The utility of intraindividual variability in selective attention tasks as an early marker for Alzheimer’s disease.

Duchek, Janet M.; Balota, David A.; Tse, Chi‐Shing; Holtzman, David M.; Fagan, Anne M.; Goate, Alison M.

doi:10.1037/a0016583

Cited by 139 publications

(192 citation statements)

References 72 publications

(115 reference statements)

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Section: Introductionmentioning

confidence: 90%

“…One proposal holds that IIV is an early indicator of neurobiological disturbance (Hultsch, MacDonald, Hunter, Levy-Bencheton, & Strauss, 2000;Hultsch, Strauss, Hunter, & MacDonald, 2008). In support of this, greater variability is evident in individuals with agerelated disorders such as mild cognitive impairment and dementia (Christensen et al, 2005;Duchek et al, 2009;Gorus, De Raedt, Lambert, Lemper, & Mets, 2008;Hultsch et al, 2000;Strauss, Bielak, Bunce, Hunter, & Hultsch, 2007), Parkinson's disease (de Frias, Dixon, Fisher, & Camicioli, 2007) and also frontal lobe lesions (Stuss, Murphy, Binns, & Alexander, 2003).Given the suggestion that IIV is an indicator of neurobiological disturbance, a number of magnetic resonance imaging (MRI) studies have investigated the link between variability and structural brain measures. In healthy ageing, associations have been shown between IIV and white matter hyperintensities (WMH: Bunce et al, 2010;Bunce et al, 2007), white matter volume (Jackson, Balota, Duchek, & Head, 2012;Lovden et al, 2013;Ullen, Forsman, Blom, Karabanov, & Madison, 2008;Walhovd & Fjell, 2007) and diffusion tensor imaging metrics (e.g., FA -fractional anisotropy) (Deary et al, 2006;Fjell, Westlye, Amlien, & Walhovd, 2011;Mella, de Ribaupierre, Eagleson, & de Ribaupierre, 2013; Moy et al, 2011).…”

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Associations between reaction time measures and white matter hyperintensities in very old age

et al. 2017

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In old age, a relationship has been reported between intraindividual variability (IIV) in reaction time and white matter integrity as evidenced by white matter hyperintensities (WMH). However, it is unclear how far such associations are due to incipient neurodegenerative pathology in the samples investigated. The present study examined the relationship between IIV and WMH in older individuals (N=526) drawn from the Sydney Memory and Ageing Study. Using a complex reaction time (RT) task, greater IIV and mean-RT were related to a higher WMH burden in the frontal lobe. Critically, significant associations remained having taken future dementia into account suggesting that they were not explained by incipient dementia. Additionally, independent measures of executive function accounted for the association between RT metrics and WHM. The results are consistent with the view that frontally-supported cognitive processes are involved in IIV-WMH relations, and that RT measures are sensitive to compromise in white matter structures in non-demented older individuals.Key words, white matter hyperintensities, reaction time, intraindividual variability, executive function, cognition.RT variability and WMH in old age 3 IntroductionIntraindividual variability (IIV), or inconsistency (e.g., Hultsch, MacDonald, & Dixon, 2002), refers to within-person variation in cognitive performance over time, and is often measured by the trial-by-trial variation in reaction times (RT) for a given cognitive task. It is well established that ageing is accompanied by cognitive decline and slowing of processing speed (e.g., Salthouse, 2010). However, an accumulating body of research suggests older adults are also more variable than younger adults (e.g., Bielak, Cherbuin, Bunce, & Anstey, 2014), even when response speed is taken into account (Dykiert, Der, Starr, & Deary, 2012). One proposal holds that IIV is an early indicator of neurobiological disturbance (Hultsch, MacDonald, Hunter, Levy-Bencheton, & Strauss, 2000;Hultsch, Strauss, Hunter, & MacDonald, 2008). In support of this, greater variability is evident in individuals with agerelated disorders such as mild cognitive impairment and dementia (Christensen et al., 2005;Duchek et al., 2009;Gorus, De Raedt, Lambert, Lemper, & Mets, 2008;Hultsch et al., 2000;Strauss, Bielak, Bunce, Hunter, & Hultsch, 2007), Parkinson's disease (de Frias, Dixon, Fisher, & Camicioli, 2007) and also frontal lobe lesions (Stuss, Murphy, Binns, & Alexander, 2003).Given the suggestion that IIV is an indicator of neurobiological disturbance, a number of magnetic resonance imaging (MRI) studies have investigated the link between variability and structural brain measures. In healthy ageing, associations have been shown between IIV and white matter hyperintensities (WMH: Bunce et al., 2010;Bunce et al., 2007), white matter volume (Jackson, Balota, Duchek, & Head, 2012;Lovden et al., 2013;Ullen, Forsman, Blom, Karabanov, & Madison, 2008;Walhovd & Fjell, 2007) and diffusion tensor imaging metrics (e.g., FA -fractional...

