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476 results on '"Halgren E"'

1. Simulating human sleep spindle MEG and EEG from ion channel and circuit level dynamics

Author

Rosen, BQ, Krishnan, GP, Sanda, P, Komarov, M, Sejnowski, T, Rulkov, N, Ulbert, I, Eross, L, Madsen, J, Devinsky, O, Doyle, W, Fabo, D, Cash, S, Bazhenov, M, and Halgren, E

Subjects
Medical Physiology, Biomedical and Clinical Sciences, Sleep Research, Neurosciences, Biomedical Imaging, Behavioral and Social Science, Basic Behavioral and Social Science, Underpinning research, 1.1 Normal biological development and functioning, Neurological, Adolescent, Adult, Cerebral Cortex, Computer Simulation, Electroencephalography, Female, Humans, Ion Channels, Magnetic Resonance Imaging, Magnetoencephalography, Male, Models, Biological, Nerve Net, Sleep Stages, Thalamus, Young Adult, MEG, EEG, Forward model, Sleep, Spindle, Cortex, Human, Psychology, Cognitive Sciences, Neurology & Neurosurgery
Abstract

BackgroundAlthough they form a unitary phenomenon, the relationship between extracranial M/EEG and transmembrane ion flows is understood only as a general principle rather than as a well-articulated and quantified causal chain.MethodWe present an integrated multiscale model, consisting of a neural simulation of thalamus and cortex during stage N2 sleep and a biophysical model projecting cortical current densities to M/EEG fields. Sleep spindles were generated through the interactions of local and distant network connections and intrinsic currents within thalamocortical circuits. 32,652 cortical neurons were mapped onto the cortical surface reconstructed from subjects' MRI, interconnected based on geodesic distances, and scaled-up to current dipole densities based on laminar recordings in humans. MRIs were used to generate a quasi-static electromagnetic model enabling simulated cortical activity to be projected to the M/EEG sensors.ResultsThe simulated M/EEG spindles were similar in amplitude and topography to empirical examples in the same subjects. Simulated spindles with more core-dominant activity were more MEG weighted.Comparison with existing methodsPrevious models lacked either spindle-generating thalamic neural dynamics or whole head biophysical modeling; the framework presented here is the first to simultaneously capture these disparate scales.ConclusionsThis multiscale model provides a platform for the principled quantitative integration of existing information relevant to the generation of sleep spindles, and allows the implications of future findings to be explored. It provides a proof of principle for a methodological framework allowing large-scale integrative brain oscillations to be understood in terms of their underlying channels and synapses.

Published
2019

4. Experimental validation of the influence of white matter anisotropy on the intracranial EEG forward solution

Author

Bangera, NB, Schomer, DL, Dehghani, N, Ulbert, I, Cash, S, Papavasiliou, S, Eisenberg, SR, Dale, AM, and Halgren, E

Abstract

Forward solutions with different levels of complexity are employed for localization of current generators, which are responsible for the electric and magnetic fields measured from the human brain. The influence of brain anisotropy on the forward solution is poorly understood. The goal of this study is to validate an anisotropic model for the intracranial electric forward solution by comparing with the directly measured 'gold standard'. Dipolar sources are created at known locations in the brain and intracranial electroencephalogram (EEG) is recorded simultaneously. Isotropic models with increasing level of complexity are generated along with anisotropic models based on Diffusion tensor imaging (DTI). A Finite Element Method based forward solution is calculated and validated using the measured data. Major findings are (1) An anisotropic model with a linear scaling between the eigenvalues of the electrical conductivity tensor and water self-diffusion tensor in brain tissue is validated. The greatest improvement was obtained when the stimulation site is close to a region of high anisotropy. The model with a global anisotropic ratio of 10:1 between the eigenvalues (parallel: tangential to the fiber direction) has the worst performance of all the anisotropic models. (2) Inclusion of cerebrospinal fluid as well as brain anisotropy in the forward model is necessary for an accurate description of the electric field inside the skull. The results indicate that an anisotropic model based on the DTI can be constructed non-invasively and shows an improved performance when compared to the isotropic models for the calculation of the intracranial EEG forward solution. © The Author(s) 2009.

