White matter tracts associated with set-shifting in healthy aging

Perry, Michele E.; McDonald, Carrie R.; Hagler, Donald J.; Gharapetian, Lusineh; Kuperman, Joshua; Koyama, Alain; Dale, Anders M.; McEvoy, Linda K.

doi:10.1016/j.neuropsychologia.2009.06.008

Cited by 90 publications

(88 citation statements)

References 69 publications

(116 reference statements)

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“…Therefore, although this is clearly a multiplecomponent subtest, it is not at all surprising that a variation of the original TMT-B found in the Delis-Kaplan Executive Function System version recruited multiple, widespread brain regions consistent with what would be predicted on the basis of our understanding of functional connectivity and large-scale brain systems (Pa et al, 2010). Similarly, inherent in the functional connectivity necessary for successful task completion, it should be no surprise that speed of performance on the TMT-B is highly dependent upon the integrity of white-matter tracts (Perry et al, 2009).…”

Section: The Focus/execute Element Revisitedmentioning

confidence: 65%

The Neuropsychology of Attention: Revisiting the “Mirsky Model”

Koziol¹,

Joyce²,

Wurglitz³

2014

Applied Neuropsychology: Child

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Nearly 25 years ago, Mirsky and colleagues proposed a multiple-component model of attention. It was proposed that attention was characterized by several distinct elements that were organized into a system. A putative neuroanatomical substrate of this model of attention was proposed. This functional anatomy was primarily based upon inferences derived from brain lesion studies. Mirsky and colleagues developed a systematic clinical evaluation of this model by applying a group of neuropsychological tests. Since the introduction of what has been commonly referred to as the "Mirsky model," significant advances have been made in our understanding of brain-behavior relationships. This article applies current neuroscientific principles to "update" our understanding of attention and the "Mirsky model." We also demonstrate how the interpretation of neuropsychological tests can be modified according to principles of large-scale brain systems and patterns of brain network functional connectivity.

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Section: The Focus/execute Element Revisitedmentioning

confidence: 65%

The Neuropsychology of Attention: Revisiting the “Mirsky Model”

Koziol¹,

Joyce²,

Wurglitz³

2014

Applied Neuropsychology: Child

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“…In cortical association fiber tracts, correlation was found with decrement in set-shifting performance observed with age (Perry et al 2009).…”

Section: Micro-structural Morphological Correlates Of the Executive Fmentioning

confidence: 81%

Structural correlates of cognitive domains in normal aging with diffusion tensor imaging

Sasson

Doniger²,

Pasternak

et al. 2011

Brain Struct Funct

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The involvement of brain structures in specific cognitive functions is not straightforward. In order to characterize the brain micro-structural correlates of cognitive domains, 52 healthy subjects, age 25-82 years, completed a computerized neuropsychological battery and were scanned using magnetic resonance diffusion tensor imaging. Factor analysis of 44 different cognitive scores was performed, isolating three cognitive domains-executive function, information processing speed and memory. Partial correlation was conducted between DTI parameters and each of the three cognitive domains controlling for age and motor function. Regions showing significant correlations with cognitive domains are domain-specific and are consistent with previous knowledge. While executive function was correlated with diffusion tensor imaging (DTI) parameters in frontal white matter and in the superior longitudinal fasciculus, information processing speed was correlated with DTI parameters in the cingulum, corona radiata, inferior longitudinal fasciculus, parietal white matter and in the thalamus. Memory performance was correlated with DTI measures in temporal and frontal gray matter and white matter regions, including the cingulate cortex and the parahippocampus. Thus, inter-subject variability in cognitive performance and tissue morphology, as expressed by diffusion tensor magnetic resonance imaging, can be used to relate tissue microstructure with cognitive performance and to provide information to corroborate other functional localization techniques.

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“…In a recent study of spatial navigation, Jacobs et al noted lateralized nondominant hemisphere specialization with the right temporal/occipital regions for spatial navigation34. Whereas, both NCT-A and B have been shown sensitive to the information processing speed slowing associated with periventricular and deep white matter intensities35, functional brain imaging studies indicate that NCT-B performance is also associated with frontal and medial temporal lobe atrophy36. Our data provide additional support for the importance of the temporal lobe in navigational ability.…”

Section: Discussionmentioning

confidence: 99%