Detekce neuronální aktivity spojené s funkcí dolních močových cest pomocí funkční magnetické rezonance / Detection of neuronal activity associated with function of lower urinary tract with use of functional magnetic resonance imaging

Holý, Petr

January 2014

of the thesis Considerable research attention has been paid to the neural regulation of the lower urinary tract (LUT) in past three decades. The aim of this work is mapping of a brain activity by functional magnetic resonance imaging (fMRI) using refined scanning protocol with synchronously performed urodynamics. We aimed to detect neural activity associated with pelvic floor muscle (PF) contractions, filling of urinary bladder and miction. In addition we evaluated using fMRI brain activity associated with urinary bladder filling in patients with a complete spinal cord injury (SCI). We hypothesized activation of brainstem and forebrain areas in receiving information from the vagal nerves. Adjustments of urodynamic system enabled successful implementation of synchronous filling cystometry with fMRI evaluation of cortical activity. We concluded that synchronous urodynamic examination is a novel feasible method that facilitates and enhance interpretation of fMRI data acquired. The main clusters of brain activation during PF contractions were observed in the medial surface of the frontal lobe (primary motor area) and supplementary motor area (SMA). We detected neural activity associated with filling of urinary bladder and miction in middle and inferior frontal gyrus, angular gyrus, posterior and...

Never Trust the Teller! Feedback Manipulation and its Impact on Perceptual Inference

Varrier, Rekha Sreekumar

16 March 2020

Laut der „Bayesian Brain“-Hypothese ist Wahrnehmung ein Inferenzprozess, der von sensorischen Daten abhängt, aber auch von Vorannahmen über die Wahrscheinlichkeit sensorischer Daten und ihrer Zuverlässigkeit. Feedback aus der Umgebung verbessert das Lernen und hilft dem Gehirn, diesen Inferenzprozess zu optimieren. In vorherigen Arbeiten wurde gezeigt, dass unzuverlässiges Feedback die perzeptuelle Genauigkeit beeinträchtigt und Fehlwahrnehmungen in Rauschsignalen erhöht. In dieser Arbeit wurde die Hypothese untersucht, dass der Effekt von unzuverlässigem Feedback einer geringeren Gewichtung sensorischer Daten im Inferenzprozess entspricht. Hierzu wurden zwei Studien mit visuellen Reizen durchgeführt: Studie I umfasste zwei Verhaltensexperimente; Studie II umfasste ein Experiment mit funktioneller Magnetresonanztomographie. Unter der Annahme einer Abwertung sensorischer Information infolge unzuverlässigen Feedbacks wurde eine Verringerung der perzeptuellen Leistung vorhergesagt und eine Verschiebung der Wahrnehmungsinferenz zu experimentell induzierten Vorannahmen. Auf neuronaler Ebene wurde untersucht, ob sich sensorische Repräsentationen im primären visuellen Kortex (V1) als Folge unzuverlässigen Feedbacks verschlechtern würden. In allen Experimenten wurde in einer Kontrollbedingung zuverlässiges Feedback gegeben. Die Ergebnisse beider Studien zeigten eine Abnahme der perzeptuellen Leistung nach unzuverlässigem versus zuverlässigem Feedback. Darüber hinaus verließen sich die Probanden zunehmend auf induzierte Vorannahmen. Auf neuronaler Ebene zeigte sich eine Verrauschung sensorischer Repräsentationen in V1 als Folge unzuverlässigen Feedbacks. Zusammenfassend zeigt sich, dass die Induzierung von Überzeugungen über die Zuverlässigkeit sensorischer Informationen durch manipuliertes Leistungsfeedback einen systematischen Einfluss auf perzeptuelle Inferenz hat und dass sich diese Veränderungen in frühen sensorischen Arealen manifestieren. / According to the Bayesian brain hypothesis, perception is an inferential process that depends not only on sensory data, but also on our beliefs about likely sensory data and their reliability. Feedback from the environment improves this inferential process. Indeed previous studies have shown that unreliable feedback impairs task performance and increases illusory pattern perception in noise. In this thesis, we explored the hypothesis that the effect of unreliable feedback is a down-weighting of sensory information in perceptual inference. We conducted two studies comprising visual stimuli: Study I comprised two behavioural experiments and Study II comprised a functional magnetic resonance imaging experiment. Based on the hypothesis that sensory data would be down-weighed after unreliable feedback , we predicted that perceptual performance would deteriorate and that perceptual inference would shift towards experimentally induced priors. Further, we investigated whether the sensory data representations in the primary visual cortex (V1) deteriorate as a result of unreliable feedback. Reliable feedback was used as a control condition in all the experiments. Data from both studies demonstrated that performance did decrease following unreliable feedback compared to reliable feedback. Moreover, observers increasingly relied on prior information as the feedback about their percepts became unreliable. At the neural level, low-level stimulus representations deteriorated in V1 with unreliable feedback. To sum up, our results show that inducing beliefs about the reliability of sensory information by manipulating performance feedback can systematically influence perceptual inference and that these changes manifest at the earliest stages of cortical sensory processing.