Published
2010

10. The value of multichannel MEG and EEG in the presurgical evaluation of 70 epilepsy patients

Author

Knake, S., Halgren, E., Shiraishi, H., Hara, K., Hamer, H.M., Grant, P.E., Carr, V.A., Foxe, D., Camposano, S., Busa, E., Witzel, T., Hämäläinen, M.S., Ahlfors, S.P., Bromfield, E.B., Black, P.M., Bourgeois, B.F., Cole, A.J., Cosgrove, G.R., Dworetzky, B.A., Madsen, J.R., Larsson, P.G., Schomer, D.L., Thiele, E.A., Dale, A.M., Rosen, B.R., and Stufflebeam, S.M.

Published
2006
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19. Sex-dependent association of common variants of microcephaly genes with brain structure

Author

Rimol, L. M., Agartz, I., Djurovic, S., Brown, A. A., Roddey, J. C., Kahler, A. K., Mattingsdal, M., Athanasiu, L., Joyner, A. H., Schork, N. J., Halgren, E., Sundet, K., Melle, I., Dale, A. M., Andreassen, O. A., Weiner, M., Thal, L., Petersen, R., Jack, C. R., Jagust, W., Trojanowki, J., Toga, A. W., Beckett, L., Green, R. C., Gamst, A., Potter, W. Z., Montine, T., Anders, D., Bernstein, M., Felmlee, J., Fox, N., Thompson, P., Schuff, N., Alexander, G., Bandy, D., Koeppe, R. A., Foster, N., Reiman, E. M., Chen, K., Shaw, L., Lee, V. M.- Y., Korecka, M., Crawford, K., Neu, S., Harvey, D., Kornak, J., Kachaturian, Z., Frank, R., Snyder, P. J., Molchan, S., Kaye, J., Vorobik, R., Quinn, J., Schneider, L., Pawluczyk, S., Spann, B., Fleisher, A. S., Vanderswag, H., Heidebrink, J. L., Lord, J. L., Johnson, K., Doody, R. S., Villanueva-Meyer, J., Chowdhury, M., Stern, Yaakov, Honig, L. S., Bell, K. L., Morris, J. C., Mintun, M. A., Schneider, S., Marson, D., Griffith, R., Badger, B., Grossman, H., Tang, C., Stern, J., deToledo-Morrell, L., Shah, R. C., Bach, J., Duara, R., Isaacson, R., Strauman, S., Albert, M. S., Pedroso, J., Toroney, J., Rusinek, H., de Leon, M. J., De Santi, S. M., Doraiswamy, P. M., Petrella, J. R., Aiello, M., Clark, C. M., Pham, C., Nunez, J., Smith, C. D., Given II, C. A., Hardy, P., DeKosky, S. T., Oakley, M., Simpson, D. M., Ismail, M. S., Porsteinsson, A., McCallum, C., Cramer, S. C., Mulnard, R. A., McAdams-Ortiz, C., Diaz-Arrastia, R., Martin-Cook, K., DeVous, M., Levey, A. I., Lah, J. J., Cellar, J. S., Burns, J. M., Anderson, H. S., Laubinger, M. M., Bartzokis, G., Silverman, D. H. S., Lu, P. H., Fletcher, R., Parfitt, F., Johnson, H., Farlow, M., Herring, S., Hake, A. M., van Dyck, C. H., MacAvoy, M. G., Bifano, L. A., Chertkow, H., Bergman, H., Hosein, C., Black, S., Graham, S., Caldwell, C., Feldman, H., Assaly, M., Hsiung, G.-Y. R., Kertesz, A., Rogers, J., Trost, D., Bernick, C., Gitelman, D., Johnson, N., Mesulam, M., Sadowsky, C., Villena, T., Mesner, S., Aisen, P. S., Johnson, K. B., Behan, K. E., Sperling, R. A., Rentz, D. M., Johnson, K. A., Rosen, A., Tinklenberg, J., Ashford, W., Sabbagh, M., Connor, D., Obradov, S., Killiany, R., Norbash, A., Obisesan, T. O., Jayam-Trouth, A., Wang, P., Auchus, A. P., Huang, J., Friedland, R. P., DeCarli, C., Fletcher, E., Carmichael, O., Kittur, S., Mirje, S., Johnson, S. C., Borrie, M., Lee, T.-Y., Asthana, S., Carlsson, C. M., Potkin, S. G., Highum, D., Preda, A., Nguyen, D., Tariot, P. N., Hendin, B. A., Scharre, D. W., Kataki, M., Beversdorf, D. Q., Zimmerman, E. A., Celmins, D., Brown, A. D., Gandy, S., Marenberg, M. E., Rovner, B. W., Pearlson, G., Blank, K., Anderson, K., Saykin, A. J., Santulli, R. B., Pare, N., Williamson, J. D., Sink, K. M., Potter, H., Ashok Raj, B., Giordano, A., Ott, B. R., Wu, C.-K., Cohen, R., Wilks, K. L., and Alzheimer's Disease Neuroimaging Initiative