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Section: Introductionmentioning

confidence: 90%

mentioning

confidence: 99%

Associations between reaction time measures and white matter hyperintensities in very old age

et al. 2017

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“…For example, cross-sectional studies show that relative to healthy older persons, IIV is greater in individuals living with a range of neurodegenerative disorders including Parkinson's disease (e.g., de Frias, Dixon, Fisher, & Camicioli, 2007), MCI (e.g., Christensen et al, 2005;Dixon et al, 2007), and dementia (e.g., Gorus, De Raedt, Lambert, Lemper, & Mets, 2008;Hultsch et al, 2000), including early stage Alzheimer's disease (Duchek et al, 2009). However, given these findings of greater variability in the presence of age-related neuropathology, what evidence is there of associations between IIV and brain substrates?…”

Section: Neuropathology and Brain Substrates Of Intraindividual Variamentioning

confidence: 99%

A Systematic Review of Longitudinal Associations Between Reaction Time Intraindividual Variability and Age-Related Cognitive Decline or Impairment, Dementia, and Mortality

Haynes

Bauermeister

Bunce

2017

J Int Neuropsychol Soc

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Objective: Intraindividual variability (IIV) in reaction time refers to the trial-to-trial fluctuations in responding across a given cognitive task. Cross-sectional research suggests that IIV increases with normal and neuropathological ageing and it may serve as a marker of neurobiological integrity. This raises the possibility that IIV may also predict future cognitive decline and, indeed, neuropathology. Therefore, we conducted a systematic review to address these issues. It is well established that adult ageing is characterised behaviourally by increased intraindividual variability in cognitive function. As the present review will show, such variability is not only a feature of normal ageing, but becomes more marked in the presence of neuropathology or impending mortality. It is likely that this widely observed behavioural characteristic of ageing reflects greater neurobiological variability stemming from compromised central nervous system integrity. Given the proposed neurobiological underpinnings of IIV, the aim of the present systematic review, therefore, was to critically evaluate the empirical literature using this marker to predict cognitive change in normal ageing, and also age-related neuropathological outcomes including mild cognitive impairment (MCI), dementia, Parkinson's disease and, indeed, death. First though, we describe some of the characteristics of this behavioural marker before detailing theoretical and empirical linkage to potential underlying neurobiological variability.

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“…Bondi et al (2002) confirman el efecto stroop con la puntuación de interferencia ajustada a la velocidad de procesamiento, y también encontraron que los pacientes cometen más errores de intrusión. Por su parte, Duchek et al (2009) aplican una tarea stroop a un grupo de adultos jóvenes, un grupo de mayores y un grupo de pacientes con EA muy inicial y toman las medidas están-dar de tiempo de reacción (TR) y de errores. También codifican la variabilidad individual ensayo a ensayo, para lo cual calculan el coeficiente de variación (CoV), que se computa dividiendo la desviación típica del sujeto por su media.…”

Section: Control Inhibitoriounclassified

Procesos de control ejecutivo en la enfermedad de Alzheimer.

García-Viedma

Fernández-Guinea²,

Montes³

2012

analesps

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Resumen: El control ejecutivo (CE) es un mecanismo complejo compuesto por distintos subprocesos y vinculado al funcionamiento del lóbulo frontal. En los últimos años se ha generado una gran cantidad de investigación sobre los déficit de control ejecutivo (CE) en pacientes con enfermedad de Alzheimer (EA). Este análisis resulta de gran interés porque, por una parte, estudios recientes han observado precisamente alteraciones en regiones frontales en estos pacientes, y por otra parte, porque sus manifestaciones clínicas y conductuales en el inicio de la enfermedad están relacionadas con la afectación del CE. En este artículo se revisa detalladamente la evidencia existente sobre la afectación de los subprocesos del CE al inicio de la EA, determinando si habría un deterioro generalizado o disociaciones entre los componentes, así como sus posibles implicaciones básicas y aplicadas. Palabras clave: Alzheimer; control ejecutivo; neuropsicología; red ejecutiva.Title: Executive control processes in Alzheimer's disease. Abstract: It has been recently proposed that executive control (EC) is composed by different subprocesses. In recent times, EC deficits in Alzheimer's disease patients (AD) have been widely investigated. This analysis is very interesting because, on the one hand, recent studies have observed frontal lobe alterations on these demented patients, and on the other hand, Alzheimer's disease clinical and behavioural manifestations could be explained by the involvement of EC. This paper discusses in detail the possible involvement of EC subprocesses at the beginning of AD, determining if there would be a widespread decline or dissociations between components and their basic and clinical implications. Keywords: Alzheimer; executive control; neuropsychology; executive network. IntroducciónEl control ejecutivo (CE) es un mecanismo complejo que implica varias operaciones relacionadas con el control y la regulación de la conducta. Este mecanismo depende de un sistema neuronal distribuido en el que destaca el papel del córtex prefrontal (CPF), el cual tiene importantes conexiones córtico-corticales (con córtex asociativo y paralímbico) y córtico-subcorticales (principalmente con los ganglios basales, el tálamo y el hipocampo) (Cummings, 1993; Faglioni, 1999;Fuster, 1997;Karatekin, Lazareff y Asarnow, 2000;Quintana y Fuster, 1999). De esta forma, el correcto funcionamiento del CE depende de regiones corticales, tanto anteriores como posteriores, y subcorticales.El CE ha sido explorado extensamente en diversas patologías, como por ejemplo en tumores cerebrales, traumatismos craneoencefálicos, enfermedades cerebrovasculares, la enfermedad de Parkinson, la esclerosis múltiple, etc. (Fontaine, Azouvi, Remy, Bussel, y Samson, 1999; Brown y Marsden, 1998; Foong, Rozewicz, Quaghebeur, Davie y Kartsounis, 1997; Leskela, Heitanen, Kalska, Ylikoski y Pdijasvaara, 1999). Del mismo modo, el análisis del funcionamiento ejecutivo en la enfermedad de Alzheimer (EA) ha sido objeto de un gran interés. Diversos estudios muestran que esto...

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The utility of intraindividual variability in selective attention tasks as an early marker for Alzheimer’s disease.

Cited by 139 publications

References 72 publications

Associations between reaction time measures and white matter hyperintensities in very old age

Associations between reaction time measures and white matter hyperintensities in very old age

A Systematic Review of Longitudinal Associations Between Reaction Time Intraindividual Variability and Age-Related Cognitive Decline or Impairment, Dementia, and Mortality

Procesos de control ejecutivo en la enfermedad de Alzheimer.

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