perzeptuelle Inferenz

visuelle Wahrnehmung

Feedback

funktionelle Magnetresonanztomographie

perceptual inference

visual perception

feedback

functional magnetic resonance imaging

150 Psychologie

CP 2000

ddc:150

The study of pain with blood oxygen level dependant functional magnetic resonance imaging

Ibinson, James W.

29 September 2004

No description available.

Functional magnetic resonance imaging

Pain

Physiologic noise

General linear modeling

Electrical nerve stimulation

Autonomic nervous system

End tidal carbon dioxide

Respiration

Cardiovascular function

Assessing Functional and Structural Connectivity in Former Professional Athletes

Doughty, Mitchell

13 September 2017

Recently there has been considerable attention directed towards the increased risk for head injuries that athletes face while participating in high impact sports. Furthermore, there is also heightened interest in the asymptomatic sport related sub-concussive blows, commonly experienced during play, that possibly lead to long term neurological deficits. Purpose: The goal of this study was to investigate retired professional athletes of the Canadian Football League with a history of sport-related concussions, using several advanced MRI methods. The ultimate goal being the identification of any potential synergistic effects between a history of sport-related concussions, and exacerbated cognitive decline later on in life. Materials and Methods: Twenty former professional athletes of the Canadian Football League were scanned using a GE Discovery MR750 3T MRI with a 32-channel RF-coil. Axial FSPGR-3D images were used to define rs-BOLD and DTI scans. Seed based network analysis of the DMN was performed on rs-BOLD data. Voxel-wise tensor fitting of DTI data provided the means for estimating several tensor metrics. Results were normalized through comparison with a database of healthy controls. Potential associations between functional connectivity, white matter integrity, and cortical thickness measures were correlated with retired athlete position and years of professional play. Results: We found widespread cortical thinning in retired CFL subjects, alongside significant increases in axial and mean diffusivity in the corona radiata and splenium and genu of the corpus callosum compared to controls. Seed based correlation analysis of the DMN network revealed interrupted connectivity in retired athletes. Athlete age, po- sition, and number of years played appear to be factors in overall core white matter microstructural integrity. Conclusions: When compared to an age and sex matched control population, differences were observed both in functional and structural con- nectivity, suggesting that even years after retiring the brains of these former athletes still exhibit signs of damage. / Thesis / Master of Applied Science (MASc) / Sport-related concussions affect millions of athletes on a yearly basis in the United States alone. Concussions are often accompanied by short-lived neurological impairments, such as confusion, headaches, dizziness, nausea and memory loss. In addition, there is the potential for development of long term mental health and cognitive impairment. The goal of this work was to identify any neurological changes present in retired athletes of the Canadian Football League, through the use of advanced magnetic resonance imaging techniques evaluating thickness of brain structures, changes in brain activity, and alterations in core microstructure of the brain. Analyzing the results of these techniques revealed changes in a number of brain regions within the retired professional athlete population. These results suggest that a career of high impact sports may lead to short term, in addition to long-term neurological consequences.

