Divergent network connectivity changes in behavioural variant frontotemporal dementia and Alzheimer’s disease

Zhou, Juan; Greicius, Michael D.; Gennatas, Efstathios D.; Growdon, Matthew E.; Jang, Jung Yun; Rabinovici, Gil D.; Kramer, Joel H.; Weiner, Michael W.; Miller, Bruce L.; Seeley, William W.

doi:10.1093/brain/awq075

Cited by 885 publications

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“…Different types of properties, such as local spontaneous activity (ReHo), local network (DMN and/or its anti-correlated network), and whole brain network, derived from SLFF have been taken as features to discriminate patients from normal controls (Table 4). In general, both the sensitivity and specificity of these studies has been above 80% (Greicius et al 2004;Song et al 2006;Wang et al 2006a;Calhoun et al 2008a;Shi et al 2007;Shen et al 2010;Zhou et al 2010), suggesting that the activity patterns of SLFF have the potential to become brain imaging biomarkers to improve the sensitivity and specificity of the current clinical diagnosis of neuropsychiatric disorders. And compared to task-related fMRI, the SLFF within the resting-state network may be more effective at identifying functional pathology associated with AD risk (Fleisher et al 2009).…”

Section: Pilot Studies Of Slff As a Brain Imaging Biomarkermentioning

confidence: 99%

Spontaneous brain activity observed with functional magnetic resonance imaging as a potential biomarker in neuropsychiatric disorders

et al. 2010

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As functional magnetic resonance imaging (fMRI) studies have yielded increasing amounts of information about the brain's spontaneous activity, they have revealed fMRI's potential to locate changes in brain hemodynamics that are associated with neuropsychiatric disorders. In this paper, we review studies that support the notion that changes in brain spontaneous activity observed by fMRI can be used as potential biomarkers for diagnosis and treatment evaluation in neuropsychiatric disorders. We first review the methods used to study spontaneous activity from the perspectives of (1) the properties of local spontaneous activity, (2) the spatial pattern of spontaneous activity, and (3) the topological properties of brain networks. We also summarize the major findings associated with major neuropsychiatric disorders obtained using these methods. Then we review the pilot studies that have used spontaneous activity to discriminate patients from normal controls. Finally, we discuss current challenges and potential research directions to further elucidate the clinical use of spontaneous brain activity in neuropsychiatric disorders.

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Section: Pilot Studies Of Slff As a Brain Imaging Biomarkermentioning

confidence: 99%

Spontaneous brain activity observed with functional magnetic resonance imaging as a potential biomarker in neuropsychiatric disorders

et al. 2010

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“…Individuals with MCI who have comorbid emotional complaints are more likely to progress to dementia than those without such symptoms (9)(10)(11)(12)(13). Taken together, these studies suggest that a clinical presentation that includes both cognitive decline and emotion dysregulation may point to an underlying AD process and that emotional symptoms themselves may portend or even exacerbate disease progression (9,11,14).…”

mentioning

confidence: 92%

“…Individuals with MCI who have comorbid emotional complaints are more likely to progress to dementia than those without such symptoms (9-13). Taken together, these studies suggest that a clinical presentation that includes both cognitive decline and emotion dysregulation may point to an underlying AD process and that emotional symptoms themselves may portend or even exacerbate disease progression (9,11,14).The medial temporal lobe is among the earliest sites of disease in MCI and AD (2, 15), and hippocampal atrophy is associated with worse episodic memory performance on standardized neuropsychological testing (16) and predicts conversion from MCI to AD (17). Similarly, functional imaging studies reveal diminished intrinsic connectivity, the degree to which distributed brain structures fluctuate in synchrony in the absence of a structured task, in the default mode network in MCI and AD (18,19).…”

mentioning

confidence: 99%

Heightened emotional contagion in mild cognitive impairment and Alzheimer’s disease is associated with temporal lobe degeneration

