csépe, V. (2015). Children with ADHD show impairments in multiple stages of information processing in a Stroop task: An ERP study. Developmental Neuropsychology, 40(6), 329-347.eng
dcterms.referencesKoch, I., Prinz, W., & Allport, A. (2005). Involuntary retrieval in alphabet-arithmetic tasks: Task-mixing and task-switching costs. Psychological Research, 69(4), 252-261.eng
dcterms.referencesKofler, M. J., Irwin, L. N., Soto, E. F., Groves, N. B., Harmon, S. L., & Sarver, D. E. (2019). Executive functioning heterogeneity in pediatric ADHD. Journal of Abnormal Child Psychology, 47(2), 273-286.eng
dcterms.referencesKofler, M. J., Rapport, M. D., Sarver, D. E., Raiker, J. S., Orban, S. A., Friedman, L. M., & Kolomeyer, E. G. (2013). Reaction time variability in ADHD: a meta-analytic review of 319 studies. Clinical psychology review, 33(6), 795-811.eng
dcterms.referencesKofler, M. J., Sarver, D. E., Harmon, S. L., Moltisanti, A., Aduen, P. A., Soto, E. F., & Ferretti, N. (2018). Working memory and organizational skills problems in ADHD. Journal of Child Psychology and Psychiatry, 59(1), 57-67.eng
dcterms.referencesKok, F. M., Groen, Y., Fuermaier, A. B., & Tucha, O. (2016). Problematic peer functioning in girls with ADHD: A systematic literature review. PloS one, 11(11).eng
dcterms.referencesKölle, M., Mackert, S., Heckel, K., Philipsen, A., Ulrich, M., & Grön, G. (2022). Lower fractional anisotropy of the corticothalamic tract and increased response time variability in adult patients with ADHD. Journal of Psychiatry and Neuroscience, 47(2), E99-E108.eng
dcterms.referencesKollins, S. H., McClernon, F. J., & Epstein, J. N. (2009). Effects of smoking abstinence on reaction time variability in smokers with and without ADHD: an ex-Gaussian analysis. Drug and alcohol dependence, 100(1-2), 169-172.eng
dcterms.referencesKonrad, K., & Eickhoff, S. B. (2010). Is the ADHD brain wired differently? A review on structural and functional connectivity in attention deficit hyperactivity disorder. Human Brain Mapping, 31(6), 904-916.eng
dcterms.referencesKosinski, R. J. (2013). A Literature Review on Reaction Time Clemson University. In.eng
dcterms.referencesKrieger, V., & Amador-Campos, J. A. (2018). Assessment of executive function in ADHD adolescents: contribution of performance tests and rating scales. Child Neuropsychology, 24(8), 1063-1087.eng
dcterms.referencesKrieger, V., Amador-Campos, J. A., & Gallardo-Pujol, D. (2019). Temperament, executive function, and attention-deficit/hyperactivity disorder (ADHD) in adolescents: The mediating role of effortful control. Journal of clinical and experimental neuropsychology, 41(6), 615-633.eng
dcterms.referencesKucyi, A., Hove, M. J., Biederman, J., Van Dijk, K. R., & Valera, E. M. (2015). Disrupted functional connectivity of cerebellar default network areas in attention‐deficit/hyperactivity disorder. Human Brain Mapping, 36(9), 3373-3386.eng
dcterms.referencesKuntsi, J., & Klein, C. (2011). Intraindividual variability in ADHD and its implications for research of causal links. In Behavioral neuroscience of attention deficit hyperactivity disorder and its treatment (pp. 67-91). Springer.eng
dcterms.referencesKuntsi, J., & Stevenson, J. (2001). Psychological mechanisms in hyperactivity: II The role of genetic factors. The Journal of Child Psychology and Psychiatry and Allied Disciplines, 42(2), 211-219.eng
dcterms.referencesKuntsi, J., Wood, A. C., Johnson, K. A., Andreou, P., Arias-Vasquez, A., Buitelaar, J. K., . . . Asherson, P. (2010). Separation of Cognitive Impairments in Attention-Deficit/Hyperactivity Disorder Into 2 Familial Factors. JAMA Psychiatry, 67(11), 1159-1166. https://doi.org/10.1001/archgenpsychiatry.2010.139eng
dcterms.referencesLacouture, Y., & Cousineau, D. (2008). How to use MATLAB to fit the ex-Gaussian and other probability functions to a distribution of response times. Tutorials in quantitative methods for psychology, 4(1), 35-45.eng
dcterms.referencesLaming, D. R. J. (1968). Information theory of choice-reaction times.eng
dcterms.referencesLangberg, J. M., Dvorsky, M. R., & Evans, S. W. (2013). What specific facets of executive function are associated with academic functioning in youth with attention-deficit/hyperactivity disorder? Journal of Abnormal Child Psychology, 41(7), 1145-1159.eng
dcterms.referencesLarochette, A.-C., Harrison, A. G., Rosenblum, Y., & Bowie, C. R. (2011). Additive neurocognitive deficits in adults with attention-deficit/hyperactivity disorder and depressive symptoms. Archives of clinical neuropsychology, 26(5), 385-395.eng
dcterms.referencesLasky-Su, J., Banaschewski, T., Buitelaar, J., Franke, B., Brookes, K., Sonuga-Barke, E., . . . Manor, I. (2007). Partial replication of a DRD4 association in ADHD individuals using a statistically derived quantitative trait for ADHD in a family-based association test. Biological psychiatry, 62(9), 985-990.eng
dcterms.referencesLawrence, K. E., Levitt, J. G., Loo, S. K., Ly, R., Yee, V., O’Neill, J., . . . Narr, K. L. (2013). White matter microstructure in subjects with attention-deficit/hyperactivity disorder and their siblings. Journal of the American Academy of Child & Adolescent Psychiatry, 52(4), 431-440. e434.eng
dcterms.referencesLee, D., Lee, J., Lee, J. E., & Jung, Y.-C. (2017). Altered functional connectivity in default mode network in Internet gaming disorder: influence of childhood ADHD. Progress in Neuro-Psychopharmacology and Biological Psychiatry, 75, 135-141.eng
dcterms.referencesLei, D., Du, M., Wu, M., Chen, T., Huang, X., Du, X., . . . Gong, Q. (2015). Functional MRI reveals different response inhibition between adults and children with ADHD. Neuropsychology, 29(6), 874.eng
dcterms.referencesLeth-Steensen, C., Elbaz, Z. K., & Douglas, V. I. (2000). Mean response times, variability, and skew in the responding of ADHD children: a response time distributional approach. Acta Psychol (Amst), 104(2), 167-190. https://doi.org/10.1016/s0001-6918(00)00019-6eng
dcterms.referencesLeth-Steensen, C., Elbaz, Z. K., & Douglas, V. I. (2000). Mean response times, variability, and skew in the responding of ADHD children: a response time distributional approach. Acta psychologica, 104(2), 167-190.eng
dcterms.referencesLevy, F., Pipingas, A., Harris, E. V., Farrow, M., & Silberstein, R. B. (2018). Continuous performance task in ADHD: Is reaction time variability a key measure? Neuropsychiatric disease and treatment, 14, 781.eng
dcterms.referencesLevy, Y., & Ebstein, R. P. (2009). Research review: crossing syndrome boundaries in the search for brain endophenotypes. Journal of Child Psychology and Psychiatry, 50(6), 657-668.eng
dcterms.referencesLi, X., Sroubek, A., Kelly, M. S., Lesser, I., Sussman, E., He, Y., . . . Foxe, J. J. (2012). Atypical pulvinar–cortical pathways during sustained attention performance in children with attention-deficit/hyperactivity disorder. Journal of the American Academy of Child & Adolescent Psychiatry, 51(11), 1197-1207. e1194.eng
dcterms.referencesLiddle, E. B., Hollis, C., Batty, M. J., Groom, M. J., Totman, J. J., Liotti, M., . . . Liddle, P. F. (2011). Task‐related default mode network modulation and inhibitory control in ADHD: Effects of motivation and methylphenidate. Journal of Child Psychology and Psychiatry, 52(7), 761-771.eng
dcterms.referencesLin, H.-Y., Gau, S.-F., Huang-Gu, S., Shang, C.-Y., Wu, Y.-H., & Tseng, W.-Y. (2014). Neural substrates of behavioral variability in attention deficit hyperactivity disorder: based on ex-Gaussian reaction time distribution and diffusion spectrum imaging tractography. Psychological Medicine, 44(8), 1751-1764.eng
dcterms.referencesLin, H. Y., Hwang‐Gu, S. L., & Gau, S. F. (2015). Intra‐individual reaction time variability based on ex‐Gaussian distribution as a potential endophenotype for attention‐deficit/hyperactivity disorder. Acta Psychiatrica Scandinavica, 132(1), 39-50.eng
dcterms.referencesLin, Y.-J., & Gau, S. S.-F. (2017). Differential neuropsychological functioning between adolescents with attention-deficit/hyperactivity disorder with and without conduct disorder. Journal of the Formosan Medical Association, 116(12), 946-955.eng
dcterms.referencesLinden, D. V. D., Keijsers, G. P., Eling, P., & Schaijk, R. V. (2005). Work stress and attentional difficulties: An initial study on burnout and cognitive failures. Work & Stress, 19(1), 23-36.eng
dcterms.referencesLipszyc, J., & Schachar, R. (2010). Inhibitory control and psychopathology: a meta-analysis of studies using the stop signal task. Journal of the International Neuropsychological Society, 16(6), 1064-1076.eng
dcterms.referencesLiu, S. K., Chiu, C.-H., Chang, C.-J., Hwang, T.-J., Hwu, H.-G., & Chen, W. J. (2002). Deficits in sustained attention in schizophrenia and affective disorders: stable versus state-dependent markers. American Journal of Psychiatry, 159(6), 975-982.eng
dcterms.referencesLizcanoa, L. J. L., Ruiza, D. J. G., González, H. J., & Torresb, P. P. R. (2019). Attention deficit hyperactivity disorder (ADHD) in schoolchildren aged 6 to 17 years. Rev Pediatr, 21, e101-e108.eng
dcterms.referencesLogan, G. D., Cowan, W. B., & Davis, K. A. (1984). On the ability to inhibit simple and choice reaction time responses: a model and a method. J Exp Psychol Hum Percept Perform, 10(2), 276-291.eng
