MEG Analysis of Temporal and Anatomical Neural Activation During False Belief Reasoning

AuCoin-Power, Michelle

20 November 2013

We examined the spatiotemporal dynamics underlying the processing of a false belief task using magnetoencephalography (MEG). Twenty adults performed a false belief task adapted for MEG. Regions of interest were selected based on source analyses on the contrast between false and true belief, and MEG source time-course reconstructions were generated and analyzed to determine the temporal architecture of neural activations specific to false belief reasoning. We found frontal, temporal and parietal regions to activate during false belief processing, confirming prior findings. We also extend previous findings by adding information about the temporal profile of neural activity during theory of mind processing, an area lacking in the literature. We found that increased frontal activity began at 100 ms bilaterally, followed by parietal regions from 200 to 330 ms and temporal regions at 350 ms, at which point frontal activity became lateralized to the right hemisphere.

theory of mind

false belief

MEG

social cognition

0623

A casein kinase 2 inhibitor is a potent anti-cancer drug candidate

Ciocea, Alieta

15 July 2008

No description available.

Biomedical Research

casein kinase 2

DMAT

MEG-01

leukemia

Integration of fMRI and MEG towards modeling language networks in the brain

Wang, Yingying

January 2013

No description available.

Radiology

Bayesian statistics

fMRI

MEG

language networks

integration

adolescent

Setting location priors using beamforming improves model comparison in MEG-DCM

Carter, Matthew Edward

25 August 2014

Modelling neuronal interactions using a directed network can be used to provide insight into the activity of the brain during experimental tasks. Magnetoencephalography (MEG) allows for the observation of the fast neuronal dynamics necessary to characterize the activity of sources and their interactions. A network representation of these sources and their connections can be formed by mapping them to nodes and their connection strengths to edge weights. Dynamic Causal Modelling (DCM) presents a Bayesian framework to estimate the parameters of these networks, as well as the ability to test hypotheses on the structure of the network itself using Bayesian model comparison. DCM uses a neurologically-informed representation of the active neural sources, which leads to an underdetermined system and increased complexity in estimating the network parameters. This work shows that inform- ing the MEG DCM source location with prior distributions defined using a MEG source localization algorithm improves model selection accuracy. DCM inversion of a group of candidate models shows an enhanced ability to identify a ground-truth network structure when source-localized prior means are used. / Master of Science

Dynamic Causal Modelling

MEG

Bayesian Statistics

Prior Distributions

System Identification

Régularisation du problème inverse MEG par IRM de diffusion / MEG inverse problem regularization via diffusion MRI

Philippe, Anne-Charlotte

19 December 2013

La magnéto-encéphalographie (MEG) mesure l´activité cérébrale avec un excellent décours temporel mais sa localisation sur la surface corticale souffre d´une mauvaise résolution spatiale. Le problème inverse MEG est dit mal-posé et doit de ce fait être régularisé. La parcellisation du cortex en régions de spécificité fonctionnelle proche constitue une régularisation spatiale pertinente du problème inverse MEG. Nous proposons une méthode de parcellisation du cortex entier à partir de la connectivité anatomique cartographiée par imagerie de diffusion. Au sein de chaque aire d´une préparcellisation, la matrice de corrélation entre les profils de connectivité des sources est partitionnée. La parcellisation obtenue est alors mise à jour en testant la similarité des données de diffusion de part et d´autre des frontières de la préparcellisation. C´est à partir de ce résultat que nous contraignons spatialement le problème inverse MEG. Dans ce contexte, deux méthodes sont développées. La première consiste à partitionner l´espace des sources au regard de la parcellisation. L´activité corticale est alors obtenue sur un ensemble de parcelles. Afin de ne pas forcer les sources à avoir exactement la même intensité au sein d´une parcelle, nous développons une méthode alternative introduisant un nouveau terme de régularisation qui, lorsqu´il est minimisé, tend à ce que les sources d´une même parcelle aient des valeurs de reconstruction proches. Nos méthodes de reconstruction sont testées et validées sur des données simulées et réelles. Une application clinique dans le cadre du traitement de données de sujets épileptiques est également réalisée. / Magnetoencephalography (MEG) is a functional non-invasive modality which provides information on the temporal succession of cognitive processes with an excellent time resolution. Unfortunately, spatial resolution is limited due to the ill-posed nature of the MEG inverse problem for estimating source currents from the electromagnetic measurement. Cortex parcellation into regions sharing functional features constitutes a relevant spatial regularization. We propose a whole cortex parcellation method based on the anatomical connectivity mapped by diffusion MRI. Inside areas of a preparcellation, the correlation matrix between connectivity profiles is clustered. The cortex parcellation is then updated testing the similarity of diffusion data on both sides of pre-parcellation boundaries. MEG inverse problem is constrained from this result. Two methods have been developed. The first one is based on the subdivision of source space regarding the parcellation. The cortical activity is obtained on a set of parcels and its analysis is simplified. Not to force sources to have exactly the same value inside a cortical area, we develop an alternative method. We introduce a new regularization term in the MEG inverse problem which constrain sources in a same region to have close values. Our methods are applied on simulated and real subjects. Clinical application is also performed on epileptic data. Each contribution takes part of a pipeline whose each step is detailed to make our works reproducible.

