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49 results on '"McGregor, Keith M."'

1. Integrative Learning for Population of Dynamic Networks with Covariates

Author

Kundu, Suprateek, Ming, Jin, Nocera, Joe, and McGregor, Keith M.

Subjects
Statistics - Methodology
Abstract

Although there is a rapidly growing literature on dynamic connectivity methods, the primary focus has been on separate network estimation for each individual, which fails to leverage common patterns of information. We propose novel graph-theoretic approaches for estimating a population of dynamic networks that are able to borrow information across multiple heterogeneous samples in an unsupervised manner and guided by covariate information. Specifically, we develop a Bayesian product mixture model that imposes independent mixture priors at each time scan and uses covariates to model the mixture weights, which results in time-varying clusters of samples designed to pool information. The computation is carried out using an efficient Expectation-Maximization algorithm. Extensive simulation studies illustrate sharp gains in recovering the true dynamic network over existing dynamic connectivity methods. An analysis of fMRI block task data with behavioral interventions reveal sub-groups of individuals having similar dynamic connectivity, and identifies intervention-related dynamic network changes that are concentrated in biologically interpretable brain regions. In contrast, existing dynamic connectivity approaches are able to detect minimal or no changes in connectivity over time, which seems biologically unrealistic and highlights the challenges resulting from the inability to systematically borrow information across samples., Comment: 52 pages, 4 figures

Published
2021

2. The effect of time since stroke, gender, age, and lesion size on thalamus volume in chronic stroke: a pilot study

Author

Krishnamurthy, Lisa C, Champion, Gabriell N, McGregor, Keith M, Krishnamurthy, Venkatagiri, Turabi, Aaminah, Roberts, Simone R, Nocera, Joe R, Borich, Michael R, Rodriguez, Amy D, Belagaje, Samir R, Harrington, Rachael M, Harris-Love, Michelle L, Harnish, Stacy M, Drucker, Jonathan H, Benjamin, Michelle, Meadows, M Lawson, Seeds, Lauren, Zlatar, Zvinka Z, Sudhyadhom, Atchar, Butler, Andrew J, Garcia, Amanda, Patten, Carolynn, Trinastic, Jonathan, Kautz, Steven A, Gregory, Chris, and Crosson, Bruce A

Subjects
Neurosciences, Stroke, Brain Disorders, Clinical Research, Aging, Adult, Age Factors, Aged, Aged, 80 and over, Chronic Disease, Female, Humans, Male, Middle Aged, Models, Biological, Organ Size, Pilot Projects, Thalamus, Time Factors
Abstract

Recent stroke studies have shown that the ipsi-lesional thalamus longitudinally and significantly decreases after stroke in the acute and subacute stages. However, additional considerations in the chronic stages of stroke require exploration including time since stroke, gender, intracortical volume, aging, and lesion volume to better characterize thalamic differences after cortical infarct. This cross-sectional retrospective study quantified the ipsilesional and contralesional thalamus volume from 69 chronic stroke subjects' anatomical MRI data (age 35-92) and related the thalamus volume to time since stroke, gender, intracortical volume, age, and lesion volume. The ipsi-lesional thalamus volume was significantly smaller than the contra-lesional thalamus volume (t(68) = 13.89, p

Published
2020

5. GABA, Aging and Exercise: Functional and Intervention Considerations.

Author

Novak, Tom S, McGregor, Keith M, Krishnamurthy, Lisa C, Evancho, Alexandra, Mammino, Kevin, Walters Jr., Courtney E, Weber, Ashton, and Nocera, Joe R

Subjects
*NUCLEAR magnetic resonance spectroscopy, *TRANSCRANIAL magnetic stimulation, *EXERCISE physiology, *GABA, *OLDER people
Abstract

The global growth of an aging population is expected to coincide with an increase in aging-related pathologies, including those related to brain health. Thus, the potential for accelerated cognitive health declines due to adverse aging is expected to have profound social and economic implications. However, the progression to pathological conditions is not an inevitable part of aging. In fact, engaging in activities that improve cardiovascular fitness appears to be a means that offers the benefits of maintaining and/or improving cognitive health in older age. However, to date, the underlying mechanisms responsible for improved central nervous system health and function with exercise are not yet fully elucidated. Consequently, there is considerable interest in studies aimed at understanding the neurophysiological benefits of exercise on aging. One such area of study suggests that the improvements in brain health via exercise are, in part, driven by the recovery of inhibitory processes related to the neurotransmitter gamma-aminobutyric acid (GABA). In the present review, we highlight the opposing effects of aging and exercise on cortical inhibition and the GABAergic system's functional integrity. We highlight these changes in GABA function by reviewing work with in vivo measurements: transcranial magnetic stimulation (TMS) and magnetic resonance spectroscopy (MRS). We also highlight recent and significant technological and methodological advances in assessing the GABAergic system's integrity with TMS and MRS. We then discuss potential future research directions to inform mechanistic GABA study targeted to improve health and function in aging. We conclude by highlighting the significance of understanding the effects of exercise and aging, its influence on GABA levels, and why a better understanding is crucial to allow for more targeted and effective interventions aimed to ultimately improve age-related decline in aging. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Examination of acute spin exercise on GABA levels in aging and stroke: The EASE study protocol.