dcterms.referencesLohit, S. R., Babu, G. N., Sharma, S., Rao, S., Sachin, B. S., & Matkar, A. V. (2019). Prevalence of adult ADHD co-morbidity in alcohol use disorders in a general hospital setup. Indian journal of psychological medicine, 41(6), 523.eng
dcterms.referencesLubar, J. F. (1991). Discourse on the development of EEG diagnostics and biofeedback for attention-deficit/hyperactivity disorders [journal article]. Biofeedback and Self-regulation, 16(3), 201-225. https://doi.org/10.1007/bf01000016eng
dcterms.referencesLubar, J. F., Swartwood, M. O., Swartwood, J. N., & O'Donnell, P. H. (1995). Evaluation of the effectiveness of EEG neurofeedback training for ADHD in a clinical setting as measured by changes in T.O.V.A. scores, behavioral ratings, and WISC-R performance [journal article]. Biofeedback and Self-regulation, 20(1), 83-99. https://doi.org/10.1007/bf01712768eng
dcterms.referencesLuce, R. D. (1986). Response times: Their role in inferring elementary mental organization. Oxford University Press on Demand.eng
dcterms.referencesLundervold, A. J., Adolfsdottir, S., Halleland, H., Halmøy, A., Plessen, K., & Haavik, J. (2011a). Attention Network Test in adults with ADHD-the impact of affective fluctuations. Behavioral and Brain Functions, 7(1), 1-8.eng
dcterms.referencesLundervold, A. J., Adolfsdottir, S., Halleland, H., Halmøy, A., Plessen, K., & Haavik, J. (2011b). Attention Network Test in adults with ADHD-the impact of affective fluctuations. Behavioral and Brain Functions, 7(1), 27.eng
dcterms.referencesLundervold, A. J., Halleland, H. B., Brevik, E. J., Haavik, J., & Sørensen, L. (2019). Verbal memory function in intellectually well-functioning adults with ADHD: relations to working memory and response inhibition. Journal of attention disorders, 23(10), 1188-1198.eng
dcterms.referencesLuo, Y., Alvarez, T. L., Halperin, J. M., & Li, X. (2020). Multimodal neuroimaging-based prediction of adult outcomes in childhood-onset ADHD using ensemble learning techniques. NeuroImage: Clinical, 26, 102238.eng
dcterms.referencesLuo, Y., Halperin, J. M., & Li, X. (2020). Anatomical substrates of symptom remission and persistence in young adults with childhood attention deficit/hyperactivity disorder. European Neuropsychopharmacology, 33, 117-125.eng
dcterms.referencesLuo, Y., Schulz, K. P., Alvarez, T. L., Halperin, J. M., & Li, X. (2018). Distinct topological properties of cue-evoked attention processing network in persisters and remitters of childhood ADHD. Cortex, 109, 234-244.eng
dcterms.referencesLuo, Y., Weibman, D., Halperin, J. M., & Li, X. (2019). A Review of Heterogeneity in Attention Deficit/Hyperactivity Disorder (ADHD) [Review]. Frontiers in Human Neuroscience, 13(42). https://doi.org/10.3389/fnhum.2019.00042eng
dcterms.referencesLuria, A. R. (1979). El cerebro humano y los procesos psiquicos: análisis neuropsicológica de la actividad consciente.spa
dcterms.referencesMacDonald, S. W., Nyberg, L., & Bäckman, L. (2006). Intra-individual variability in behavior: links to brain structure, neurotransmission and neuronal activity. Trends in neurosciences, 29(8), 474-480.eng
dcterms.referencesMadden, D. J., Gottlob, L. R., Denny, L. L., Turkington, T. G., Provenzale, J. M., Hawk, T. C., & Coleman, R. E. (1999). Aging and recognition memory: Changes in regional cerebral blood flow associated with components of reaction time distributions. Journal of Cognitive Neuroscience, 11(5), 511-520.eng
dcterms.referencesMahone, E. M., Hagelthorn, K. M., Cutting, L. E., Schuerholz, L. J., Pelletier, S. F., Rawlins, C., . . . Denckla, M. B. (2002). Effects of IQ on executive function measures in children with ADHD. Child Neuropsychology, 8(1), 52-65.eng
dcterms.referencesMakris, N., Biederman, J., Monuteaux, M. C., & Seidman, L. J. (2009). Towards conceptualizing a neural systems-based anatomy of attention-deficit/hyperactivity disorder. Developmental neuroscience, 31(1-2), 36-49.eng
dcterms.referencesMakris, N., Biederman, J., Valera, E. M., Bush, G., Kaiser, J., Kennedy, D. N., . . . Seidman, L. J. (2007). Cortical thinning of the attention and executive function networks in adults with attention-deficit/hyperactivity disorder. Cerebral cortex, 17(6), 1364-1375.eng
dcterms.referencesMakris, N., Kennedy, D. N., McInerney, S., Sorensen, A. G., Wang, R., Caviness Jr, V. S., & Pandya, D. N. (2005). Segmentation of subcomponents within the superior longitudinal fascicle in humans: a quantitative, in vivo, DT-MRI study. Cerebral cortex, 15(6), 854-869.eng
dcterms.referencesMalapeira, J. M., Hombia, M. L., Viader, M., Cosculluela, A., Viadé, A., & Ferrer, R. (1995). Análisis de 10s componentes del tiempo de reacción. Universidad de Barcelonaspa
dcterms.referencesMannuzza, S., & Klein, R. G. (2000). Long-term prognosis in attention-deficit/hyperactivity disorder. Child and adolescent psychiatric clinics of North America, 9(3), 711-726.eng
dcterms.referencesMarshall, W., Talbot, S., & Ades, H. (1943). Cortical response of the anesthetized cat to gross photic and electrical afferent stimulation. Journal of neurophysiology, 6(1), 1-15.eng
dcterms.referencesMartel, M. M., Nigg, J. T., & Von Eye, A. (2009). How do trait dimensions map onto ADHD symptom domains? Journal of Abnormal Child Psychology, 37(3), 337.eng
dcterms.referencesMartel, M. M., Roberts, B., Gremillion, M., Von Eye, A., & Nigg, J. T. (2011). External validation of bifactor model of ADHD: Explaining heterogeneity in psychiatric comorbidity, cognitive control, and personality trait profiles within DSM-IV ADHD. Journal of Abnormal Child Psychology, 39(8), 1111.eng
dcterms.referencesMartel, M. M., Von Eye, A., & Nigg, J. (2012). Developmental differences in structure of attention-deficit/hyperactivity disorder (ADHD) between childhood and adulthood. International journal of behavioral development, 36(4), 279-292.eng
dcterms.referencesMartella, D., Aldunate, N., Fuentes, L. J., & Sánchez-Pérez, N. (2020). Arousal and executive alterations in attention deficit hyperactivity disorder (ADHD). Frontiers in Psychology, 11, 1991.eng
dcterms.referencesMartin, I. (1960). The effects of depressant drugs on reaction times and" set. Experiments in Personality, 1.eng
dcterms.referencesMartinez, A. F., Muenke, M., & Arcos-Burgos, M. (2011). From the black widow spider to human behavior: Latrophilins, a relatively unknown class of G protein-coupled receptors, are implicated in psychiatric disorders. Am J Med Genet B Neuropsychiatr Genet, 156b(1), 1-10. https://doi.org/10.1002/ajmg.b.31137eng
dcterms.referencesMastronardi, C. A., Pillai, E., Pineda, D. A., Martinez, A. F., Lopera, F., Velez, J. I., . . . Arcos-Burgos, M. (2016). Linkage and association analysis of ADHD endophenotypes in extended and multigenerational pedigrees from a genetic isolate. Mol Psychiatry, 21(10), 1434-1440. https://doi.org/10.1038/mp.2015.172eng
dcterms.referencesMataro, M., Garcia-Sanchez, C., Junque, C., Estevez-Gonzalez, A., & Pujol, J. (1997). Magnetic resonance imaging measurement of the caudate nucleus in adolescents with attention-deficit hyperactivity disorder and its relationship with neuropsychological and behavioral measures. Arch Neurol, 54(8), 963-968.eng
dcterms.referencesMatzke, D., & Wagenmakers, E.-J. (2009). Psychological interpretation of the ex-Gaussian and shifted Wald parameters: A diffusion model analysis. Psychonomic bulletin & review, 16(5), 798-817.eng
dcterms.referencesMayer, K., Wyckoff, S. N., & Strehl, U. (2016). Underarousal in adult ADHD: how are peripheral and cortical arousal related? Clinical EEG and Neuroscience, 47(3), 171-179.eng
dcterms.referencesMcCracken, J., Smalley, S., McGough, J., Crawford, L., Del'Homme, M., Cantor, R., . . . Nelson, S. (2000). Evidence for linkage of a tandem duplication polymorphism upstream of the dopamine D4 receptor gene (DRD4) with attention deficit hyperactivity disorder (ADHD). Molecular psychiatry, 5(5), 531-536.eng
dcterms.referencesMcDonagh, T., Travers, Á., & Bramham, J. (2019). Do neuropsychological deficits predict anger dysregulation in adults with ADHD? International journal of forensic mental health, 18(3), 200-211.eng
dcterms.referencesMcGill, W. (1963). Stochastic latency mechanisms in RD Luce, RR Bush, and E. Galanter (eds.) Handbook of mathematical psychology: Vol. I. In: New York: John Wiley and Sons.eng
dcterms.referencesMcGill, W. J., & Gibbon, J. (1965). The general-gamma distribution and reaction times. Journal of mathematical Psychology, 2(1), 1-18.eng
dcterms.referencesMehta, T. R., Monegro, A., Nene, Y., Fayyaz, M., & Bollu, P. C. (2019). Neurobiology of ADHD: A Review. Current Developmental Disorders Reports, 6(4), 235-240.eng
dcterms.referencesMetin, B., Wiersema, J. R., Verguts, T., Gasthuys, R., van Der Meere, J. J., Roeyers, H., & Sonuga-Barke, E. (2016). Event rate and reaction time performance in ADHD: testing predictions from the state regulation deficit hypothesis using an ex-Gaussian model. Child Neuropsychology, 22(1), 99-109.eng
dcterms.referencesMichelini, G., Jurgiel, J., Bakolis, I., Cheung, C. H., Asherson, P., Loo, S. K., . . . Mohammad-Rezazadeh, I. (2019). Atypical functional connectivity in adolescents and adults with persistent and remitted ADHD during a cognitive control task. Transl Psychiatry, 9(1), 1-15.eng
