Regional white matter volume differences in nondemented aging and Alzheimer's disease

Salat, David H.; Greve, Douglas N.; Pacheco, Jennifer; Quinn, Brian T.; Helmer, Karl G.; Buckner, Randy L.; Fischl, Bruce

doi:10.1016/j.neuroimage.2008.10.030

Cited by 278 publications

(256 citation statements)

References 93 publications

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“…Given that AD and vascular brain injury are commonly co-morbid (Sonnen et al 2009), it is possible that earlier findings of lower FA in AD patients reflected vascular disturbances as opposed to a specific effect of AD pathology. Salat et al (2009) described an AD-specific decline in WM volume in the parahippocampal and entorhinal cortices, regions that traditionally suffer from atrophy with AD. Longitudinal scans that contrasted subjects with stable MCI and those that converted to AD showed increased WM atrophy in the temporal lobe (Davatzikos et al 2011).…”

Section: Wm and Alzheimer's Diseasementioning

confidence: 99%

Age-related changes in human and non-human primate white matter: from myelination disturbances to cognitive decline

Kohama

Rosene

Sherman

2011

AGE

121

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The cognitive decline associated with normal aging was long believed to be due primarily to decreased synaptic density and neuron loss. Recent studies in both humans and non-human primates have challenged this idea, pointing instead to disturbances in white matter (WM) including myelin damage. Here, we review both cross-sectional and longitudinal studies in humans and non-human primates that collectively support the hypothesis that WM disturbances increase with age starting at middle age in humans, that these disturbances contribute to age-related cognitive decline, and that age-related WM changes may occur as a result of free radical damage, degenerative changes in cells in the oligodendrocyte lineage, and changes in microenvironments within WM.

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Section: Wm and Alzheimer's Diseasementioning

confidence: 99%

Age-related changes in human and non-human primate white matter: from myelination disturbances to cognitive decline

Kohama

Rosene

Sherman

2011

AGE

121

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“…Specifically, volumetric reductions have been reported in the medial temporal and prefrontal regions of the human brain (Kramer et al 2007;Fjell and Walhovd 2010;Raz et al 2010;Cardenas et al 2011). Age-related white matter changes also have been reported in frontal and temporal regions of the human brain (Davis et al 2009;Salat et al 2009;Murray et al 2010;Ziegler et al 2010). These structural changes in gray and white matter have been associated with age-related cognitive decline (Kramer et al 2007;Fjell and Walhovd 2010;Murray et al 2010;Ziegler et al 2010;Cardenas et al 2011).…”

mentioning

confidence: 93%

The effect of interference on temporal order memory for random and fixed sequences in nondemented older adults

Tolentino

Pirogovsky²,

Luu³

et al. 2012

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Two experiments tested the effect of temporal interference on order memory for fixed and random sequences in young adults and nondemented older adults. The results demonstrate that temporal order memory for fixed and random sequences is impaired in nondemented older adults, particularly when temporal interference is high. However, temporal order memory for fixed sequences is comparable between older adults and young adults when temporal interference is minimized. The results suggest that temporal order memory is less efficient and more susceptible to interference in older adults, possibly due to impaired temporal pattern separation.

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“…In grey matter, the trajectory of these age-related changes is variable across the brain such that more rapid decline is observed in regions of the frontal and parietal lobes than in the temporal and occipital lobes (Fjell et al, 2013;Kennedy & Raz, 2009;Raz et al, 2004Raz et al, , 2005Resnick et al, 2000;Resnick et al, 2003;Walhovd et al, 2005Walhovd et al, , 2011. In white matter, some studies have reported a more diffuse pattern of volumetric reductions across the brain with age (Fjell et al, 2013;Resnick et al, 2000Resnick et al, , 2003Salat et al, 2009;Walhovd et al, 2005Walhovd et al, , 2011, whereas others have reported greater reduction in frontal lobe white matter compared to other regions (Brickman et al, 2006;Ferreira et al, 2014;Head et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

The effect of lifelong bilingualism on regional grey and white matter volume

et al. 2015

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Lifelong bilingualism is associated with the delayed diagnosis of dementia, suggesting bilingual experience is relevant to brain health in aging. While the effects of bilingualism on cognitive functions across the lifespan are well documented, less is known about the neural substrates underlying differential behavior. It is clear that bilingualism affects brain regions that mediate language abilities and that these regions are at least partially overlapping with those that exhibit age-related decline.Moreover, the behavioural advantages observed in bilingualism are generally found in executive function performance, suggesting that the frontal lobes may also be sensitive to bilingualism, which exhibit volume reductions with age. The current study investigated structural differences in the brain of lifelong bilingual older adults (n = 14, mean age = 70.4) compared with older monolinguals (n = 14, mean age= 70.6). We employed two analytic approaches: 1) we examined global differences in grey and white matter volumes; and, 2) we examined local differences in volume and cortical thickness of specific regions of interest previously implicated in bilingual/monolingual comparisons (temporal pole) or in aging (entorhinal cortex and hippocampus). We expected bilinguals would exhibit greater volume of the frontal lobe and temporal lobe (grey and white matter), given the importance of these regions in executive and language functions, respectively. We further hypothesized that regions in the medial temporal lobe, which demonstrate early changes in aging and exhibit neural pathology in dementia, would be more preserved in the bilingual group. As predicted, bilinguals exhibit greater frontal lobe white matter compared with monolinguals. Moreover, increasing age was related to decreasing temporal pole cortical thickness in the monolingual group, but no such relationship was observed for bilinguals. Finally, Stroop task performance was positively correlated with frontal lobe white matter, emphasizing the importance of preserved white matter in maintaining executive function in aging.These results underscore previous findings implicating an association between bilingualism and preserved frontal and temporal lobe function in aging.

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Regional white matter volume differences in nondemented aging and Alzheimer's disease

Cited by 278 publications

References 93 publications

Age-related changes in human and non-human primate white matter: from myelination disturbances to cognitive decline

Age-related changes in human and non-human primate white matter: from myelination disturbances to cognitive decline

The effect of interference on temporal order memory for random and fixed sequences in nondemented older adults

The effect of lifelong bilingualism on regional grey and white matter volume

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