Author

McGregor, Keith M., Novak, Thomas, Nocera, Joe R., Mammino, Kevin, Wolf, Steven L., and Krishnamurthy, Lisa C.

Subjects
*MOTOR learning, *AEROBIC exercises, *NUCLEAR magnetic resonance spectroscopy, *EXERCISE physiology, *SENSORIMOTOR cortex, *MOTOR ability
Abstract

Background: Changes in regional levels of the inhibitory neurotransmitter gamma-aminobutyric acid (GABA) may indicate the potential for favorable responses to the treatment of stroke affecting the upper extremity. By selectively altering GABA levels during training, we may induce long-term potentiation and adjust excitatory/inhibitory balance (E/I balance). However, the impact of this alteration may be limited by neural damage or aging. Aerobic exercise has been shown to increase GABA levels in the sensorimotor cortex and improve motor learning by widening the dynamic range of E/I balance. The cross-sectional project, Effects of Acute Exercise on Functional Magnetic Resonance Spectroscopy Measures of GABA in Aging and Chronic Stroke (EASE), is designed to assess the functional relevance of changes in GABA concentration within the sensorimotor cortex before and after an acute aerobic exercise session. Methods/design: EASE will enroll 30 participants comprised of healthy younger adults (18–35 years; n = 10), older adults (60+ years; n = 10), and persons with chronic stroke (n = 10) affecting distal upper extremity function. We will use resting magnetic resonance spectroscopy to measure all participants' GABA levels at rest before and after aerobic exercise. In addition, we will employ functional magnetic resonance spectroscopy using motor skill acquisition and recall tasks in healthy adults. We hypothesize that acute aerobic exercise will increase resting sensorimotor GABA concentration and that higher GABA resting levels will predict better motor learning performance on measures taken both inside and outside the magnet. We also hypothesize that a higher dynamic range of GABA during task-based spectroscopy in healthy adults will predict better motor skill acquisition and recall. Discussion: The EASE project will evaluate the effect of acute exercise on GABA levels as a biomarker of upper extremity motor skill learning with two populations (aging adults and those with chronic stroke). We predict that acute exercise, higher sensorimotor GABA levels, and broader dynamic range will be related to better motor skill acquisition. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Effects of aerobic fitness on aging-related changes of interhemispheric inhibition and motor performance.

Author

McGregor, Keith M, Nocera, Joe R, Sudhyadhom, Atchar, Patten, Carolynn, Manini, Todd M, Kleim, Jeffrey A, Crosson, Bruce, and Butler, Andrew J

Subjects
TMS, aging, aging neuroscience, dexterity, fMRI, interhemispheric communication, negative BOLD, physical fitness, agingneuroscience, physicalfitness, interhemisphericcommunication, Biochemistry and Cell Biology, Neurosciences, Cognitive Sciences
Abstract

Physical fitness has been long associated with maintenance and improvement of motor performance as we age. In particular, measures of psychomotor speed and motor dexterity tend to be higher in physically fit aging adults as compared to their sedentary counterparts. Using functional magnetic resonance imaging (fMRI) and transcranial magnetic stimulation (TMS), we explored the patterns of neural activity that may, in part, account for differences between individuals of varying physical fitness levels. In this study, we enrolled both sedentary and physically fit middle age (40-60) and younger (18-30) adults and measured upper extremity motor performance during behavioral testing. In a follow-up session, we employed TMS and fMRI to assess levels of interhemispheric communication during unimanual tasks. Results show that increased physical fitness is associated with better upper extremity motor performance on distal dexterity assessments and increased levels of interhemispheric inhibition in middle age adults. Further, the functional correlates of changes of ipsilateral activity appears to be restricted to the aging process as younger adults of varying fitness levels do not differ in hemispheric patterns of activity or motor performance. We conclude that sedentary aging confers a loss of interhemispheric inhibition that is deleterious to some aspects of motor function, as early as midlife, but these changes can be mediated by chronic engagement in aerobic exercise.