dcterms.referencesMink, J. W. (1996). The basal ganglia: focused selection and inhibition of competing motor programs. Progress in neurobiology, 50(4), 381-425.eng
dcterms.referencesMiranda, P., Cox, C. D., Alexander, M., Danev, S., & Lakey, J. R. (2020). In quest of pathognomonic/endophenotypic markers of Attention Deficit Hyperactivity Disorder (ADHD): Potential of EEG-based frequency analysis and ERPs to better detect, prevent and manage ADHD. Medical Devices (Auckland, NZ), 13, 115.eng
dcterms.referencesMirsky, A. F., Pascualvaca, D. M., Duncan, C. C., & French, L. M. (1999). A model of attention and its relation to ADHD. Mental Retardation and developmental disabilities research reviews, 5(3), 169-176.eng
dcterms.referencesMontero Mate, S. (2002). Implicación del sistema noradrenérgico central en la respuesta hipertensa al estrés por deprivación social. Universidad Complutense de Madrid, Servicio de Publicaciones.spa
dcterms.referencesMoreno-García, I., Meneres-Sancho, S., Camacho-Vara de Rey, C., & Servera, M. (2019). A randomized controlled trial to examine the posttreatment efficacy of neurofeedback, behavior therapy, and pharmacology on ADHD measures. Journal of attention disorders, 23(4), 374-383.eng
dcterms.referencesMoret-Tatay, C., Leth-Steensen, C., Irigaray, T. Q., Argimon, I. I., Gamermann, D., Abad-Tortosa, D., . . . Navarro-Pardo, E. (2016). The effect of corrective feedback on performance in basic cognitive tasks: an analysis of RT components. Psychologica Belgica, 56(4), 370.eng
dcterms.referencesMoruzzi, G., & Magoun, H. W. (1949). Brain stem reticular formation and activation of the EEG. Electroencephalography and clinical neurophysiology, 1(1-4), 455-473.eng
dcterms.referencesMoses, M., Tiego, J., Demontis, D., Bragi Walters, G., Stefansson, H., Stefansson, K., . . . Bellgrove, M. A. (2022). Working memory and reaction time variability mediate the relationship between polygenic risk and ADHD traits in a general population sample. Molecular Psychiatry, 1-10.eng
dcterms.referencesMostert, J. C., Onnink, A. M. H., Klein, M., Dammers, J., Harneit, A., Schulten, T., . . . Buitelaar, J. K. (2015). Cognitive heterogeneity in adult attention deficit/hyperactivity disorder: a systematic analysis of neuropsychological measurements. European Neuropsychopharmacology, 25(11), 2062-2074.eng
dcterms.referencesMostofsky, S. H., Reiss, A. L., Lockhart, P., & Denckla, M. B. (1998). Evaluation of cerebellar size in attention-deficit hyperactivity disorder. Journal of child neurology, 13(9), 434-439.eng
dcterms.referencesMoutsopoulou, K., & Waszak, F. (2012). Across-task priming revisited: Response and task conflicts disentangled using ex-Gaussian distribution analysis. Journal of Experimental Psychology: Human perception and performance, 38(2), 367.eng
dcterms.referencesMoy, G., Millet, P., Haller, S., Baudois, S., De Bilbao, F., Weber, K., . . . Delaloye, C. (2011). Magnetic resonance imaging determinants of intraindividual variability in the elderly: combined analysis of grey and white matter. Neuroscience, 186, 88-93.eng
dcterms.referencesMühlberger, A., Jekel, K., Probst, T., Schecklmann, M., Conzelmann, A., Andreatta, M., . . . Romanos, M. (2020). The influence of methylphenidate on hyperactivity and attention deficits in children with ADHD: a virtual classroom test. Journal of attention disorders, 24(2), 277-289.eng
dcterms.referencesMukherjee, P., Miller, J. H., Shimony, J. S., Conturo, T. E., Lee, B. C., Almli, C. R., & McKinstry, R. C. (2001). Normal brain maturation during childhood: developmental trends characterized with diffusion-tensor MR imaging. Radiology, 221(2), 349-358.eng
dcterms.referencesMullane, J. C., Corkum, P. V., Klein, R. M., & McLaughlin, E. (2009). Interference Control in Children with and without ADHD: A Systematic Review of Flanker and Simon Task Performance. Child Neuropsychology, 15(4), 321-342. https://doi.org/10.1080/09297040802348028eng
dcterms.referencesMünger, M., Candrian, G., Kasper, J., Abdel-Rehim, H., Eich, D., Müller, A., & Jäncke, L. (2021). Behavioral and Neurophysiological Markers of ADHD in Children, Adolescents, and Adults: A Large-Scale Clinical Study. Clinical EEG and Neuroscience, 1550059421993340.eng
dcterms.referencesMurphy, K. R., Barkley, R. A., & Bush, T. (2001). Executive functioning and olfactory identification in young adults with attention deficit-hyperactivity disorder. Neuropsychology, 15(2), 211.eng
dcterms.referencesMusso, M., Westervelt, H. J., Long, J. D., Morgan, E., Woods, S. P., Smith, M. M., . . . Group, P.-H. I. o. t. H. S. (2015). Intra-individual variability in prodromal Huntington disease and its relationship to genetic burden. Journal of the International Neuropsychological Society, 21(1), 8-21.eng
dcterms.referencesMyerson, J., Hale, S., Zheng, Y., Jenkins, L., & Widaman, K. F. (2003). The difference engine: A model of diversity in speeded cognition. Psychonomic bulletin & review, 10(2), 262-288.eng
dcterms.referencesNi, H.-C., Hwang Gu, S.-L., Lin, H.-Y., Lin, Y.-J., Yang, L.-K., Huang, H.-C., & Gau, S. S.-F. (2016). Atomoxetine could improve intra-individual variability in drug-naïve adults with attention-deficit/hyperactivity disorder comparably with methylphenidate: a head-to-head randomized clinical trial. Journal of Psychopharmacology, 30(5), 459-467.eng
dcterms.referencesNiemi, P., & Näätänen, R. (1981). Foreperiod and simple reaction time. Psychological bulletin, 89(1), 133.eng
dcterms.referencesNigg, J. T., Blaskey, L. G., Huang-Pollock, C. L., & Rappley, M. D. (2002). Neuropsychological executive functions and DSM-IV ADHD subtypes. Journal of the American Academy of Child & Adolescent Psychiatry, 41(1), 59-66.eng
dcterms.referencesNigg, J. T., & Casey, B. (2005). An integrative theory of attention-deficit/hyperactivity disorder based on the cognitive and affective neurosciences. Development and psychopathology, 17(3), 785-806.eng
dcterms.referencesNigg, J. T., Gustafsson, H. C., Karalunas, S. L., Ryabinin, P., McWeeney, S. K., Faraone, S. V., . . . Wilmot, B. (2018). Working memory and vigilance as multivariate endophenotypes related to common genetic risk for attention-deficit/hyperactivity disorder. Journal of the American Academy of Child & Adolescent Psychiatry, 57(3), 175-182.eng
dcterms.referencesNigg, J. T., Sibley, M. H., Thapar, A., & Karalunas, S. L. (2020). Development of ADHD: Etiology, Heterogeneity, and Early Life Course. Annual Review of Developmental Psychology, 2, 559-583.eng
dcterms.referencesNigg, J. T., Stavro, G., Ettenhofer, M., Hambrick, D. Z., Miller, T., & Henderson, J. M. (2005b). Executive functions and ADHD in adults: evidence for selective effects on ADHD symptom domains. Journal of Abnormal Psychology, 114(4), 706.eng
dcterms.referencesNilchian, P. (2019). Activation of the Default Mode Network Is Related to High Reaction Time Variability in ADHD.eng
dcterms.referencesNygren, L.-G., & Olson, L. (1977). A new major projection from locus coeruleus: the main source of noradrenergic nerve terminals in the ventral and dorsal columns of the spinal cord. Brain research, 132(1), 85-93.eng
dcterms.referencesOades, R. D., Sadile, A. G., Sagvolden, T., Viggiano, D., Zuddas, A., Devoto, P., . . . Russell, V. A. (2005). The control of responsiveness in ADHD by catecholamines: evidence for dopaminergic, noradrenergic and interactive roles. Developmental Science, 8(2), 122-131.eng
dcterms.referencesOgdie, M. N., Macphie, I. L., Minassian, S. L., Yang, M., Fisher, S. E., Francks, C., . . . Smalley, S. L. (2003). A Genomewide Scan for Attention-Deficit/Hyperactivity Disorder in an Extended Sample: Suggestive Linkage on 17p11. The American Journal of Human Genetics, 72(5), 1268-1279. https://doi.org/https://doi.org/10.1086/375139eng
dcterms.referencesOkumura, Y., Kita, Y., Omori, M., Suzuki, K., Yasumura, A., Fukuda, A., & Inagaki, M. (2019). Predictive factors of success in neurofeedback training for children with ADHD. Developmental Neurorehabilitation, 22(1), 3-12. https://doi.org/10.1080/17518423.2017.1326183eng
dcterms.referencesOnnink, A. M. H., Zwiers, M. P., Hoogman, M., Mostert, J. C., Kan, C. C., Buitelaar, J., & Franke, B. (2014). Brain alterations in adult ADHD: Effects of gender, treatment and comorbid depression. European Neuropsychopharmacology, 24(3), 397-409. https://doi.org/https://doi.org/10.1016/j.euroneuro.2013.11.011eng
dcterms.referencesOsmon, D. C., Kazakov, D., Santos, O., & Kassel, M. T. (2018). Non-Gaussian distributional analyses of reaction times (RT): improvements that increase efficacy of RT tasks for describing cognitive processes. Neuropsychology review, 28(3), 359-376.eng
dcterms.referencesPaloyelis, Y., Mehta, M. A., Kuntsi, J., & Asherson, P. (2007). Functional MRI in ADHD: a systematic literature review. Expert review of neurotherapeutics, 7(10), 1337-1356.eng
dcterms.referencesPark, J., Kim, C., Ahn, J.-H., Joo, Y., Shin, M.-S., Lee, H.-J., & Kim, H.-W. (2019). Clinical use of continuous performance tests to diagnose children with ADHD. Journal of attention disorders, 23(6), 531-540.eng