IRM de diffusion

MEG

Parcellisation corticale

Profil de connectivité

Problème inverse

Diffusion MRI

MEG

Cortical parcellation

Connectivity profile

Inverse problem

Machine Learning in Detecting Auditory Sequences in Magnetoencephalography Data: Research Project in Computational Modelling and Simulation

Shaikh, Mohd Faraz

17 November 2022

Spielt Ihr Gehirn Ihre letzten Lebenserfahrungen ab, während Sie sich ausruhen? Eine offene Frage in den Neurowissenschaften ist, welche Ereignisse unser Gehirn wiederholt und gibt es eine Korrelation zwischen der Wiederholung und der Dauer des Ereignisses? In dieser Studie habe ich versucht, dieser Frage nachzugehen, indem ich Magnetenzephalographie-Daten aus einem Experiment zum aktiven Hören verwendet habe. Die Magnetenzephalographie (MEG) ist ein nicht-invasives Neuroimaging-Verfahren, das verwendet wird, um die Gehirnaktivität zu untersuchen und die Gehirndynamik bei Wahrnehmungs- und kognitiven Aufgaben insbesondere in den Bereichen Sprache und Hören zu verstehen. Es zeichnet das in unserem Gehirn erzeugte Magnetfeld auf, um die Gehirnaktivität zu erkennen. Ich baue eine Pipeline für maschinelles Lernen, die einen Teil der Experimentdaten verwendet, um die Klangmuster zu lernen und dann das Vorhandensein von Geräuschen im späteren Teil der Aufnahmen vorhersagt, in denen die Teilnehmer untätig sitzen mussten und kein Ton zugeführt wurde. Das Ziel der Untersuchung der Testwiedergabe von gelernten Klangsequenzen in der Nachhörphase. Ich habe ein Klassifikationsschema verwendet, um Muster zu identifizieren, wenn MEG auf verschiedene Tonsequenzen in der Zeit nach der Aufgabe reagiert. Die Studie kam zu dem Schluss, dass die Lautfolgen über dem theoretischen Zufallsniveau identifiziert und unterschieden werden können und bewies damit die Gültigkeit unseres Klassifikators. Darüber hinaus könnte der Klassifikator die Geräuschsequenzen in der Nachhörzeit mit sehr hoher Wahrscheinlichkeit vorhersagen, aber um die Modellergebnisse über die Nachhörzeit zu validieren, sind mehr Beweise erforderlich. / Does your brain replay your recent life experiences while you are resting? An open question in neuroscience is which events does our brain replay and is there any correlation between the replay and duration of the event? In this study I tried to investigate this question by using Magnetoencephalography data from an active listening experiment. Magnetoencephalography (MEG) is a non-invasive neuroimaging technique used to study the brain activity and understand brain dynamics in perception and cognitive tasks particularly in the fields of speech and hearing. It records the magnetic field generated in our brains to detect the brain activity. I build a machine learning pipeline which uses part of the experiment data to learn the sound patterns and then predicts the presence of sound in the later part of the recordings in which the participants were made to sit idle and no sound was fed. The aim of the study of test replay of learned sound sequences in the post listening period. I have used classification scheme to identify patterns if MEG responses to different sound sequences in the post task period. The study concluded that the sound sequences can be identified and distinguished above theoretical chance level and hence proved the validity of our classifier. Further, the classifier could predict the sound sequences in the post-listening period with very high probability but in order to validate the model results on post listening period, more evidence is needed.