Published
2013

11. Aging, aerobic activity and interhemispheric communication.

Author

McGregor, Keith M, Heilman, Kenneth M, Nocera, Joe R, Patten, Carolynn, Manini, Todd M, Crosson, Bruce, and Butler, Andrew J

Subjects
Neurosciences, Psychology, Cognitive Sciences
Abstract

Recent studies have shown that during unimanual motor tasks, aging adults show bilateral recruitment of primary motor cortex (M1), while younger adults show a suppression of the ipsilateral motor cortex. Additional work has indicated that increased bilateral M1 recruitment in older adults may be deleterious when performing some motor tasks. However, higher levels of physical fitness are associated with improved dexterity and fitness may mitigate the loss of both inhibitory and excitatory communication in aging adults. The goal of this study was to assess dexterity and interhemispheric motor communication in physically fit and sedentary middle-age (40-60 years) right handed participants using tests of hand deftness and transcranial magnetic stimulation (TMS). To behaviorally assess the influence of interhemispheric communication on motor performance, participants also perform the coin rotation deftness task while maintaining pinch force with the opposite hand (bimanual condition). We correlated these behavioral measures with the ipsilateral silent period using TMS to assess interhemispheric inhibition. Our results show that the middle-aged adults who were physically fit had better dexterity of their right hand (finger tapping and peg-board). When performing the coin rotation task the fit group had no between hand differences, but the sedentary group's left hand performance was inferior to the their right hand. We found that better dexterity correlated with ipsilateral silent period duration (greater inhibition) thereby supporting the postulate that fitness improves interhemispheric motor communication.

Published
2012

14. Regional Changes in Word-Production Laterality after a Naming Treatment Designed to Produce a Rightward Shift in Frontal Activity

Author

Crosson, Bruce, Moore, Anna Bacon, and McGregor, Keith M.

Abstract

Five nonfluent aphasia patients participated in a picture-naming treatment that used an intention manipulation (opening a box and pressing a button on a device in the box with the left hand) to initiate naming trials and was designed to re-lateralize word production mechanisms from the left to the right frontal lobe. To test the underlying assumption regarding re-lateralization, patients participated in fMRI of category-member generation before and after treatment. Generally, the four patients who improved during treatment showed reduced frontal activity from pre- to post-treatment fMRI with increasing concentration of activity in the right posterior frontal lobe (motor/premotor cortex, pars opercularis), demonstrating a significant shift in lateraliity toward the right lateral frontal lobe, as predicted. Three of these four patients showed no left frontal activity by completion of treatment, indicating that right posterior lateral frontal activity supported category-member generation. Patients who improved in treatment showed no difference in lateralization of lateral frontal activity from normal controls pre-treatment, but post-treatment, their lateral frontal activity during category-member generation was significantly more right lateralized than that of controls. Patterns of activity pre- and post-treatment suggested increasing efficiency of cortical processing as a result of treatment in the four patients who improved. The one patient who did not improve during treatment showed a leftward shift in lateral frontal lateralization that was significantly different from the four patients who did improve. Neither medial frontal nor posterior perisylvian re-lateralization from immediately pre- to immediately post-treatment images was a necessary condition for significant treatment gains or shift in lateral frontal lateralization. Of the three patients who improved and in whom posterior perisylvian activity could be measured at post-treatment fMRI, all maintained equal or greater amounts of left-hemisphere perisylvian activity as compared to right. This finding is consistent with reviews suggesting both hemispheres are involved in recovery of language in aphasia patients. (Contains 3 figures and 4 tables.)

Published
2009
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20. Not All Lesioned Tissue Is Equal: Identifying Pericavitational Areas in Chronic Stroke With Tissue Integrity Gradation via T2w T1w Ratio

Author

Krishnamurthy, Lisa C., primary, Krishnamurthy, Venkatagiri, additional, Rodriguez, Amy D., additional, McGregor, Keith M., additional, Glassman, Clara N., additional, Champion, Gabriell S., additional, Rocha, Natalie, additional, Harnish, Stacy M., additional, Belagaje, Samir R., additional, Kundu, Suprateek, additional, and Crosson, Bruce A., additional

Published
2021
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22. Neural Correlates of Effects of Internally versus Externally Guided Partnered Rehabilitative Tango for People with Parkinson’s Disease

Author

Kashyap, Amrit, primary, Crosson, Bruce, additional, Krishnamurthy, Venkatagiri, additional, McGregor, Keith M., additional, Bozzorg, Ariyana, additional, Gopinath, Kaundinya, additional, Krishnamurthy, Lisa C., additional, Wolf, Steve L, additional, Hart, Ariel R, additional, Ji, Bing, additional, Evatt, Marian, additional, Corcos, Daniel M., additional, and Hackney, Madeleine E., additional