dcterms.referencesPark, S., Cho, M. J., Chang, S. M., Jeon, H. J., Cho, S.-J., Kim, B.-S., . . . Hong, J. P. (2011). Prevalence, correlates, and comorbidities of adult ADHD symptoms in Korea: results of the Korean epidemiologic catchment area study. Psychiatry Research, 186(2-3), 378-383.eng
dcterms.referencesPauli-Pott, U., Dalir, S., Mingebach, T., Roller, A., & Becker, K. (2014). Attention deficit/hyperactivity and comorbid symptoms in preschoolers: Differences between subgroups in neuropsychological basic deficits. Child Neuropsychology, 20(2), 230-244.eng
dcterms.referencesPedersen, A., & Ohrmann, P. (2018). Impaired behavioral inhibition in implicit sequence learning in adult ADHD. Journal of attention disorders, 22(3), 250-260.eng
dcterms.referencesPenner-Wilger, M., Leth-Steensen, C., & LeFevre, J.-A. (2002). Decomposing the problem-size effect: A comparison of response time distributions across cultures. Memory & cognition, 30(7), 1160-1167.eng
dcterms.referencesPennington, B. F. (1997). Dimensions of executive functions in normal and abnormal development.eng
dcterms.referencesPennington, B. F., & Ozonoff, S. (1996). Executive Functions and Developmental Psychopathology. Journal of Child Psychology and Psychiatry, 37(1), 51-87. https://doi.org/10.1111/j.1469-7610.1996.tb01380.xeng
dcterms.referencesPetersen, E., Zimine, I., Ho, Y. L., & Golay, X. (2006). Non-invasive measurement of perfusion: a critical review of arterial spin labelling techniques. The British journal of radiology, 79(944), 688-701.eng
dcterms.referencesPinar, A., Hawi, Z., Cummins, T., Johnson, B., Pauper, M., Tong, J., . . . Franke, B. (2018). Genome-wide association study reveals novel genetic locus associated with intra-individual variability in response time. Translational psychiatry, 8(1), 1-8.eng
dcterms.referencesPineda, D. (2000). La función ejecutiva y sus trastornos. Revista de neurología, 30(8), 764-768.spa
dcterms.referencesPineda, D., Acosta López, J., Cervantes Henríquez, M. L., Jiménez Figueroa, G., Sánches Rojas, M., Pineda Alhucema, W., . . . Puentes Rozo, P. (2016). Conglomerados de clases latentes en 408 miembros de 120 familias nucleares de Barranquilla con un caso indice afectado de Trastorno de Atencion Hiperactividad (TDAH). Acta Neurológica Colombiana, 32(4), 275-284.spa
dcterms.referencesPineda, D., Kamphaus, R., Mora, O., Restrepo, M., Puerta, I., Palacio, L., . . . Arango, J. (1999). A system of multidimensional behavior assessment. A scale for parents of children from 6 to 11 years of age. Colombian version. Revista de neurología, 28(7), 672-681.eng
dcterms.referencesPineda, D., Lopera, F., Palacio, J. D., Ramirez, D., & Henao, G. C. (2003). PREVALENCE ESTIMATIONS OF ATTENTION-DEFICIT/HYPERACTIVITY DISORDER: DIFFERENTIAL DIAGNOSES AND COMORBIDITIES IN A COLOMBIAN SAMPLE. International Journal of Neuroscience, 113(1), 49-71. https://doi.org/10.1080/00207450390161921spa
dcterms.referencesPineda, D., Restrepo, M. A., Sarmiento, R. J., Gutierrez, J. E., Vargas, S. A., Quiroz, Y. T., & Hynd, G. W. (2002). Statistical Analyses of Structural Magnetic Resonance Imaging of the Head of the Caudate Nucleus in Colombian Children With Attention-Deficit Hyperactivity Disorder. Journal of Child Neurology, 17(2), 97-105. https://doi.org/10.1177/088307380201700202eng
dcterms.referencesPiñón Blanco, A., Vázquez-Justo, E., & Fernandes, S. M. (2017). Modelos neuropsicológicos del TDAH.spa
dcterms.referencesPosner, M., & Petersen, S. (1988). Fox. PT & Raichle, ME (1988). Localization of cognitive functions in the human brain. Science, 240, 1627-1631.eng
dcterms.referencesPosner, M. I., & Petersen, S. E. (1990). The attention system of the human brain. Annual review of neuroscience, 13(1), 25-42.eng
dcterms.referencesPossamaï, C.-A. (1991). A responding hand effect in a simple-RT precueing experiment: Evidence for a late locus of facilitation. Acta psychologica, 77(1), 47-63.eng
dcterms.referencesPraamstra, P., & Seiss, E. (2005). The neurophysiology of response competition: Motor cortex activation and inhibition following subliminal response priming. Journal of Cognitive Neuroscience, 17(3), 483-493.eng
dcterms.referencesPrieto, A. (2020). Attention-deficit/hyperactivity disorder and substance abuse. Scientific evidence. Medicina, 80 Suppl 2, 76-79.eng
dcterms.referencesProal, E., Reiss, P. T., Klein, R. G., Mannuzza, S., Gotimer, K., Ramos-Olazagasti, M. A., . . . Kelly, C. (2011). Brain gray matter deficits at 33-year follow-up in adults with attention-deficit/hyperactivity disorder established in childhood. Archives of general psychiatry, 68(11), 1122-1134.eng
dcterms.referencesPuentes-Rozo, P. J., Acosta-López, J. E., Cervantes-Henríquez, M. L., Martínez-Banfi, M. L., Mejia-Segura, E., Sánchez-Rojas, M., . . . Vélez, J. I. (2019). Genetic Variation Underpinning ADHD Risk in a Caribbean Community. Cells, 8(8), 907. https://www.mdpi.com/2073-4409/8/8/907eng
dcterms.referencesQian, Y., Shuai, L., Chan, R. C., Qian, Q.-J., & Wang, Y. (2013). The developmental trajectories of executive function of children and adolescents with Attention Deficit Hyperactivity Disorder. Research in developmental disabilities, 34(5), 1434-1445.eng
dcterms.referencesQuay, H. C. (1997). Inhibition and attention deficit hyperactivity disorder. Journal of Abnormal Child Psychology, 25(1), 7-13.eng
dcterms.referencesRajendran, K., Trampush, J. W., Rindskopf, D., Marks, D. J., O’Neill, S., & Halperin, J. M. (2013a). Association between variation in neuropsychological development and trajectory of ADHD severity in early childhood. American Journal of Psychiatry, 170(10), 1205-1211.eng
dcterms.referencesRajendran, K., Trampush, J. W., Rindskopf, D., Marks, D. J., O’Neill, S., & Halperin, J. M. (2013b). Change in neuropsychological functioning is associated with the trajectory of ADHD severity and impairment in early childhood. The American journal of psychiatry, 170(10), 1205.eng
dcterms.referencesRam, N., Rabbitt, P., Stollery, B., & Nesselroade, J. R. (2005). Cognitive performance inconsistency: Intraindividual change and variability. Psychology and Aging, 20(4), 623.eng
dcterms.referencesRamírez-Bello, J., Vargas-Alarcón, G., Tovilla-Zárate, C., & Fragoso, J. M. (2013). Polimorfismos de un solo nucleótido (SNP): implicaciones funcionales de los SNP reguladores (rSNP) y de los SNP-ARN estructurales (srSNP) en enfermedades complejas. Gaceta medica de Mexico, 149(2), 220-228.spa
dcterms.referencesRamos, A. A., Hamdan, A. C., & Machado, L. (2020). A meta-analysis on verbal working memory in children and adolescents with ADHD. The Clinical Neuropsychologist, 34(5), 873-898.eng
dcterms.referencesRamos-Galarza, C., & Pérez-Salas, C. (2017). Inhibitory Control and Monitoring in Child Population with ADHD. Avances en Psicología Latinoamericana, 35(1), 117-130.eng
dcterms.referencesRamy, H., El Sheikh, M., Sultan, M., Bassim, R., Eid, M., Ali, R., & El Missiry, M. (2018). Risk factors influencing severity of attention deficit hyperactivity disorder in a sample of preparatory school students in Cairo. Clinical Child Psychology and Psychiatry, 23(4), 542-555.eng
dcterms.referencesRapport, M. D., Chung, K.-M., Shore, G., & Isaacs, P. (2001). A conceptual model of child psychopathology: Implications for understanding attention deficit hyperactivity disorder and treatment efficacy. Journal of Clinical Child Psychology, 30(1), 48-58.eng
dcterms.referencesRasmussen, T., & Milner, B. (1977a). The role of early left-brain injury in determining lateralization of cerebral speech functions. Annals of the New York Academy of Sciences, 299, 355-369.eng
dcterms.referencesRasmussen, T., & Milner, B. (1977b). The role of early left‐brain injury in determining lateralization of cerebral speech functions. Annals of the New York Academy of Sciences, 299(1), 355-369.eng
dcterms.referencesRatcliff, R. (1978). A theory of memory retrieval. Psychological review, 85(2), 59.eng
dcterms.referencesRatcliff, R. (1993). Methods for dealing with reaction time outliers. Psychological bulletin, 114(3), 510.eng
dcterms.referencesRatcliff, R., & Murdock, B. B. (1976). Retrieval processes in recognition memory. Psychological review, 83(3), 190.eng
dcterms.referencesRatcliff, R., Schmiedek, F., & McKoon, G. (2008). A diffusion model explanation of the worst performance rule for reaction time and IQ. Intelligence, 36(1), 10-17.eng
dcterms.referencesRedfern, M. S., Chambers, A. J., Sparto, P. J., Furman, J. M., & Jennings, J. R. (2018). Perceptual inhibition associated with sensory integration for balance in older adults. Dementia and Geriatric Cognitive Disorders, 46(5-6), 266-274.eng
dcterms.referencesReich, W. (2000). Diagnostic interview for children and adolescents (DICA). Journal of the American Academy of Child & Adolescent Psychiatry, 39(1), 59-66.eng
dcterms.referencesRestrepo, F., Tamayo-Orrego, L., Parra Sánchez, J. H., Vera González, A., & Moscoso-Ariza, O. H. (2011). Modulación del componente P300 de los potenciales evocados en un grupo de niños colombianos con trastorno de atención-hiperactividad. Acta Neurol Colomb, 27(3), 146-153.spa
dcterms.referencesRiaz, A., Asad, M., Alonso, E., & Slabaugh, G. (2020). DeepFMRI: End-to-end deep learning for functional connectivity and classification of ADHD using fMRI. Journal of neuroscience methods, 335, 108506.eng