Concussion

Magnetic Resonance Imaging

Football

Diffusion Tensor Imaging

Functional Magnetic Resonance Imaging

White Matter

Chronic Traumatic Encephalopathy

Mild Traumatic Brain Injury

Adolescent to young adult longitudinal development across 8 years for matching emotional stimuli during functional magnetic resonance imaging

Vetter, Nora C., Fröhner, Juliane H., Hoffmann, Klara, Backhausen, Lea L., Smolka, Michael N.

19 April 2024

We investigated development from adolescence to young adulthood of neural bottom-up and top-down processes using a functional magnetic resonance imaging task on emotional attention. We followed 249 participants from age 14–22 in up to four waves resulting in 687 total scans of a matching task in which participants decided whether two pictures were the same including distracting emotional or neutral scenes. We applied generalized additive mixed models and a reliability approach for longitudinal analysis. Reaction times and error rates decreased longitudinally. For top-down processing, we found a longitudinal increase for the bilateral inferior frontal gyrus (IFG) for negative stimuli and in the left IFG also for positive and neutral stimuli. For bottom-up activation in the bilateral amygdala, we found a relative stability for negative and neutral stimuli. For positive stimuli, there was an increase starting in the twenties. Results show ongoing behavioral and top-down prefrontal development relatively independent from emotional valence. Amygdala bottom-up activation remained stable except for positive stimuli. Current findings add to the sparse literature on longitudinal top-down and bottom-up development into young adulthood and emphasize the role of reliability. These findings might help to characterize healthy in contrast to dysfunctional development of emotional attention.

info:eu-repo/classification/ddc/610

ddc:610

Avaliação da pineal humana in vivo pela ressonância magnética funcional. / In vivo assessment of human pineal by functional magnetic resonance imaging.

Constantinides, Claudia de Queiroz Accioly

23 April 2015

Este estudo foi realizado para testar técnicas de ressonância magnética funcional (RMf) para investigar aspectos funcionais da pineal humana. Foram coletadas imagens funcionais e amostras de sangue total para a dosagem da melatonina plasmática antes, durante e após a apresentação de estímulo com luz azul quase monocromática em indivíduos saudáveis. Os participantes realizaram o exame de tomografia computadorizada do crânio sem o uso de contraste endovenoso (TC), para a avaliação qualitativa do grau de calcificação pineal. As conclusões foram: a) não houve ativação da pineal em resposta à aplicação da luz; b) não houve diferenças estatisticamente significativas entre as condições pré-estímulo, durante o estímulo ou pós-estímulo usando diferentes métodos de análise dos dados de RMf, porém, observou-se tendência de maior poder espectral na pineal durante a aplicação do estímulo luminoso do que nas condições pré e pós-estímulo; c) foi identificada a conectividade funcional da pineal, que poderá ser melhor avaliada em estudo futuro. / This study aimed to test the functional magnetic resonance imaging (fMRI) techniques in order to investigate the functional aspects of human pineal gland. Some functional images and total blood samples for dosing the plasmatic melatonin concentration were collected before, during and after the presentation of a monochromatic blue light stimulation in healthy individuals. All subjects were examined by a brain CT scan, with no the administration of endovenous contrast, for the qualitative assessment of the pineal calcification level. The conclusions were the following: a) there was no pineal activation in response to the application of light; b) there were no statistically significant differences between the pre-, during and poststimulation conditions with different analysis methods of fMRI data, however, there was a trend of greater spectral power in the pineal gland during the luminous stimulation application than under the other conditions; c) the functional connectivity of the pineal could be identified, which should be better assessed in a future study.