Subjects
Adult, Male, Microcephaly, Molecular Sequence Data, Single-nucleotide polymorphism, Biology, Polymorphism, Single Nucleotide, Brain mapping, ASPM, Sex Factors, medicine, Animals, Humans, SNP, Genetic Predisposition to Disease, Genetics, Brain Mapping, Multidisciplinary, CDK5RAP2, Brain morphometry, Brain, Middle Aged, Biological Sciences, medicine.disease, Magnetic Resonance Imaging, Phenotype, Brain size, Female
Abstract

Loss-of-function mutations in the genes associated with primary microcephaly (MCPH) reduce human brain size by about two-thirds, without producing gross abnormalities in brain organization or physiology and leaving other organs largely unaffected [Woods CG, et al. (2005) Am J Hum Genet 76:717–728]. There is also evidence suggesting that MCPH genes have evolved rapidly in primates and humans and have been subjected to selection in recent human evolution [Vallender EJ, et al. (2008) Trends Neurosci 31:637–644]. Here, we show that common variants of MCPH genes account for some of the common variation in brain structure in humans, independently of disease status. We investigated the correlations of SNPs from four MCPH genes with brain morphometry phenotypes obtained with MRI. We found significant, sex-specific associations between common, nonexonic, SNPs of the genes CDK5RAP2 , MCPH1 , and ASPM , with brain volume or cortical surface area in an ethnically homogenous Norwegian discovery sample ( n = 287), including patients with mental illness. The most strongly associated SNP findings were replicated in an independent North American sample ( n = 656), which included patients with dementia. These results are consistent with the view that common variation in brain structure is associated with genetic variants located in nonexonic, presumably regulatory, regions.

Published
2009
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21. Simulating human sleep spindle MEG and EEG from ion channel and circuit level dynamics

Author

Rosen, B.Q., primary, Krishnan, G.P., additional, Sanda, P., additional, Komarov, M., additional, Sejnowski, T., additional, Rulkov, N., additional, Ulbert, I., additional, Eross, L., additional, Madsen, J., additional, Devinsky, O., additional, Doyle, W., additional, Fabo, D., additional, Cash, S., additional, Bazhenov, M., additional, and Halgren, E., additional

Published
2017
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23. Periventricular white matter abnormalities and restricted repetitive behavior in autism spectrum disorder

Author

Blackmon, K, Ben-Avi, E, Wang, X, Pardoe, HR, Di Martino, A, Halgren, E, Devinsky, O, Thesen, T, Kuzniecky, R, Blackmon, K, Ben-Avi, E, Wang, X, Pardoe, HR, Di Martino, A, Halgren, E, Devinsky, O, Thesen, T, and Kuzniecky, R