dcterms.referencesRiddervold, I. S., Pedersen, G. F., Andersen, N. T., Pedersen, A. D., Andersen, J. B., Zachariae, R., . . . Kjærgård, S. K. (2008). Cognitive function and symptoms in adults and adolescents in relation to rf radiation from UMTS base stations. Bioelectromagnetics: Journal of the Bioelectromagnetics Society, The Society for Physical Regulation in Biology and Medicine, The European Bioelectromagnetics Association, 29(4), 257-267.eng
dcterms.referencesRieger, T., & Miller, J. (2019). Are model parameters linked to processing stages? An empirical investigation for the ex-Gaussian, ex-Wald, and EZ diffusion models. Psychological Research, 1-17.eng
dcterms.referencesRobinson, E. S. (1934). Work of the integrated organism.eng
dcterms.referencesRohrer, D. (1996). On the relative and absolute strength of a memory trace. Memory & cognition, 24(2), 188-201.eng
dcterms.referencesRohrer, D. (2002). The breadth of memory search. Memory, 10(4), 291-301.eng
dcterms.referencesRommelse, N., Van der Stigchel, S., Witlox, J., Geldof, C., Deijen, J.-B., Theeuwes, J., . . . Sergeant, J. (2008). Deficits in visuo-spatial working memory, inhibition and oculomotor control in boys with ADHD and their non-affected brothers. Journal of neural transmission, 115(2), 249-260.eng
dcterms.referencesRommelse, N. N. J., Altink, M. E., Oosterlaan, J., Beem, L., Buschgens, C. J. M., Buitelaar, J., & Sergeant, J. A. (2008). Speed, Variability, and Timing of Motor Output in ADHD: Which Measures are Useful for Endophenotypic Research? [journal article]. Behavior Genetics, 38(2), 121-132. https://doi.org/10.1007/s10519-007-9186-8eng
dcterms.referencesRosa, V. d. O., Schmitz, M., Moreira-Maia, C. R., Wagner, F., Londero, I., Bassotto, C. d. F., . . . Rohde, L. A. P. (2017). Computerized cognitive training in children and adolescents with attention deficit/hyperactivity disorder as add-on treatment to stimulants: feasibility study and protocol description. Trends in Psychiatry and Psychotherapy, 39, 65-76. http://www.scielo.br/scielo.php?script=sci_arttext&pid=S2237-60892017000200065&nrm=isoeng
dcterms.referencesRosch, K. S., Crocetti, D., Hirabayashi, K., Denckla, M. B., Mostofsky, S. H., & Mahone, E. M. (2018). Reduced subcortical volumes among preschool-age girls and boys with ADHD. Psychiatry Research: Neuroimaging, 271, 67-74.eng
dcterms.referencesRotello, C. M., & Zeng, M. (2008). Analysis of RT distributions in the remember—know paradigm. Psychonomic bulletin & review, 15(4), 825-832.eng
dcterms.referencesRouder, J. N., Lu, J., Speckman, P., Sun, D., & Jiang, Y. (2005). A hierarchical model for estimating response time distributions. Psychonomic bulletin & review, 12(2), 195-223.eng
dcterms.referencesRoy, A., Oldehinkel, A. J., & Hartman, C. A. (2017). Cognitive functioning in adolescents with self-reported ADHD and depression: Results from a population-based study. Journal of Abnormal Child Psychology, 45(1), 69-81.eng
dcterms.referencesRubia, K., Smith, A. B., Brammer, M. J., & Taylor, E. (2007). Temporal lobe dysfunction in medication-naive boys with attention-deficit/hyperactivity disorder during attention allocation and its relation to response variability. Biological psychiatry, 62(9), 999-1006.eng
dcterms.referencesRussell, V. A., Oades, R. D., Tannock, R., Killeen, P. R., Auerbach, J. G., Johansen, E. B., & Sagvolden, T. (2006). Response variability in attention-deficit/hyperactivity disorder: a neuronal and glial energetics hypothesis. Behavioral and Brain Functions, 2(1), 30.eng
dcterms.referencesSalmi, J., Salmela, V., Salo, E., Mikkola, K., Leppämäki, S., Tani, P., . . . Alho, K. (2018a). Out of focus – Brain attention control deficits in adult ADHD. Brain research, 1692, 12-22. https://doi.org/https://doi.org/10.1016/j.brainres.2018.04.019eng
dcterms.referencesSalmi, J., Salmela, V., Salo, E., Mikkola, K., Leppämäki, S., Tani, P., . . . Alho, K. (2018b). Out of focus–Brain attention control deficits in adult ADHD. Brain research, 1692, 12-22.eng
dcterms.referencesSalomone, S., Fleming, G. R., Bramham, J., O’Connell, R. G., & Robertson, I. H. (2016). Neuropsychological deficits in adult ADHD: evidence for differential attentional impairments, deficient executive functions, and high self-reported functional impairments. Journal of attention disorders, 1087054715623045.eng
dcterms.referencesSalomone, S., Fleming, G. R., Bramham, J., O’Connell, R. G., & Robertson, I. H. (2020). Neuropsychological deficits in adult ADHD: evidence for differential attentional impairments, deficient executive functions, and high self-reported functional impairments. Journal of attention disorders, 24(10), 1413-1424.eng
dcterms.referencesSalthouse, T. A. (1996). The processing-speed theory of adult age differences in cognition. Psychological review, 103(3), 403.eng
dcterms.referencesSalum, G. A., Sato, J. R., Manfro, A. G., Pan, P. M., Gadelha, A., do Rosário, M. C., . . . Rohde, L. A. (2019). Reaction time variability and attention-deficit/hyperactivity disorder: is increased reaction time variability specific to attention-deficit/hyperactivity disorder? Testing predictions from the default-mode interference hypothesis. ADHD Attention Deficit and Hyperactivity Disorders, 11(1), 47-58.eng
dcterms.referencesSamea, F., Soluki, S., Nejati, V., Zarei, M., Cortese, S., Eickhoff, S. B., . . . Eickhoff, C. R. (2019). Brain alterations in children/adolescents with ADHD revisited: A neuroimaging meta-analysis of 96 structural and functional studies. Neuroscience & Biobehavioral Reviews, 100, 1-8. https://doi.org/https://doi.org/10.1016/j.neubiorev.2019.02.011eng
dcterms.referencesSanders, A. (1983). Towards a model of stress and human performance. Acta psychologica, 53(1), 61-97.eng
dcterms.referencesSanders, A. F., & Sanders, A. (2013). Elements of human performance: Reaction processes and attention in human skill. Psychology press.eng
dcterms.referencesSaville, C. W., Feige, B., Kluckert, C., Bender, S., Biscaldi, M., Berger, A., . . . Klein, C. (2015). Increased reaction time variability in attention‐deficit hyperactivity disorder as a response‐related phenomenon: evidence from single‐trial event‐related potentials. Journal of Child Psychology and Psychiatry, 56(7), 801-813.eng
dcterms.referencesScassellati, C., & Bonvicini, C. (2015). Role of dopaminergic and noradrenergic systems as potential biomarkers in ADHD diagnosis and treatment. ADHD–New directions in diagnosis and treatment, 55-83.eng
dcterms.referencesSchachar, R. J., Tannock, R., & Logan, G. (1993). Inhibitory control, impulsiveness, and attention deficit hyperactivity disorder. Clinical psychology review, 13(8), 721-739.eng
dcterms.referencesSchmiedek, F., Lövdén, M., & Lindenberger, U. (2009). On the relation of mean reaction time and intraindividual reaction time variability. Psychology and aging, 24(4), 841.eng
dcterms.referencesSchmiedek, F., Oberauer, K., Wilhelm, O., Süß, H.-M., & Wittmann, W. W. (2007). Individual differences in components of reaction time distributions and their relations to working memory and intelligence. Journal of Experimental Psychology: General, 136(3), 414.eng
dcterms.referencesSchulz, K. P., Li, X., Clerkin, S. M., Fan, J., Berwid, O. G., Newcorn, J. H., & Halperin, J. M. (2017). Prefrontal and parietal correlates of cognitive control related to the adult outcome of attention-deficit/hyperactivity disorder diagnosed in childhood. Cortex, 90, 1-11.eng
dcterms.referencesSchulz-Zhecheva, Y., Voelkle, M. C., Beauducel, A., Biscaldi, M., & Klein, C. (2016). Predicting fluid intelligence by components of reaction time distributions from simple choice reaction time tasks. Journal of Intelligence, 4(3), 8.eng
dcterms.referencesSchwarz, W. (2001). The ex-Wald distribution as a descriptive model of response times. Behavior Research Methods, Instruments, & Computers, 33(4), 457-469.eng
dcterms.referencesSchweren, L. J., de Zeeuw, P., & Durston, S. (2013). MR imaging of the effects of methylphenidate on brain structure and function in attention-deficit/hyperactivity disorder. European Neuropsychopharmacology, 23(10), 1151-1164.eng
dcterms.referencesSebastian, A., Gerdes, B., Feige, B., Klöppel, S., Lange, T., Philipsen, A., . . . Tüscher, O. (2012). Neural correlates of interference inhibition, action withholding and action cancelation in adult ADHD. Psychiatry Research: Neuroimaging, 202(2), 132-141.eng
dcterms.referencesSebastian, A., Jung, P., Krause-Utz, A., Lieb, K., Schmahl, C., & Tüscher, O. (2014). Frontal dysfunctions of impulse control–a systematic review in borderline personality disorder and attention-deficit/hyperactivity disorder. Frontiers in Human Neuroscience, 8, 698.eng
dcterms.referencesSeidman, L. J. (2006). Neuropsychological functioning in people with ADHD across the lifespan. Clin Psychol Rev, 26(4), 466-485. https://doi.org/10.1016/j.cpr.2006.01.004eng
dcterms.referencesSergeant, J. A. (2000). The cognitive-energetic model: an empirical approach to Attention-Deficit Hyperactivity Disorder. Neuroscience & Biobehavioral Reviews, 24(1), 7-12. https://doi.org/https://doi.org/10.1016/S0149-7634(99)00060-3eng
dcterms.referencesSergeant, J. A. (2005). Modeling attention-deficit/hyperactivity disorder: a critical appraisal of the cognitive-energetic model. Biological psychiatry, 57(11), 1248-1255.eng