Published
2021
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26. Correcting Task fMRI Signals for Variability in Baseline CBF Improves BOLD-Behavior Relationships: A Feasibility Study in an Aging Model

Author

Krishnamurthy, Venkatagiri, primary, Krishnamurthy, Lisa C., additional, Drucker, Jonathan H., additional, Kundu, Suprateek, additional, Ji, Bing, additional, Hortman, Kyle, additional, Roberts, Simone R., additional, Mammino, Kevin, additional, Tran, Stella M., additional, Gopinath, Kaundinya, additional, McGregor, Keith M., additional, Rodriguez, Amy D., additional, Qiu, Deqiang, additional, Crosson, Bruce, additional, and Nocera, Joe R., additional

Published
2020
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29. Spin Exercise Improves Semantic Fluency in Previously Sedentary Older Adults.

Author

Nocera, Joe R., McGregor, Keith M., Hass, Chris J., and Crosson, Bruce

Subjects
AEROBIC exercises, PATIENT compliance, PROBABILITY theory, VERBAL behavior, SEDENTARY lifestyles, DESCRIPTIVE statistics, OLD age
Abstract

Studies suggest improvements of neurocognitive function among older adults who undergo aerobic exercise training. This study sought to examine the impact of an aerobic exercise intervention on verbal fluency in sedentary older adults. Twenty community-dwelling older adults were recruited and enrolled in either a spin exercise group or a control condition. Participants were evaluated with an estimated V02max test and on measures of letter, category, and switching verbal fluency both before and after a 12-week intervention period. Spin exercise resulted in a significant improvement in category (semantic) verbal fluency when compared with the control group (15% vs. 2% increase, respectively; P = .001). Spin exercise also resulted in a significant improvement in estimated V02max (P = .005). Also important, the spin exercise group demonstrated a high level of adherence (mean adherence = 82.5%). Spin exercise can be an effective mode of aerobic exercise to improve semantic fluency in previously sedentary older adults. [ABSTRACT FROM AUTHOR]

Published
2015
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30. Internally Guided Lower Limb Movement Recruits Compensatory Cerebellar Activity in People With Parkinson's Disease

Author

Drucker, Jonathan H., primary, Sathian, K., additional, Crosson, Bruce, additional, Krishnamurthy, Venkatagiri, additional, McGregor, Keith M., additional, Bozzorg, Ariyana, additional, Gopinath, Kaundinya, additional, Krishnamurthy, Lisa C., additional, Wolf, Steven L., additional, Hart, Ariel R., additional, Evatt, Marian, additional, Corcos, Daniel M., additional, and Hackney, Madeleine E., additional

Published
2019
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44. A Behavioral Manipulation Engages Right Frontal Cortex During Aphasia Therapy

Author

Benjamin, Michelle L., primary, Towler, Stephen, additional, Garcia, Amanda, additional, Park, Hyejin, additional, Sudhyadhom, Atchar, additional, Harnish, Stacy, additional, McGregor, Keith M., additional, Zlatar, Zvinka, additional, Reilly, Jamie J., additional, Rosenbek, John C., additional, Gonzalez Rothi, Leslie J., additional, and Crosson, Bruce, additional

Published
2014
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46. The Calculation of Language Lateralization Indices in Post-stroke Aphasia: A Comparison of a Standard and a Lesion-Adjusted Formula.

Author

Dietz, Aimee, Vannest, Jennifer, Maloney, Thomas, Altaye, Mekibib, Szaflarski, Jerzy P., Holland, Scott K., Nair, Veena A., and McGregor, Keith M.

Subjects
APHASIA, CEREBRAL dominance, STROKE, FUNCTIONAL magnetic resonance imaging, BEHAVIORAL research
Abstract