Abstract

Malformations of cortical development are found at higher rates in autism spectrum disorder (ASD) than in healthy controls on postmortem neuropathological evaluation but are more variably observed on visual review of in-vivo MRI brain scans. This may be due to the visually elusive nature of many malformations on MRI. Here, we utilize a quantitative approach to determine whether a volumetric measure of heterotopic gray matter in the white matter is elevated in people with ASD, relative to typically developing controls (TDC). Data from a primary sample of 48 children/young adults with ASD and 48 age-, and gender-matched TDCs, selected from the Autism Brain Imaging Data Exchange (ABIDE) open-access database, were analyzed to compare groups on (1) blinded review of high-resolution T1-weighted research sequences; and (2) quantitative measurement of white matter hypointensity (WMH) volume calculated from the same T1-weighted scans. Groupwise WMH volume comparisons were repeated in an independent, multi-site sample (80 ASD/80 TDC), also selected from ABIDE. Visual review resulted in equivalent proportions of imaging abnormalities in the ASD and TDC group. However, quantitative analysis revealed elevated periventricular and deep subcortical WMH volumes in ASD. This finding was replicated in the independent, multi-site sample. Periventricular WMH volume was not associated with age but was associated with greater restricted repetitive behaviors on both parent-reported and clinician-rated assessment inventories. Thus, findings demonstrate that periventricular WMH volume is elevated in ASD and associated with a higher degree of repetitive behaviors and restricted interests. Although the etiology of focal WMH clusters is unknown, the absence of age effects suggests that they may reflect a static anomaly.

Published
2016

27. Resting-state fMRI activity predicts unsupervised learning and memory in an immersive virtual reality environment

Author

Wong, CW, Olafsson, V, Plank, M, Snider, J, Halgren, E, Poizner, H, Liu, TT, Wong, CW, Olafsson, V, Plank, M, Snider, J, Halgren, E, Poizner, H, and Liu, TT

Abstract

In the real world, learning often proceeds in an unsupervised manner without explicit instructions or feedback. In this study, we employed an experimental paradigm in which subjects explored an immersive virtual reality environment on each of two days. On day 1, subjects implicitly learned the location of 39 objects in an unsupervised fashion. On day 2, the locations of some of the objects were changed, and object location recall performance was assessed and found to vary across subjects. As prior work had shown that functional magnetic resonance imaging (fMRI) measures of resting-state brain activity can predict various measures of brain performance across individuals, we examined whether resting-state fMRI measures could be used to predict object location recall performance. We found a significant correlation between performance and the variability of the resting-state fMRI signal in the basal ganglia, hippocampus, amygdala, thalamus, insula, and regions in the frontal and temporal lobes, regions important for spatial exploration, learning, memory, and decision making. In addition, performance was significantly correlated with resting-state fMRI connectivity between the left caudate and the right fusiform gyrus, lateral occipital complex, and superior temporal gyrus. Given the basal ganglia's role in exploration, these findings suggest that tighter integration of the brain systems responsible for exploration and visuospatial processing may be critical for learning in a complex environment.

Published
2014

28. Detection of Epileptogenic Cortical Malformations with Surface-Based MRI Morphometry

Author

Feany, M, Thesen, T, Quinn, BT, Carlson, C, Devinsky, O, DuBois, J, McDonald, CR, French, J, Leventer, R, Felsovalyi, O, Wang, X, Halgren, E, Kuzniecky, R, Feany, M, Thesen, T, Quinn, BT, Carlson, C, Devinsky, O, DuBois, J, McDonald, CR, French, J, Leventer, R, Felsovalyi, O, Wang, X, Halgren, E, and Kuzniecky, R

Abstract

Magnetic resonance imaging has revolutionized the detection of structural abnormalities in patients with epilepsy. However, many focal abnormalities remain undetected in routine visual inspection. Here we use an automated, surface-based method for quantifying morphometric features related to epileptogenic cortical malformations to detect abnormal cortical thickness and blurred gray-white matter boundaries. Using MRI morphometry at 3T with surface-based spherical averaging techniques that precisely align anatomical structures between individual brains, we compared single patients with known lesions to a large normal control group to detect clusters of abnormal cortical thickness, gray-white matter contrast, local gyrification, sulcal depth, jacobian distance and curvature. To assess the effects of threshold and smoothing on detection sensitivity and specificity, we systematically varied these parameters with different thresholds and smoothing levels. To test the effectiveness of the technique to detect lesions of epileptogenic character, we compared the detected structural abnormalities to expert-tracings, intracranial EEG, pathology and surgical outcome in a homogeneous patient sample. With optimal parameters and by combining thickness and GWC, the surface-based detection method identified 92% of cortical lesions (sensitivity) with few false positives (96% specificity), successfully discriminating patients from controls 94% of the time. The detected structural abnormalities were related to the seizure onset zones, abnormal histology and positive outcome in all surgical patients. However, the method failed to adequately describe lesion extent in most cases. Automated surface-based MRI morphometry, if used with optimized parameters, may be a valuable additional clinical tool to improve the detection of subtle or previously occult malformations and therefore could improve identification of patients with intractable focal epilepsy who may benefit from surgery.