dcterms.referencesSergeant, J. A., Oosterlaan, J., & van der Meere, J. (1999). Information processing and energetic factors in attention-deficit/hyperactivity disorder. In Handbook of disruptive behavior disorders (pp. 75-104). Springer.eng
dcterms.referencesServera-Barceló, M. (2005). Modelo de autorregulación de Barkley aplicado al trastorno por déficit de atención con hiperactividad: una revisión. Revista de neurología, 40(6), 358-368.spa
dcterms.referencesShallice, T., Marzocchi, G. M., Coser, S., Del Savio, M., Meuter, R. F., & Rumiati, R. I. (2002). Executive Function Profile of Children With Attention Deficit Hyperactivity Disorder. Developmental Neuropsychology, 21(1), 43-71. https://doi.org/10.1207/S15326942DN2101_3eng
dcterms.referencesShaw, P., Malek, M., Watson, B., Greenstein, D., De Rossi, P., & Sharp, W. (2013). Trajectories of cerebral cortical development in childhood and adolescence and adult attention-deficit/hyperactivity disorder. Biological psychiatry, 74(8), 599-606.eng
dcterms.referencesShaw, P., Sudre, G., Wharton, A., Weingart, D., Sharp, W., & Sarlls, J. (2015). White matter microstructure and the variable adult outcome of childhood attention deficit hyperactivity disorder. Neuropsychopharmacology, 40(3), 746-754.eng
dcterms.referencesShirama, A., Takeda, T., Ohta, H., Iwanami, A., Toda, S., & Kato, N. (2020). Atypical alert state control in adult patients with ADHD: A pupillometry study. PLoS ONE, 15(12), e0244662.eng
dcterms.referencesSilver, H., & Feldman, P. (2005). Evidence for sustained attention and working memory in schizophrenia sharing a common mechanism. The Journal of neuropsychiatry and clinical neurosciences, 17(3), 391-398.eng
dcterms.referencesSilverstein, M. J., Faraone, S. V., Leon, T. L., Biederman, J., Spencer, T. J., & Adler, L. A. (2018). The Relationship Between Executive Function Deficits and DSM-5-Defined ADHD Symptoms. Journal of attention disorders, 1087054718804347.eng
dcterms.referencesSingh, T., Laub, R., Burgard, J. P., & Frings, C. (2018). Disentangling inhibition-based and retrieval-based aftereffects of distractors: Cognitive versus motor processes. Journal of Experimental Psychology: Human perception and performance, 44(5), 797.eng
dcterms.referencesSjöwall, D., Roth, L., Lindqvist, S., & Thorell, L. B. (2013). Multiple deficits in ADHD: executive dysfunction, delay aversion, reaction time variability, and emotional deficits. Journal of Child Psychology and Psychiatry, 54(6), 619-627.eng
dcterms.referencesSkinner, B. (1953). Ciencia y conducta humana [Science and human behavior]. Barcelona: Fontanella. Original document published.eng
dcterms.referencesSmith, P. L. (1995). Psychophysically principled models of visual simple reaction time. Psychological review, 102(3), 567.eng
dcterms.referencesSmith, P. L., & Ratcliff, R. (2004). Psychology and neurobiology of simple decisions. Trends in neurosciences, 27(3), 161-168.eng
dcterms.referencesSolanto, M. V. (1998). Neuropsychopharmacological mechanisms of stimulant drug action in attention-deficit hyperactivity disorder: a review and integration. Behavioural brain research, 94(1), 127-152.eng
dcterms.referencesSolanto, M. V. (2019). The prevalence of “late-onset” ADHD in a clinically referred adult sample. Journal of attention disorders, 23(9), 1026-1034.eng
dcterms.referencesSonuga-Barke, E., Bitsakou, P., & Thompson, M. (2010). Beyond the dual pathway model: evidence for the dissociation of timing, inhibitory, and delay-related impairments in attention-deficit/hyperactivity disorder. Journal of the American Academy of Child & Adolescent Psychiatry, 49(4), 345-355.eng
dcterms.referencesSonuga-Barke, E. J. (2002). Psychological heterogeneity in AD/HD--a dual pathway model of behaviour and cognition. Behav Brain Res, 130(1-2), 29-36.eng
dcterms.referencesSonuga-Barke, E. J., & Castellanos, F. X. (2007). Spontaneous attentional fluctuations in impaired states and pathological conditions: a neurobiological hypothesis. Neuroscience & Biobehavioral Reviews, 31(7), 977-986.eng
dcterms.referencesSonuga‐Barke, E., Taylor, E., Sembi, S., & Smith, J. (1992). Hyperactivity and delay aversion—I. The effect of delay on choice. Journal of Child Psychology and Psychiatry, 33(2), 387-398.eng
dcterms.referencesSpencer, S. V., Hawk, L. W., Richards, J. B., Shiels, K., Pelham, W. E., & Waxmonsky, J. G. (2009). Stimulant treatment reduces lapses in attention among children with ADHD: the effects of methylphenidate on intra-individual response time distributions. Journal of abnormal child psychology, 37(6), 805-816.eng
dcterms.referencesSpieler, D. H., Balota, D. A., & Faust, M. E. (1996). Stroop performance in healthy younger and older adults and in individuals with dementia of the Alzheimer's type. Journal of Experimental Psychology: Human perception and performance, 22(2), 461.eng
dcterms.referencesSprich, S., Biederman, J., Crawford, M. H., Mundy, E., & Faraone, S. V. (2000). Adoptive and biological families of children and adolescents with ADHD. Journal of the American Academy of Child & Adolescent Psychiatry, 39(11), 1432-1437.eng
dcterms.referencesSprich, S. E., & Burbridge, J. A. (2019). Cognitive-Behavioral Therapy for Adolescents with ADHD. ADHD in Adolescents: Development, Assessment, and Treatment, 350.eng
dcterms.referencesSteiner, N. J., Frenette, E. C., Rene, K. M., Brennan, R. T., & Perrin, E. C. (2014). Neurofeedback and cognitive attention training for children with attention-deficit hyperactivity disorder in schools. Journal of Developmental & Behavioral Pediatrics, 35(1), 18-27.eng
dcterms.referencesSteiner, N. J., Frenette, E. C., Rene, K. M., Brennan, R. T., & Perrin, E. C. (2014). Neurofeedback and cognitive attention training for children with attention-deficit hyperactivity disorder in schools. J Dev Behav Pediatr, 35(1), 18-27. https://doi.org/10.1097/dbp.0000000000000009eng
dcterms.referencesSteinhauser, M., & Hübner, R. (2007). Automatic activation of task-related representations in task shifting. Memory & cognition, 35(1), 138-155.eng
dcterms.referencesSteinhauser, M., & Hübner, R. (2009). Distinguishing response conflict and task conflict in the Stroop task: evidence from ex-Gaussian distribution analysis. Journal of Experimental Psychology: Human perception and performance, 35(5), 1398.eng
dcterms.referencesSurman, C. B., Biederman, J., Spencer, T., Miller, C. A., Petty, C. R., & Faraone, S. V. (2015). Neuropsychological deficits are not predictive of deficient emotional self-regulation in adults with ADHD. Journal of attention disorders, 19(12), 1046-1053.eng
dcterms.referencesSuskauer, S. J., Simmonds, D. J., Caffo, B. S., Denckla, M. B., Pekar, J. J., & Mostofsky, S. H. (2008). fMRI of intrasubject variability in ADHD: anomalous premotor activity with prefrontal compensation. Journal of the American Academy of Child & Adolescent Psychiatry, 47(10), 1141-1150.eng
dcterms.referencesSutcubasi, B., Metin, B., Kurban, M. K., Metin, Z. E., Beser, B., & Sonuga-Barke, E. (2020). Resting-state network dysconnectivity in ADHD: a system-neuroscience-based meta-analysis. The World Journal of Biological Psychiatry, 21(9), 662-672.eng
dcterms.referencesSwanson, J. M., Posner, M., Potkin, S., Bonforte, S., Youpa, D., Fiore, C., . . . Crinella, F. (1991). Activating tasks for the study of visual-spatial attention in ADHD children: A cognitive anatomic approach. Journal of child neurology, 6(1_suppl), S119-S127.eng
dcterms.referencesSzekely, E., Sudre, G. P., Sharp, W., Leibenluft, E., & Shaw, P. (2017). Defining the neural substrate of the adult outcome of childhood ADHD: A multimodal neuroimaging study of response inhibition. American Journal of Psychiatry, 174(9), 867-876.eng
dcterms.referencesTacchini, G., Coppola, M., Musazzi, A., Altamura, A., & Invernizzi, G. (1994). Validazione multinazionale della Composite International Diagnostic Interview (CIDI). Minerva psichiatrica.eng
dcterms.referencesTamm, L., Epstein, J. N., Denton, C. A., Vaughn, A. J., Peugh, J., & Willcutt, E. G. (2014). Reaction time variability associated with reading skills in poor readers with ADHD. Journal of the International Neuropsychological Society, 20(3), 292-301.eng
dcterms.referencesTamm, L., Menon, V., & Reiss, A. L. (2002). Maturation of brain function associated with response inhibition. Journal of the American Academy of Child & Adolescent Psychiatry, 41(10), 1231-1238.eng
dcterms.referencesTamm, L., Narad, M. E., Antonini, T. N., O'Brien, K. M., Hawk, L. W., Jr., & Epstein, J. N. (2012). Reaction time variability in ADHD: a review. Neurotherapeutics : the journal of the American Society for Experimental NeuroTherapeutics, 9(3), 500-508. https://doi.org/10.1007/s13311-012-0138-5eng
dcterms.referencesTamnes, C. K., Fjell, A. M., Westlye, L. T., Østby, Y., & Walhovd, K. B. (2012). Becoming consistent: developmental reductions in intraindividual variability in reaction time are related to white matter integrity. Journal of Neuroscience, 32(3), 972-982.eng
dcterms.referencesTarantino, V., Cutini, S., Mogentale, C., & Bisiacchi, P. S. (2013). Time-on-task in children with ADHD: an ex-Gaussian analysis. Journal of the International Neuropsychological Society, 19(7), 820-828.eng