The Effect of Monoethylene Glycol (MEG) on CO2 Corrosion Mechanisms

Ruiz, Roberto A.,

January 2017

No description available.

Chemical Engineering

Engineering

Petroleum Engineering

CO2 Corrosion

Monoethylene Glycol

MEG

Corrosion Mechanisms

Sweet Corrosion

Non-ideal Solutions

MEG-CO2 Corrosion

Hydrates

Séparation des activités cérébrales phasiques et oscillatoires en MEG, EEG et EEG intracérébral

Jmail, Nawel

04 June 2012

Les oscillations jouent un rôle de premier plan dans la mise en place des réseaux cérébraux sains et pathologiques. En particulier, au niveau clinique, les activités oscillatoires sont d'une grande importance diagnostique en épilepsie. Par ailleurs, les méthodes non-invasives d'électrophysiologie sont particulièrement adaptées pour la compréhension des réseaux cérébraux à grande échelle. Cependant, la majorité des études en épilepsie a été dirigée vers les pointes intercritiques, qui sont des activités transitoires. Une question qui reste donc en suspens est le lien entre les pointes épileptiques et les activités oscillatoires épileptiques. Cette thèse a visé à résoudre deux problématiques complémentaires autour de cette question. La première problématique est la séparation adéquate entre les activités oscillatoires et transitoires. Il s'agit d'une tâche difficile surtout lors d'un grand chevauchement temporel, qui peut résulter en la contamination d'une activité par l'autre. Nous avons évaluée trois méthodes de filtrage : le filtre FIR (méthode classique), la transformé d'ondelette stationnaire et le filtrage parcimonieux par matching pursuit (MP, basé sur un dictionnaire). Sur des simulations, la SWT a donné de très bons résultats pour la reconstruction des transitoires et le MP pour les oscillations ; de plus, les deux méthodes ont donné un faible taux de faux positifs en détection automatique des oscillations. La SWT et le FIR ont donné les meilleurs résultats de filtrage sur les signaux réels, en particulier lors de la localisation de source. / The Oscillatory activities play a leading role in the development of healthy and pathological brain networks. In particular, at the clinical level, the oscillatory activities are of great importance in the diagnostic of epilepsy. In addition, the non-invasive electrophysiology methods are particularly suitable for understanding the large-scale brain networks. However, most studies in epilepsy have been directed to the interictal spikes, which are transitional activities. One issue that remains unresolved is the relationship between epileptic spikes and epileptic oscillatory activities. This thesis resolves two complementary problems. The first one is the suitable separation between the oscillatory and transitory activity, which is quite sensitive to the presence of the overlap in the time-frequency domain. This can lead to a contamination between the activities. We did evaluate three filtering methods: the FIR (classic methods), the stationary wavelet SWT and the parsimonious filter with the matching pursuit MP. The SWT gave good results in the reconstruction of transient activity and the MP in the reconstruction of oscillatory activity both for simulated data; also they provide a low false positive in automatic detection of oscillatory activity. The SWT and FIR gave the best results on real signals especially for source localization. In the simulated data, the MP is optimal since the atoms of the dictionary resembles to the simulated signals, which isn't guaranteed for real signals. The second problem is the comparison between network connectivity of transient and oscillatory activity, as measured in surface recordings (MEG) and invasive recordings SEEG.

Épilepsie

Oscillations

Pointes épileptiques

Meg

Seeg

Fir

Mp

Swt

Mne

Dipôle

Réseau de connectivité.