Published
2011

33. Septal nuclei enlargement in human temporal lobe epilepsy without mesial temporal sclerosis

Author

Butler, T., primary, Zaborszky, L., additional, Wang, X., additional, McDonald, C. R., additional, Blackmon, K., additional, Quinn, B. T., additional, DuBois, J., additional, Carlson, C., additional, Barr, W. B., additional, French, J., additional, Kuzniecky, R., additional, Halgren, E., additional, Devinsky, O., additional, and Thesen, T., additional

Published
2013
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40. Cortico-muscular gamma-frequency coherence is correlated with instantaneous target probability

Author

Halgren, E., Ahlfors, S., Hamalainen, M., Cohen, D., Schoffelen, J.M., Oostenveld, R., Fries, P., Halgren, E., Ahlfors, S., Hamalainen, M., Cohen, D., Schoffelen, J.M., Oostenveld, R., and Fries, P.

Abstract

BIOMAG 2004: The 14th International Conference on Biomagnetism (Boston, MA, August 8-12, 2004), Item does not contain fulltext, Oscillatory neuronal synchronization plays a functional role in information processing by the nervous system. Cortico-muscular coherence (CMC) has been found to be modulated by task parameters [1], but its functional role is still debated. Since go-cue expectancy affects spike synchronization in primary motor cortex [2], we hypothesized that CMC might be involved in motor preparation, and thus be modulated in parallel with go-cue probability in a simple reaction time task. To test this, subjects were trained to hold an isometric wrist extension until a go-cue occurred. The go-cue was a speed increase of a drifting grating that could occur between 0.05 and 3.0 s after grating onset. The instantaneous probability (hazard rate) of the go-cue was manipulated. Each subject was trained separately on two different hazard functions, i.e., linearly increasing and linearly decreasing as a function of time. CMC was assessed between the muscles involved and MEG sensors overlying contralateral motor cortex. We found reaction times to be inversely correlated with the hazard rate, indicating enhanced motor preparation during periods of high target probability. Coherence around 20 Hz was generally reduced during task performance. In contrast, CMC around 40 Hz, i.e., in the gamma-frequency range, was correlated with the hazard rate. We conclude that cortico-muscular gamma-frequency coherence may play a functional role in movement preparation. [1] Kilner J.M. et al. 2000. Human cortical muscle coherence is directly related to specific motor parameters. J Neurosci. 8838-45. [2] Riehle A. et al. 1997. Spike synchronization and rate modulation differentially involved in motor cortical function. Science. 1950-3.

Published
2004

46. Response to Comment on "The Human K-Complex Represents an Isolated Cortical Down-State"

Author

Cash, S. S., primary, Halgren, E., additional, Dehghani, N., additional, Rossetti, A. O., additional, Thesen, T., additional, Wang, C., additional, Devinsky, O., additional, Kuzniecky, R., additional, Doyle, W., additional, Madsen, J. R., additional, Eross, L., additional, Halasz, P., additional, Karmos, G., additional, Csercsa, R., additional, Wittner, L., additional, and Ulbert, I., additional

Published
2010
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50. Properties of in vivo interictal spike generation in the human subiculum

Author

Fabo, D., primary, Magloczky, Z., additional, Wittner, L., additional, Pek, A., additional, Eross, L., additional, Czirjak, S., additional, Vajda, J., additional, Solyom, A., additional, Rasonyi, G., additional, Szucs, A., additional, Kelemen, A., additional, Juhos, V., additional, Grand, L., additional, Dombovari, B., additional, Halasz, P., additional, Freund, T. F., additional, Halgren, E., additional, Karmos, G., additional, and Ulbert, I., additional

Published
2008
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