dcterms.referencesTenenbaum, R. B., Musser, E. D., Morris, S., Ward, A. R., Raiker, J. S., Coles, E. K., & Pelham, W. E. (2019). Response inhibition, response execution, and emotion regulation among children with attention-deficit/hyperactivity disorder. Journal of Abnormal Child Psychology, 47(4), 589-603.eng
dcterms.referencesThapar, A., Cooper, M., Eyre, O., & Langley, K. (2013). Practitioner review: what have we learnt about the causes of ADHD? Journal of Child Psychology and Psychiatry, 54(1), 3-16.eng
dcterms.referencesThatcher, R. W. (1994). Psychopathology of early frontal lobe damage: Dependence on cycles of development. Development and Psychopathology, 6(4), 565-596.eng
dcterms.referencesThissen, A. J., Luman, M., Hartman, C., Hoekstra, P., van Lieshout, M., Franke, B., . . . Buitelaar, J. K. (2014). Attention-deficit/hyperactivity disorder (ADHD) and motor timing in adolescents and their parents: familial characteristics of reaction time variability vary with age. Journal of the American Academy of Child & Adolescent Psychiatry, 53(9), 1010-1019. e1014.eng
dcterms.referencesThorell, L., Holst, Y., Chistiansen, H., Kooij, J. S., Bijlenga, D., & Sjöwall, D. (2017). Neuropsychological deficits in adults age 60 and above with attention deficit hyperactivity disorder. European Psychiatry, 45, 90-96.eng
dcterms.referencesTong, J. H., Cummins, T. D., Johnson, B. P., McKinley, L. A., Pickering, H. E., Fanning, P., . . . Bellgrove, M. A. (2015). An association between a dopamine transporter gene (SLC6A3) haplotype and ADHD symptom measures in nonclinical adults. American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 168(2), 89-96.eng
dcterms.referencesToplak, M. E., Bucciarelli, S. M., Jain, U., & Tannock, R. (2008). Executive functions: performance-based measures and the behavior rating inventory of executive function (BRIEF) in adolescents with attention deficit/hyperactivity disorder (ADHD). Child Neuropsychology, 15(1), 53-72.eng
dcterms.referencesToschi, C., Hervig, M. E.-S., Moazen, P., Parker, M. G., Dalley, J. W., Gether, U., & Robbins, T. W. (2021). Adaptive aspects of impulsivity and interactions with effects of catecholaminergic agents in the 5-choice serial reaction time task: implications for ADHD. Psychopharmacology, 1-15.eng
dcterms.referencesTrampush, J. W., Jacobs, M. M., Hurd, Y. L., Newcorn, J. H., & Halperin, J. M. (2014). Moderator effects of working memory on the stability of ADHD symptoms by dopamine receptor gene polymorphisms during development. Developmental science, 17(4), 584-595.eng
dcterms.referencesTremblay, L. K., Hammill, C., Ameis, S. H., Bhaijiwala, M., Mabbott, D. J., Anagnostou, E., . . . Schachar, R. J. (2020). Tracking inhibitory control in youth with ADHD: A multi-modal neuroimaging approach. Frontiers in Psychiatry, 11, 00831.eng
dcterms.referencesTruedsson, E., Bohlin, G., & Wåhlstedt, C. (2020). The specificity and independent contribution of inhibition, working memory, and reaction time variability in relation to symptoms of ADHD and ASD. Journal of attention disorders, 24(9), 1266-1275.eng
dcterms.referencesTucha, L., Fuermaier, A. B., Koerts, J., Buggenthin, R., Aschenbrenner, S., Weisbrod, M., . . . Tucha, O. (2017). Sustained attention in adult ADHD: time-on-task effects of various measures of attention. Journal of neural transmission, 124(1), 39-53.eng
dcterms.referencesTucha, L., Tucha, O., Walitza, S., Sontag, T. A., Laufkötter, R., Linder, M., & Lange, K. W. (2009). Vigilance and sustained attention in children and adults with ADHD. Journal of attention disorders, 12(5), 410-421.eng
dcterms.referencesTye, C., Johnson, K. A., Kelly, S. P., Asherson, P., Kuntsi, J., Ashwood, K. L., . . . McLoughlin, G. (2016). Response time variability under slow and fast‐incentive conditions in children with ASD, ADHD and ASD+ ADHD. Journal of Child Psychology and Psychiatry, 57(12), 1414-1423.eng
dcterms.referencesTye, C., McLoughlin, G., Kuntsi, J., & Asherson, P. (2011). Electrophysiological markers of genetic risk for attention deficit hyperactivity disorder. Expert Rev Mol Med, 13, e9. https://doi.org/10.1017/s1462399411001797spa
dcterms.referencesUchida, M., Spencer, T. J., Faraone, S. V., & Biederman, J. (2018). Adult outcome of ADHD: an overview of results from the MGH longitudinal family studies of pediatrically and psychiatrically referred youth with and without ADHD of both sexes. Journal of attention disorders, 22(6), 523-534.eng
dcterms.referencesUddin, L. Q., Clare Kelly, A., Biswal, B. B., Xavier Castellanos, F., & Milham, M. P. (2009). Functional connectivity of default mode network components: correlation, anticorrelation, and causality. Human brain mapping, 30(2), 625-637.eng
dcterms.referencesUebel, H., Albrecht, B., Asherson, P., Börger, N. A., Butler, L., Chen, W., . . . Schäfer, U. (2010). Performance variability, impulsivity errors and the impact of incentives as gender‐independent endophenotypes for ADHD. Journal of Child Psychology and Psychiatry, 51(2), 210-218.eng
dcterms.referencesUlrich, R., & Miller, J. (1994). Effects of truncation on reaction time analysis. Journal of Experimental Psychology: General, 123(1), 34.eng
dcterms.referencesUnsworth, N., Redick, T. S., Lakey, C. E., & Young, D. L. (2010). Lapses in sustained attention and their relation to executive control and fluid abilities: An individual differences investigation. Intelligence, 38(1), 111-122.eng
dcterms.referencesUsher, M., & McClelland, J. L. (2001). The time course of perceptual choice: the leaky, competing accumulator model. Psychological review, 108(3), 550.eng
dcterms.referencesVainieri, I., Adamo, N., Michelini, G., Kitsune, V., Asherson, P., & Kuntsi, J. (2020). Attention regulation in women with ADHD and women with bipolar disorder: An ex-Gaussian approach. Psychiatry Research, 285, 112729.eng
dcterms.referencesVainieri, I., Michelini, G., Adamo, N., Cheung, C. H., Asherson, P., & Kuntsi, J. (2020). Event-related brain-oscillatory and ex-Gaussian markers of remission and persistence of ADHD. Psychological Medicine, 1-10.eng
dcterms.referencesVainieri, I., Michelini, G., Adamo, N., Cheung, C. H., Asherson, P., & Kuntsi, J. (2022). Event-related brain-oscillatory and ex-Gaussian markers of remission and persistence of ADHD. Psychological medicine, 52(2), 352-361.eng
dcterms.referencesValko, L., Doehnert, M., Müller, U. C., Schneider, G., Albrecht, B., Drechsler, R., . . . Brandeis, D. (2009). Differences in neurophysiological markers of inhibitory and temporal processing deficits in children and adults with ADHD. Journal of Psychophysiology, 23(4), 235-246.eng
dcterms.referencesVan Belle, J., van Hulst, B. M., & Durston, S. (2015b). Developmental differences in intra‐individual variability in children with ADHD and ASD. Journal of Child Psychology and Psychiatry, 56(12), 1316-1326.eng
dcterms.referencesVan Belle, J., Van Raalten, T., Bos, D. J., Zandbelt, B. B., Oranje, B., & Durston, S. (2015). Capturing the dynamics of response variability in the brain in ADHD. NeuroImage: Clinical, 7, 132-141.eng
dcterms.referencesVan Damme, S., & Crombez, G. (2009). Measuring attentional bias to threat in children and adolescents: A matter of speed? Journal of behavior therapy and experimental psychiatry, 40(2), 344-351.eng
dcterms.referencesVan De Voorde, S., Roeyers, H., Verté, S., & Wiersema, J. R. (2010). Working memory, response inhibition, and within-subject variability in children with attention-deficit/hyperactivity disorder or reading disorder. Journal of Clinical and Experimental Neuropsychology, 32(4), 366-379.eng
dcterms.referencesVan der Meere, J., Börger, N., & Wiersema, J. (2010). ADHD: State regulation and motivation. CML Psychiatry, 21, 14-20.eng
dcterms.referencesvan Ewijk, H., Heslenfeld, D. J., Zwiers, M. P., Faraone, S. V., Luman, M., Hartman, C. A., . . . Oosterlaan, J. (2014). Different mechanisms of white matter abnormalities in attention-deficit/hyperactivity disorder: a diffusion tensor imaging study. Journal of the American Academy of Child & Adolescent Psychiatry, 53(7), 790-799. e793.eng
dcterms.referencesvan Hulst, B. M., de Zeeuw, P., Vlaskamp, C., Rijks, Y., Zandbelt, B. B., & Durston, S. (2018). Children with ADHD symptoms show deficits in reactive but not proactive inhibition, irrespective of their formal diagnosis. Psychological Medicine, 48(15), 2515-2521. https://doi.org/10.1017/S0033291718000107eng
dcterms.referencesvan Rooij, D., Hartman, C. A., Mennes, M., Oosterlaan, J., Franke, B., Rommelse, N., . . . Hoekstra, P. J. (2015). Altered neural connectivity during response inhibition in adolescents with attention-deficit/hyperactivity disorder and their unaffected siblings. NeuroImage: Clinical, 7, 325-335.eng
dcterms.referencesVan Rooij, D., Hartman, C. A., Van Donkelaar, M. M., Bralten, J., Von Rhein, D., Hakobjan, M., . . . Rommelse, N. (2015). Variation in serotonin neurotransmission genes affects neural activation during response inhibition in adolescents and young adults with ADHD and healthy controls. The World Journal of Biological Psychiatry, 16(8), 625-634.eng
dcterms.referencesvan Rooij, D., Hoekstra, P. J., Mennes, M., von Rhein, D., Thissen, A. J., Heslenfeld, D., . . . Franke, B. (2015). Distinguishing adolescents with ADHD from their unaffected siblings and healthy comparison subjects by neural activation patterns during response inhibition. American Journal of Psychiatry, 172(7), 674-683.eng