Epilepsy

Oscillations

Epileptic spikes

Meg

Seeg

Fir

Mp

Swt

Mne

Dipole

Network connectivity

The face in your voice–how audiovisual learning benefits vocal communication

Schall, Sonja

12 September 2014

Gesicht und Stimme einer Person sind stark miteinander assoziiert und werden normalerweise als eine Einheit wahrgenommen. Trotz des natürlichen gemeinsamen Auftretens von Gesichtern und Stimmen, wurden deren Wahrnehmung in den Neurowissenschaften traditionell aus einer unisensorischen Perspektive untersucht. Das heißt, dass sich Forschung zu Gesichtswahrnehmung ausschließlich auf das visuelle System fokusierte, während Forschung zu Stimmwahrnehmung nur das auditorische System untersuchte. In dieser Arbeit schlage ich vor, dass das Gehirn an die multisensorische Beschaffenheit von Gesichtern und Stimmen adaptiert ist, und dass diese Adaption sogar dann sichtbar ist, wenn nur die Stimme einer Person gehört wird, ohne dass das Gesicht zu sehen ist. Im Besonderen, untersucht diese Arbeit wie das Gehirn zuvor gelernte Gesichts-Stimmassoziationen ausnutzt um die auditorische Analyse von Stimmen und Sprache zu optimieren. Diese Dissertation besteht aus drei empirischen Studien, welche raumzeitliche Hirnaktivität mittels funktionaler Magnetresonanztomographie (fMRT) und Magnetoenzephalographie (MEG) liefern. Alle Daten wurden gemessen, während Versuchspersonen auditive Sprachbeispiele von zuvor familiarisierten Sprechern (mit oder ohne Gesicht des Sprechers) hörten. Drei Ergebnisse zeigen, dass zuvor gelernte visuelle Sprecherinformationen zur auditorischen Analyse von Stimmen beitragen: (i) gesichtssensible Areale waren Teil des sensorischen Netzwerks, dass durch Stimmen aktiviert wurde, (ii) die auditorische Verarbeitung von Stimmen war durch die gelernte Gesichtsinformation zeitlich faszilitiert und (iii) multisensorische Interaktionen zwischen gesichtsensiblen und stimm-/sprachsensiblen Arealen waren verstärkt. Die vorliegende Arbeit stellt den traditionellen, unisensorischen Blickwinkel auf die Wahrnehmung von Stimmen und Sprache in Frage und legt nahe, dass die Wahrnehmung von Stimme und Sprache von von einem multisensorischen Verarbeitungsschema profitiert. / Face and voice of a person are strongly associated with each other and usually perceived as a single entity. Despite the natural co-occurrence of faces and voices, brain research has traditionally approached their perception from a unisensory perspective. This means that research into face perception has exclusively focused on the visual system, while research into voice perception has exclusively probed the auditory system. In this thesis, I suggest that the brain has adapted to the multisensory nature of faces and voices and that this adaptation is evident even when one input stream is missing, that is, when input is actually unisensory. Specifically, the current work investigates how the brain exploits previously learned voice-face associations to optimize the auditory processing of voices and vocal speech. Three empirical studies providing spatiotemporal brain data—via functional magnetic resonance imaging (fMRI) and magnetoencephalography (MEG)—constitute this thesis. All data were acquired while participants listened to auditory-only speech samples of previously familiarized speakers (with or without seeing the speakers’ faces). Three key findings demonstrate that previously learned visual speaker information support the auditory analysis of vocal sounds: (i) face-sensitive areas were part of the sensory network activated by voices, (ii) the auditory analysis of voices was temporally facilitated by learned facial associations and (iii) multisensory interactions between face- and voice/speech-sensitive regions were increased. The current work challenges traditional unisensory views on vocal perception and rather suggests that voice and vocal speech perception profit from a multisensory neural processing scheme.