Análise espectral

Blue light

Conectividade funcional

FSL

FSL

Functional connectivity

Functional magnetic resonance imaging

Human pineal

Luz azul

Pineal humana

Redes neurais do estado de repouso

Ressonância magnética funcional

Resting-state neural networks

Spectral analysis

Avaliação da pineal humana in vivo pela ressonância magnética funcional. / In vivo assessment of human pineal by functional magnetic resonance imaging.

Claudia de Queiroz Accioly Constantinides

23 April 2015

Este estudo foi realizado para testar técnicas de ressonância magnética funcional (RMf) para investigar aspectos funcionais da pineal humana. Foram coletadas imagens funcionais e amostras de sangue total para a dosagem da melatonina plasmática antes, durante e após a apresentação de estímulo com luz azul quase monocromática em indivíduos saudáveis. Os participantes realizaram o exame de tomografia computadorizada do crânio sem o uso de contraste endovenoso (TC), para a avaliação qualitativa do grau de calcificação pineal. As conclusões foram: a) não houve ativação da pineal em resposta à aplicação da luz; b) não houve diferenças estatisticamente significativas entre as condições pré-estímulo, durante o estímulo ou pós-estímulo usando diferentes métodos de análise dos dados de RMf, porém, observou-se tendência de maior poder espectral na pineal durante a aplicação do estímulo luminoso do que nas condições pré e pós-estímulo; c) foi identificada a conectividade funcional da pineal, que poderá ser melhor avaliada em estudo futuro. / This study aimed to test the functional magnetic resonance imaging (fMRI) techniques in order to investigate the functional aspects of human pineal gland. Some functional images and total blood samples for dosing the plasmatic melatonin concentration were collected before, during and after the presentation of a monochromatic blue light stimulation in healthy individuals. All subjects were examined by a brain CT scan, with no the administration of endovenous contrast, for the qualitative assessment of the pineal calcification level. The conclusions were the following: a) there was no pineal activation in response to the application of light; b) there were no statistically significant differences between the pre-, during and poststimulation conditions with different analysis methods of fMRI data, however, there was a trend of greater spectral power in the pineal gland during the luminous stimulation application than under the other conditions; c) the functional connectivity of the pineal could be identified, which should be better assessed in a future study.

Análise espectral

Conectividade funcional

FSL

Luz azul

Pineal humana

Redes neurais do estado de repouso

Ressonância magnética funcional

Blue light

FSL

Functional connectivity

Functional magnetic resonance imaging

Human pineal

Resting-state neural networks

Spectral analysis

Nature of crossmodal plasticity in the blind brain and interplay with sight restoration

