Prefrontal modulation of working memory performance in brain injury and disease

Hillary, Frank G.; Genova, Helen M.; Chiaravalloti, Nancy D.; Rypma, Bart; DeLuca, John

doi:10.1002/hbm.20226

Cited by 109 publications

(117 citation statements)

References 80 publications

(122 reference statements)

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“…This pattern of results agreed with previous studies and suggests that frontal lobe activation increases in line with task difficulty, and that this brain area is recruited in order to set greater cognitive control [14,22]. Our findings also agree with those of previous studies, which have described that in early disease stages, MS patients exhibit greater activation or recruit supplementary brain areas.…”

Section: Discussionsupporting

confidence: 93%

Exploring Neural Efficiency in Multiple Sclerosis Patients during the Symbol Digit Modalities Test: A Functional Magnetic Resonance Imaging Study

et al. 2017

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Background: Reduced information-processing speed (IPS) is a primary cognitive deficit of multiple sclerosis (MS) patients. The neural efficiency hypothesis describes an inverse relationship between cognitive performance in a task and the amount of cognitive resources devoted to it. Previous studies have shown that the neural efficiency hypothesis provides an appropriate framework to explore cognitive dysfunction in neurological patients. Objective: The aim of this study was to explore the neural efficiency hypothesis regarding IPS capabilities in cognitively preserved MS patients. Methods: 16 MS patients and 17 healthy controls (HCs) were enrolled and neuropsychologically assessed. All participants also performed a functional magnetic resonance imaging (fMRI)-adapted version of the Symbol Digit Modalities Test (SDMT) at different interstimulus intervals (ISI: 1.5, 2, and 2.5 s). Results: MS patients only displayed lower SDMT performance when the ISI was set at 1.5 s. However, MS patients' normal SDMT performance at larger ISIs was achieved at the cost of increased brain activation, hence revealing that they were less cognitively efficient than the HCs. Regression analyses confirmed this conclusion by showing an opposite relationship between SDMT performance and the amount of neural resources recruited in the HC and MS groups. Thus, while a positive relationship between both variables was observed in MS patients, this correlation was negative for the HC group. Conclusions: MS patients require more cognitive resources than HCs to achieve a normal SDMT performance, then revealing that they are less efficient regarding IPS capabilities.

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Section: Discussionsupporting

confidence: 93%

Exploring Neural Efficiency in Multiple Sclerosis Patients during the Symbol Digit Modalities Test: A Functional Magnetic Resonance Imaging Study

et al. 2017

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“…In the clinical imaging studies investigating WM, an interpretation that has been proposed elsewhere (Hillary et al, 2006) and is extended here, is that the increased PFC involvement on tasks of WM represents neither "compensation" operating to bolster task performance nor "brain reorganization." Instead, it is proposed that the increased neural activity in PFC commonly observed in clinical studies of WM is associated with poorer performance and largely represents transient fluctuations in the recruitment and reassignment of attentional resources, or cognitive control (Hillary et al, 2006).…”

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confidence: 60%

“…Is it possible that recruitment of neural resources in mild forms of neurological impairment represents compensation and0or reorganization operating to facilitate performance, yet in cases of more severe cognitive deficit, recruitment of nearly identical neural networks is associated with neural inefficiency and correlated with diminished performance? An explanation with greater parsimony for the convergent findings to date is that the regions consistently recruited across clinical samples represent a native support mechanism(s) (Hillary et al, 2006). This explanation remains at odds, however, with studies proposing that neural activity in PFC is facilitating performance and what must ultimately be 528 F.G. Hillary determined in order to clarify this issue is the basic relationship between activation and performance in PFC.…”

Section: Current Findings In Clinical Imaging Of Wmmentioning

confidence: 99%

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Neuroimaging of working memory dysfunction and the dilemma with brain reorganization hypotheses

Hillary

2008

J Int Neuropsychol Soc

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101

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There is a growing literature examining working memory deficits using functional imaging and there has been great convergence in the findings, to date, but interpretations have varied. Investigators consistently observed recruitment of neural resources in clinical samples, with some examiners attributing these findings to neural inefficiency and others attributing differences to neural compensation and0or brain reorganization. It is the goal of this paper to address the current interpretation of altered brain activation in clinical imaging studies of working memory dysfunction with specific emphasis on findings in prefrontal cortex (PFC). Throughout this review, the methods used to examine brain reorganization associated with working memory dysfunction are critiqued with the goal of understanding how study design has influenced data interpretation. It is proposed that much of what has been considered "aberrant" neural activity is not indicative of neural compensation, as it has been typically defined, and does not represent brain reorganization. Instead, recruitment of neural resources in PFC can be explained by a natural, and largely overlooked, role of cognitive control in accommodating neural dysfunction secondary to brain injury and disease. This paper provides predictions based on this proposition and a critique of the current methods available for testing these predictions. (JINS, 2008, 14, 526-534.) Keywords: Plasticity, Traumatic brain injury, MS, Working memory, Reorganization, Cognitive control, Prefrontal, Functional magnetic resonance imaging An Alternative to Brain Reorganization HypothesesFunctional imaging techniques afford the unique opportunity to examine the relationships between basic brain changes and the behavioral deficits associated with brain injury and disease. There is a growing functional imaging literature examining the effects of neurological insult on working memory (WM), or the ability to maintain and0or manipulate small amounts of information for brief periods of time. In the functional imaging literature examining WM dysfunction, there has been increasing reference to "neural compensation" and "brain reorganization" to describe the altered (and almost universally increased) neural activation observed when comparing clinical samples to healthy adults. Specifically, the term "compensation" has been used to describe either transient or permanent alterations in neural activity, which operates to facilitate performance. Therefore, in this paper, the term "compensation" will be used to indicate a positive relationship between task performance and brain activation. The term "brain reorganization" has typically been used to indicate that the neural networks associated with WM have been permanently altered because of neurological insult, so that insult induces a "rewiring" of WM networks. Therefore, the primary distinction between "compensation" and "brain reorganization" is that the former may be transient whereas the latter represents permanent changes in the neural networks ...

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“…28,29 TBI patients often report subjective changes associated with cognitively demanding tasks in spite of normal task performance, a dissociation that presents significant challenges with respect to diagnostics and treatment planning in the absence of measurable signs of cognitive dysfunction in patients with TBI, as well as in patients with other neuropathologies causing diffuse or multifocal damage (e.g., dementia, multiple sclerosis). Reduced cognitive efficiency, as indexed by altered functional recruitment during neuropsychologically normal task performance, may serve as a novel metric, reflecting the costs of normal behavioral performance at the neural level.…”

Section: Discussionmentioning

confidence: 99%

Augmented neural activity during executive control processing following diffuse axonal injury

Turner¹,

Levine²

2008

Neurology

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Prefrontal modulation of working memory performance in brain injury and disease

Cited by 109 publications

References 80 publications

Exploring Neural Efficiency in Multiple Sclerosis Patients during the Symbol Digit Modalities Test: A Functional Magnetic Resonance Imaging Study

Exploring Neural Efficiency in Multiple Sclerosis Patients during the Symbol Digit Modalities Test: A Functional Magnetic Resonance Imaging Study

Neuroimaging of working memory dysfunction and the dilemma with brain reorganization hypotheses

Augmented neural activity during executive control processing following diffuse axonal injury

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