fMRT

Sprache

Gesicht

Stimme

Personenerkennung

Sprechererkennung

Multisensorisch

Neuronale Mechanismen

MEG

fMRI

Face

Voice

Person Recognition

Speech

Speaker Recognition

Multisensory

Neural Mechanisms

MEG

150 Psychologie

11 Psychologie

ddc:150

Avaliação do impacto da aplicação do modelo de excelência em gestão da Fundação Nacional da Qualidade no processo de comercialização de energia de uma empresa pública: estudo de caso da Eletrobras Eletronorte / Impact assessment of the implmentation of the model of excellence in management of National Foundation of Quality in case of energy trading of a public company: a case study of Eletrobras Eletronorte

Detoni, Geronimo Carlos de Meira

02 September 2013

Submitted by Cássia Santos (cassia.bcufg@gmail.com) on 2016-08-09T15:19:07Z No. of bitstreams: 2 Dissertação - Geronimo CArlos de Meira Detoni - 2013.pdf: 2178811 bytes, checksum: 38c96596d85db8bf692e4715f8dc4f4f (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2016-08-10T12:12:58Z (GMT) No. of bitstreams: 2 Dissertação - Geronimo CArlos de Meira Detoni - 2013.pdf: 2178811 bytes, checksum: 38c96596d85db8bf692e4715f8dc4f4f (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2016-08-10T12:12:58Z (GMT). No. of bitstreams: 2 Dissertação - Geronimo CArlos de Meira Detoni - 2013.pdf: 2178811 bytes, checksum: 38c96596d85db8bf692e4715f8dc4f4f (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2013-09-02 / The unbundling of the Brazilian electric sector in 2004 significantly impacted the sale of power in the country. Since then, a number of measures were progressively implemented, making the market for buying and selling energy competitive and challenging. The generation companies and energy traders had to adapt to new market segmentation, while seeking to retain old customers and attract new contracts. In this context, Eletrobras Eletronorte, a public energy generation and transmission company, defined excellence in management as its strategy by aligning its processes to MEG and to have continuous participation in the PNQ, which evaluates and ranks the best companies in Brazil. The company's relationship with customers and the market is made by means of the criterion "Customers". In the energy market, this criterion expresses the degree of excellence of the marketing process. It is therefore hoped that its score is supposed to represent the measure of success in the pursuit of customer retention and maintenance of the organization. Starting from the historic score obtained by the company in editions of PNQ to the criterion "Customers", the results of satisfaction surveys of the area and financial results recorded during the study period, this work intends to evaluate the impact of having MEG used in the process of commercialization of Eletrobras Eletronorte, considering that the organization was the winner of “World Class” prize from FNQ. / A desverticalização do setor elétrico brasileiro em 2004 impactou a comercialização de energia no país de maneira significativa. Desde então, uma série de medidas foi implementada progressivamente, tornando o mercado de compra e venda de energia competitivo e desafiador. Fez-se necessário que as geradoras e comercializadoras de energia se adaptassem a uma nova segmentação do mercado, buscando ao mesmo tempo a retenção dos clientes antigos e a captação de novos contratos. Nesse contexto, a Eletrobras Eletronorte, empresa pública de geração e transmissão de energia, definiu como estratégia a excelência na gestão, por meio do alinhamento de seus processos ao MEG e da contínua participação no PNQ, que avalia e classifica as melhores empresas do país. A relação da empresa com clientes e mercado é feita por meio do critério “Clientes”. No mercado de energia, esse critério expressa o grau de excelência do processo de comercialização. Espera-se, portanto que sua pontuação represente a medida do sucesso na busca da retenção e manutenção dos clientes da organização. Partindo do histórico da pontuação obtida pela empresa nas edições do PNQ para o critério “Clientes”, dos resultados das pesquisas de satisfação internas da área e dos resultados econômico-financeiros verificados no período do estudo, este trabalho pretende avaliar o impacto da utilização do MEG no processo de Comercialização da Eletrobras Eletronorte, haja vista o cenário de obtenção, pela organização, do prêmio “Classe Mundial” conferido pela FNQ.

Setor elétrico

Excelência em gestão

Clientes

Mercado

PNQ

FNQ

MEG

Energy

Management excellence

Clients

Market

PNQ

FNQ

MEG

ENGENHARIAS::ENGENHARIA ELETRICA