Dormal, Giulia

06 1900

Thèse réalisée en cotutelle avec l'Université catholique de Louvain. / Ce travail de thèse s’est intéressé à la plasticité cérébrale associée à la privation/restauration visuelle. A travers deux études transversales utilisant l’imagerie par résonance magnétique fonctionnelle auprès d’un groupe de participants présentant une cécité congénitale ou précoce (ainsi qu’auprès d’un groupe contrôle de participants voyants), nous avons tenté de caractériser la manière dont le cortex occipital - typiquement dédié au traitement de l’information visuelle - se réorganise afin de traiter différents stimuli auditifs. Nous démontrons qu’en cas de cécité précoce, différentes régions du cortex occipital présentent une préférence fonctionnelle pour certains types de stimuli non-visuels, avec une spécialisation fonctionnelle qui respecte celle de régions typiquement impliquées dans le traitement d’informations similaires en vision. Ces découvertes constituent une avancée conceptuelle concernant le rôle joué par les contraintes intrinsèques d’une part, et par l’expérience d’autre part, dans l’émergence de réponses sensorielles et fonctionnelles du cortex occipital. D’une part, l’observation de réponses occipitales à la stimulation auditive chez le non-voyant précoce (réorganisation transmodale) rend compte de la capacité du cortex occipital à réorienter sa modalité sensorielle préférentielle en fonction de l’expérience. D’autre part, l’existence de modules cognitifs spécialisés dans le cortex occipital du non-voyant précoce, semblables à ceux du cerveau voyant, démontre les contraintes intrinsèques imposées à une telle plasticité. Dans une étude de cas longitudinale, nous avons également exploré comment les changements plastiques associés à la cécité interagissent avec une récupération visuelle partielle à l’âge adulte. Nous avons réalisé des mesures pré et post-opératoires auprès d’un patient ayant récupéré la vision, en combinant les techniques comportementales ainsi que de neuroimagerie fonctionnelle et structurelle afin d’investiguer conjointement l’évolution de la réorganisation transmodale et de la récupération des fonctions visuelles à travers le temps. Nous démontrons que les changements structurels et fonctionnels caractérisant le cortex occipital du non-voyant sont partiellement réversibles suite à une récupération visuelle à l’âge adulte. De manière générale, ces recherches témoignent de l’importante adaptabilité du cortex occipital aux prises avec des changements drastiques dans l’expérience visuelle. / The present Ph.D. work was dedicated to the study of experience-dependent brain plasticity associated with visual deprivation/restoration. In two cross-sectional studies involving the use of functional magnetic resonance imaging in a group of participants with congenital or early blindness (and in a control group of sighted participants), we attempted to characterize the way the occipital cortex - typically devoted to vision – reorganizes itself in order to process different auditory stimuli. We demonstrate that in case of early visual deprivation, distinct regions of the occipital cortex display a functional preference for specific non-visual attributes, maintaining a functional specialization similar to the one that characterizes the sighted brain. Such studies have shed new light on the role played by intrinsic constraints on the one side, and experience on the other, in shaping the modality- and functional tuning of the occipital cortex. On the one hand, the observation of occipital responses to auditory stimulation (crossmodal plasticity) highlights the ability of the occipital cortex to reorient its preferential tuning towards the preserved sensory modalities as a function of experience. On the other hand, the observation of specialized cognitive modules in the occipital cortex, similar to those observed in the sighted, highlights the intrinsic constraints imposed to such plasticity. In a longitudinal single-case study, we further explored how the neuroplastic changes associated with blindness may interact with the newly reacquired visual inputs following partial visual restoration in adulthood. We performed both pre- and post-surgery measurements in a sight-recovery patient combining behavioral, neurostructural and neurofunctional methods in order to jointly investigate the evolution of crossmodal reorganization and visual recovery across time. We demonstrate that functional and structural changes evidenced in the visually-deprived occipital cortex can only partially reverse following sight restoration in adulthood. Altogether, our findings demonstrate the striking adaptability of the occipital cortex facing drastic changes in visual experience.

cécité

plasticité transmodale

système ventral-dorsal

restauration visuelle

blindness

crossmodal plasticity

ventral-dorsal systems

sight restoration

functional magnetic resonance imaging

Etude par IRM fonctionnelle et TEP métabolique des réorganisations mnésiques dans l'épilepsie temporale / Functional MRI and metabolic PET study of memory reorganization in temporal lobe epilepsy