Sturm

Yokoyama

Seeley

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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Emotional changes are common in mild cognitive impairment (MCI) and Alzheimer's disease (AD). Intrinsic connectivity imaging studies suggest that default mode network degradation in AD is accompanied by the release of an emotion-relevant salience network. We investigated whether emotional contagion, an evolutionarily conserved affect-sharing mechanism, is higher in MCI and AD secondary to biological alterations in neural networks that support emotion. We measured emotional contagion in 237 participants (111 healthy controls, 62 patients with MCI, and 64 patients with AD) with the Interpersonal Reactivity Index Personal Distress subscale. Depressive symptoms were evaluated with the Geriatric Depression Scale. Participants underwent structural MRI, and voxel-based morphometry was used to relate whole-brain maps to emotional contagion. Analyses of covariance found significantly higher emotional contagion at each stage of disease progression [controls < MCI (P < 0.01) and MCI < AD (P < 0.001)]. Depressive symptoms were also higher in patients compared with controls [controls < MCI (P < 0.01) and controls < AD (P < 0.0001)]. Higher emotional contagion (but not depressive symptoms) was associated with smaller volume in right inferior, middle, and superior temporal gyri (P FWE < 0.05); right temporal pole, anterior hippocampus, parahippocampal gyrus; and left middle temporal gyrus (all P < 0.001, uncorrected). These findings suggest that in MCI and AD, neurodegeneration of temporal lobe structures important for affective signal detection and emotion inhibition are associated with up-regulation of emotion-generating mechanisms. Emotional contagion, a quantifiable index of empathic reactivity that is present in other species, may be a useful tool with which to study emotional alterations in animal models of AD.empathy | social behavior | simulation | affective resonance P rogressive deterioration of memory and other cognitive functions characterizes Alzheimer's disease (AD) (1) and its prodromal stage, mild cognitive impairment (MCI) (2). Deposition of beta-amyloid plaques and neurofibrillary tangles, the hallmark pathological changes in AD (3), is hypothesized to begin decades before the emergence of cognitive symptoms and subsequent functional decline (4). Emotional symptoms are also common and have been found in 35-85% of patients with MCI (5-7) and up to 75% of patients with AD (8), with depression and anxiety the most frequent symptoms seen. Individuals with MCI who have comorbid emotional complaints are more likely to progress to dementia than those without such symptoms (9-13). Taken together, these studies suggest that a clinical presentation that includes both cognitive decline and emotion dysregulation may point to an underlying AD process and that emotional symptoms themselves may portend or even exacerbate disease progression (9,11,14).The medial temporal lobe is among the earliest sites of disease in MCI and AD (2, 15), and hippocampal atrophy is associated with worse episodic memory performance on standardi...

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“…In addition, an emerging view suggests that cognitive performance in general might rely on the dynamic interaction between the DMN and two other large-scale neural networks: the fronto-parietal task-positive network (FPN), which is associated with attention and cognitive control, and the salience network (SN) in anterior cingulate and fronto-insular cortex, which is involved in the selection of emotionally and motivationally relevant stimuli (Andrews-Hanna et al, 2014;Chen et al, 2013;Fox et al, 2005;Seeley et al, 2007;Sridharan et al, 2008;Spreng et al, 2013). These three neural networks are central to cognition, as they are engaged in a large number of functions, and their disruption has been associated with a variety of clinical syndromes, such as schizophrenia, traumatic brain injury, and Alzheimer's disease (Manoliu et al, 2014;Sharp et al, 2014;Zhou et al, 2010). In addition, evidence suggests that the disruption of the dynamic coordination of these large-scale networks constitutes one of the main causes of cognitive decline associated with ageing (Andrews-Hanna et al, 2007;Sambataro et al, 2010), as shown by reduced neural activity in the DMN and SN at rest (Allen et al, 2011;Onoda et al, 2012) and RESTING STATE NETWORKS IN THE AGEING BRAIN 4 increased activity in the FPN of older adults during visual tasks .…”

Section: Introductionmentioning

confidence: 99%

Aging and large-scale functional networks: White matter integrity, gray matter volume, and functional connectivity in the resting state

et al. 2015

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Healthy ageing is accompanied by neurobiological changes that affect the brain's functional organization and the individual's cognitive abilities. The aim of this study was to investigate the effect of global age-related differences in the cortical white and gray matter on neural activity in three key large-scale networks. We used functionalstructural covariance network analysis to assess resting state activity in the default mode network (DMN), the fronto-parietal network (FPN), and the salience network show that, in the direct comparison of resting state activity, young but not older adults reliably engage the SN and FPN in addition to the DMN, suggesting that older adults recruit these networks less consistently. Second, our results demonstrate that agerelated decline in white matter integrity and gray matter volume is associated with activity in prefrontal nodes of the SN and FPN, possibly reflecting compensatory mechanisms. We suggest that age-related differences in gray and white matter properties differentially affect the ability of the brain to engage and coordinate largescale functional networks that are central to efficient cognitive functioning.

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Divergent network connectivity changes in behavioural variant frontotemporal dementia and Alzheimer’s disease

Cited by 885 publications

References 96 publications

Spontaneous brain activity observed with functional magnetic resonance imaging as a potential biomarker in neuropsychiatric disorders

Spontaneous brain activity observed with functional magnetic resonance imaging as a potential biomarker in neuropsychiatric disorders

Heightened emotional contagion in mild cognitive impairment and Alzheimer’s disease is associated with temporal lobe degeneration

Aging and large-scale functional networks: White matter integrity, gray matter volume, and functional connectivity in the resting state

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