Background: The language lateralization index (LI) is a valuable tool in functional magnetic resonance imaging (fMRI) research, especially in people with post-stroke aphasia. However, there is inconsistent consideration for the overlap of lesions with regions of interest (ROIs). The purpose of this study was to determine whether standard LI (SLI) and lesion-adjusted LI (LALI) formulae generate different LI values and language lateralization classification for people with post-stroke chronic aphasia. Methods: SLI and LALI were calculated for an event-related (overt) verb generation task in an anterior and a posterior language ROI. Twelve people with aphasia due to a single left-hemispheric infarct (11 right-handed; 1 left-handed; 77.2 ± 41.7 months post-stroke) were included (eight females; 57 ± 8.88 years). Spearman correlation coefficients and intraclass correlation coefficients were calculated to determine the relationship of the LI values generated by the SLI and the LALI formulas. Fischer's exact test and a weighted Cohen's Kappa determined the difference in language lateralization classification and agreement in the classification. Spearman correlation was used to examine the relationship between the difference in lateralization values produced by the LALI and SLI calculations with (1) lesion size, (2) the percentage of lesion overlap in each ROI, and (3) aphasia severity. Results: The two calculation methods were highly correlated and produced similar LI Values, yet yielded significantly different classification for language lateralization. Further, a more leftward LI resulted from application of the LALI formula in 10 participants, in either the anterior ROI (n = 3) or the posterior ROI (n = 7). Finally, for the posterior ROI only, significant correlations were revealed between the two calculation methods and the (1) lesion size and (2) percent of overlap with the ROI. Discussion: While both approaches produce highly correlated LI values, differences in activation lateralization between formulas were observed, including changes in lateralization classification. Examination of the issues raised in the current investigation need to be replicated with a larger sample to determine the utility of a LALI formula in predicting behavioral performance; the findings may have implications for understanding and interpreting fMRI data of people with post-stroke aphasia. [ABSTRACT FROM AUTHOR]

Published
2016
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48. Rostral anterior cingulate connectivity in older adults with subthreshold depressive symptoms: A preliminary study.

Author

Gradone AM, Champion G, McGregor KM, Nocera JR, Barber SJ, Krishnamurthy LC, and Dotson VM

Abstract

Subthreshold depressive symptoms are highly prevalent among older adults and are associated with numerous health risks including cognitive decline and decreased physical health. One brain region central to neuroanatomical models of depressive disorders is the anterior cingulate cortex (ACC). The rostral portion of the ACC-comprised of the pregenual ACC and subgenual ACC-is implicated in emotion control and reward processing. The goal of the current study was to examine how functional connectivity in subregions of the rostral ACC relate to depressive symptoms, measured by the Beck Depression Inventory-Second Edition, in an ethnically diverse sample of 28 community-dwelling older adults. Based on meta -analyses of previous studies in primarily young adults with clinical depression, we hypothesized that greater depressive symptoms would be associated with primarily increased resting-state functional connectivity from both the subgenual ACC and pregenual ACC to default mode network regions and the dorsolateral PFC. We instead found that higher depressive symptoms were associated with lower functional connectivity of the ACC to the dorsolateral PFC and regions within the default mode network, including from the subgenual ACC to the dorsolateral PFC and anterior cingulate and from the pregenual ACC to the middle cingulate gyrus. This preliminary study highlights brain alterations at subthreshold levels of depressive symptoms in older adults, which could serve as targets for interventions., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Authors.)

Published
2022
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49. Reduced Interference and Serial Dependency Effects for Naming in Older but Not Younger Adults after 1 Hz rTMS of Right Pars Triangularis.

Author

Drucker JH, Epstein CM, McGregor KM, Hortman K, Gopinath KS, and Crosson B

Abstract

1 Hz repetitive transcranial magnetic stimulation (rTMS) was used to decrease excitability of right pars triangularis (R PTr) to determine whether increased R PTr activity during picture naming in older adults hampers word finding. We hypothesized that decreasing R PTr excitability would reduce interference with word finding, facilitating faster picture naming. 15 older and 16 younger adults received two rTMS sessions. In one, speech onset latencies for picture naming were measured after both sham and active R PTr stimulation. In the other session, sham and active stimulation of a control region, right pars opercularis (R POp), were administered before picture naming. Order of active vs. sham stimulation within session was counterbalanced. Younger adults showed no significant effects of stimulation. In older adults, a trend indicated that participants named pictures more quickly after active than sham R PTr stimulation. However, older adults also showed longer responses during R PTr than R POp sham stimulation. When order of active vs. sham stimulation was modeled, older adults receiving active stimulation first had significantly faster responding after active than sham R PTr stimulation and significantly faster responding after R PTr than R POp stimulation, consistent with experimental hypotheses. However, older adults receiving sham stimulation first showed no significant differences between conditions. Findings are best understood, based on previous studies, when the interaction between the excitatory effects of picture naming and the inhibitory effects of 1 Hz rTMS on R PTr is considered. Implications regarding right frontal activity in older adults and for design of future experiments are discussed., Competing Interests: Competing Interests: The authors have declared that competing interests exist. Charles M. Epstein received royalties from Neuronetics, Inc., which manufactures transcranial magnetic stimulators. No Neuronetics equipment was used in this study., (© 2021 Massachusetts Institute of Technology.)

Published
2022
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