Guedj, Eric

29 November 2010

L’objectif général de ce travail de thèse a été de caractériser in vivo, chez l’Homme, les réorganisations mnésiques retrouvées dans l’épilepsie temporo-mésiale pharmaco-résistante.Nous nous sommes appuyés sur une approche multimodale d’imagerie combinant étude de la connectivité et des réseaux d’activations mnésiques en IRMf, et étude de la consommation métabolique régionale inter-critique de glucose en TEP. Il s’agissait, notamment, de mieux comprendre la relative préservation mnésique retrouvée chez certains de ces patients, malgré l’implication du cortex temporal interne au sein de leurs réseaux épileptiques.Nos résultats, obtenus pour l’encodage d’items uniques non matériel-spécifiques, apportent des connaissances nouvelles sur l’adaptation fonctionnelle des réseaux cognitifs au sein et en dehors de la zone épileptogène, expliquant les différences de performance mnésique en reconnaissance, et leur lien possible avec les réseaux épileptiques.Ces travaux suggèrent, notamment, l’existence de ressources fonctionnelles additionnelles efficaces, à la fois locales et à distance, impliquant la voie visuelle ventrale bilatérale. Ces processus de compensation pourraient être conditionnés par les caractéristiques propres de l’atteinte primitive, et en particulier une implication différente des structures temporales internes au sein de la zone épileptogène. L’altération fonctionnelle de ce système perceptivo-mnésique pourrait induire une réorganisation inefficace plus large, sollicitant l’activation alternative des réseaux de l’attention, au niveau des régions fronto-cingulaires et pariétales. / The overall objective of this thesis was to characterize in vivo the human memory reorganization observed in medial temporal lobe epilepsy, in particular for recognition memory.We conducted a multimodal neuroimaging approach, combining the study of connectivity and memory activation networks with fMRI, and the study of inter-ictal cerebral metabolic rate of glucose with PET. We aimed to better understand the relative preservation of memory found in some patients, despite the involvement of the medial temporal lobe within their epileptic networks. Our findings, obtained for the encoding of non material-specific single items, provide new insights into the functional adaptation of cognitive networks, within and outside the epileptogenic zone, and help to explain the differences in recognition performance, and their possible relationship with epileptic networks. These studies suggest, in particular, the existence of local and remote compensatory mechanisms which are functionally effective and involve the ventral visual stream bilaterally. These could be influenced by the exact involvement of medial temporal structures within the epileptogenic zone. The impairment of this perceptive-memory system may lead to a more large-scale reorganization with the alternative activation of an inefficient network of attention-related areas involving fronto-cingulate and parietal cortices.

Epilepsie du lobe temporal

IRMf

Tep

Connectivité

Mémoire

Reconnaissance

Réorganisation

Réseaux

Temporal lobe epilepsy

Functional Magnetic Resonance Imaging

Positron Emission Tomography

Basal functional connectivity

Resting-state

Cognition

Memory

Functional reserve

Investigations into the effects of neuromodulations on the BOLD-fMRI signal

Maczka, Melissa May

January 2013

The blood oxygen level dependent functional MRI (BOLD-fMRI) signal is an indirect measure of the neuronal activity that most BOLD studies are interested in. This thesis uses generative embedding algorithms to investigate some of the challenges and opportunities that this presents for BOLD imaging. It is standard practice to analyse BOLD signals using general linear models (GLMs) that assume fixed neurovascular coupling. However, this assumption may cause false positive or negative neural activations to be detected if the biological manifestations of brain diseases, disorders and pharmaceutical drugs (termed "neuromodulations") alter this coupling. Generative embedding can help overcome this problem by identifying when a neuromodulation confounds the standard GLM. When applied to anaesthetic neuromodulations found in preclinical imaging data, Fentanyl has the smallest confounding effect and Pentobarbital has the largest, causing extremely significant neural activations to go undetected. Half of the anaesthetics tested caused overestimation of the neuronal activity but the other half caused underestimation. The variability in biological action between anaesthetic modulations in identical brain regions of genetically similar animals highlights the complexity required to comprehensively account for factors confounding neurovascular coupling in GLMs generally. Generative embedding has the potential to augment established algorithms used to compensate for these variations in GLMs without complicating the standard (ANOVA) way of reporting BOLD results. Neuromodulation of neurovascular coupling can also present opportunities, such as improved diagnosis, monitoring and understanding of brain diseases accompanied by neurovascular uncoupling. Information theory is used to show that the discriminabilities of neurodegenerative-diseased and healthy generative posterior parameter spaces make generative embedding a viable tool for these commercial applications, boasting sensitivity to neurovascular coupling nonlinearities and biological interpretability. The value of hybrid neuroimaging systems over separate neuroimaging technologies is found to be greatest for early-stage neurodegenerative disease.

616.8