dcterms.referencesVasquez, B. P., Binns, M. A., & Anderson, N. D. (2016). Staying on task: Age-related changes in the relationship between executive functioning and response time consistency. Journals of Gerontology Series B: Psychological Sciences and Social Sciences, 71(2), 189-200.eng
dcterms.referencesVasquez, B. P., Binns, M. A., & Anderson, N. D. (2018). Response time consistency is an indicator of executive control rather than global cognitive ability. Journal of the International Neuropsychological Society, 24(5), 456-465.eng
dcterms.referencesVaurio, R. G., Simmonds, D. J., & Mostofsky, S. H. (2009). Increased intra-individual reaction time variability in attention-deficit/hyperactivity disorder across response inhibition tasks with different cognitive demands. Neuropsychologia, 47(12), 2389-2396.eng
dcterms.referencesVerleger, R., Kuniecki, M., Möller, F., Fritzmannova, M., & Siebner, H. R. (2009). On how the motor cortices resolve an inter‐hemispheric response conflict: An event‐related EEG potential‐guided TMS study of the flankers task. European Journal of Neuroscience, 30(2), 318-326.eng
dcterms.referencesVon Der Heide, R. J., Wenger, M. J., Bittner, J. L., & Fitousi, D. (2018). Converging operations and the role of perceptual and decisional influences on the perception of faces: Neural and behavioral evidence. Brain and Cognition, 122, 59-75.eng
dcterms.referencesWagenmakers, E.-J., van der Maas, H. L., Dolan, C. V., & Grasman, R. P. (2008). EZ does it! Extensions of the EZ-diffusion model. Psychonomic bulletin & review, 15(6), 1229-1235.eng
dcterms.referencesWagenmakers, E.-J., Van Der Maas, H. L., & Grasman, R. P. (2007). An EZ-diffusion model for response time and accuracy. Psychonomic bulletin & review, 14(1), 3-22.eng
dcterms.referencesWallace, S., & Linscott, R. J. (2018). Intra-individual variability and psychotic-like experiences in adolescents: Findings from the ALSPAC cohort. Schizophrenia research, 195, 154-159.eng
dcterms.referencesWang, Y.-Y., Sun, L., Liu, Y.-W., Pan, J.-H., Zheng, Y.-M., Wang, Y.-F., . . . Zhang, H. (2020). The Low-Frequency Fluctuation of Trial-by-Trial Frontal Theta Activity and Its Correlation With Reaction-Time Variability in Sustained Attention [Original Research]. Frontiers in Psychology, 11(1555). https://doi.org/10.3389/fpsyg.2020.01555eng
dcterms.referencesWeigard, A., Heathcote, A., Matzke, D., & Huang-Pollock, C. (2018). Cognitive modeling suggests that attentional failures drive longer stop-signal reaction time estimates in ADHD. Manuscript submitted for publication.eng
dcterms.referencesWeiss, G., & Hechtman, L. T. (1993). Hyperactive children grown up: ADHD in children, adolescents, and adults. Guilford Press.eng
dcterms.referencesWeissman, D. H., Roberts, K., Visscher, K., & Woldorff, M. (2006). The neural bases of momentary lapses in attention. Nature neuroscience, 9(7), 971-978.eng
dcterms.referencesWelford, A. T. (1980). Reaction times. Academic Pr.eng
dcterms.referencesWelsh, M. C., & Pennington, B. F. (1988). Assessing frontal lobe functioning in children: Views from developmental psychology. Developmental Neuropsychology, 4(3), 199-230.eng
dcterms.referencesWeyandt, L., DuPaul, G. J., Verdi, G., Rossi, J. S., Swentosky, A. J., Vilardo, B. S., . . . Carson, K. S. (2013). The performance of college students with and without ADHD: Neuropsychological, academic, and psychosocial functioning. Journal of Psychopathology and Behavioral Assessment, 35(4), 421-435.eng
dcterms.referencesWhelan, R. (2008). Effective analysis of reaction time data. The Psychological Record, 58(3), 475-482.eng
dcterms.referencesWilens, T. E., Biederman, J., Faraone, S. V., Martelon, M., Westerberg, D., & Spencer, T. J. (2009). Presenting ADHD symptoms, subtypes, and comorbid disorders in clinically referred adults with ADHD. The Journal of clinical psychiatry, 70(11), 1557.eng
dcterms.referencesWillcutt, E. G., Doyle, A. E., Nigg, J. T., Faraone, S. V., & Pennington, B. F. (2005). Validity of the Executive Function Theory of Attention-Deficit/Hyperactivity Disorder: A Meta-Analytic Review. Biological psychiatry, 57(11), 1336-1346. https://doi.org/https://doi.org/10.1016/j.biopsych.2005.02.006eng
dcterms.referencesWillcutt, E. G., Sonuga-Barke, E. J., Nigg, J. T., & Sergeant, J. A. (2008). Recent developments in neuropsychological models of childhood psychiatric disorders. In Biological child psychiatry (Vol. 24, pp. 195-226). Karger Publishers.eng
dcterms.referencesWimberley, T., Agerbo, E., Horsdal, H. T., Ottosen, C., Brikell, I., Als, T. D., . . . Mors, O. (2020). Genetic liability to ADHD and substance use disorders in individuals with ADHD. Addiction, 115(7), 1368-1377.eng
dcterms.referencesWitvliet, D., Mulcahy, B., Mitchell, J. K., Meirovitch, Y., Berger, D. R., Wu, Y., . . . Zhen, M. (2021). Connectomes across development reveal principles of brain maturation. bioRxiv, 2020.2004.2030.066209. https://doi.org/10.1101/2020.04.30.066209eng
dcterms.referencesWixted, J. T., Ghadisha, H., & Vera, R. (1997). Recall latency following pure-and mixed-strength lists: A direct test of the relative strength model of free recall. Journal of Experimental Psychology: Learning, Memory, and Cognition, 23(3), 523.eng
dcterms.referencesWixted, J. T., & Rohrer, D. (1993). Proactive interference and the dynamics of free recall. Journal of Experimental Psychology: Learning, Memory, and Cognition, 19(5), 1024.eng
dcterms.referencesWodka, E. L., Mark Mahone, E., Blankner, J. G., Gidley Larson, J. C., Fotedar, S., Denckla, M. B., & Mostofsky, S. H. (2007). Evidence that response inhibition is a primary deficit in ADHD. Journal of clinical and experimental neuropsychology, 29(4), 345-356.eng
dcterms.referencesWolfers, T., Onnink, A. M. H., Zwiers, M. P., Arias-Vasquez, A., Hoogman, M., Mostert, J. C., . . . Franke, B. (2015). Lower white matter microstructure in the superior longitudinal fasciculus is associated with increased response time variability in adults with attention-deficit/hyperactivity disorder. Journal of psychiatry & neuroscience: JPN, 40(5), 344.eng
dcterms.referencesWolraich, M. L., Wibbelsman, C. J., Brown, T. E., Evans, S. W., Gotlieb, E. M., Knight, J. R., . . . Wilens, T. (2005). Attention-deficit/hyperactivity disorder among adolescents: a review of the diagnosis, treatment, and clinical implications. Pediatrics, 115(6), 1734-1746.eng
dcterms.referencesWood, A., Asherson, P., Van Der Meere, J., & Kuntsi, J. (2010). Separation of genetic influences on attention deficit hyperactivity disorder symptoms and reaction time performance from those on IQ. Psychological Medicine, 40(6), 1027-1037.eng
dcterms.referencesXia, S., Li, X., Kimball, A. E., Kelly, M. S., Lesser, I., & Branch, C. (2012). Thalamic shape and connectivity abnormalities in children with attention-deficit/hyperactivity disorder. Psychiatry Research: Neuroimaging, 204(2-3), 161-167.eng
dcterms.referencesYang, Y., Bender, A. R., & Raz, N. (2015). Age related differences in reaction time components and diffusion properties of normal-appearing white matter in healthy adults. Neuropsychologia, 66, 246-258.eng
dcterms.referencesYap, M. J., & Balota, D. A. (2007). Additive and interactive effects on response time distributions in visual word recognition. Journal of Experimental Psychology: Learning, Memory, and Cognition, 33(2), 274.eng
dcterms.referencesYap, M. J., Balota, D. A., Cortese, M. J., & Watson, J. M. (2006). Single-versus dual-process models of lexical decision performance: Insights from response time distributional analysis. Journal of Experimental Psychology: Human perception and performance, 32(6), 1324.eng
dcterms.referencesYazdi, S. A. A., Farahi, S. M. M., Farahi, S. M. M. M., & Hosseini, J. (2018). Emotional intelligence and its role in cognitive flexibility of children with and without Attention Deficit Hyperactivity Disorder. Anales de Psicología/Annals of Psychology, 34(2), 299-304.eng
dcterms.referencesYoung, S., Sedgwick, O., Fridman, M., Gudjonsson, G., Hodgkins, P., Lantigua, M., & González, R. (2015). Co-morbid psychiatric disorders among incarcerated ADHD populations: a meta-analysis. Psychological medicine, 45(12), 2499-2510.eng
dcterms.referencesYu-Feng, Z., Yong, H., Chao-Zhe, Z., Qing-Jiu, C., Man-Qiu, S., Meng, L., . . . Yu-Feng, W. (2007). Altered baseline brain activity in children with ADHD revealed by resting-state functional MRI. Brain and Development, 29(2), 83-91.eng
dcterms.referencesZelazo, P. D. (2020). Executive function and psychopathology: A neurodevelopmental perspective. Annual Review of Clinical Psychology, 16, 431-454.eng
dcterms.referencesZelazo, P. D., Craik, F. I., & Booth, L. (2004). Executive function across the life span. Acta psychologica, 115(2-3), 167-183.eng
dcterms.referencesZelazo, P. D., & Müller, U. (2002). Executive function in typical and atypical development.eng
dcterms.referencesZhu, Y., Liu, W., Li, Y., Wang, X., & Winterstein, A. G. (2018). Prevalence of ADHD in publicly insured adults. Journal of attention disorders, 22(2), 182-190.eng
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