Investigation of the neural correlates of ongoing pain states using quantitative perfusion arterial spin labelling

Segerdahl, Andrew Reilly

January 2011

At present, there are few clinically effective pain therapies available to treat chronic pain. One reason is due to a lack of understanding about how pain emerges in the brain. Excitingly, an emerging body of work suggests that the perfusion imaging technique, arterial spin labelling (ASL), is particularly well-suited to investigate this issue. The primary aim of this thesis is to develop and optimise a quantitative perfusion imaging approach to investigate the neural correlates of both experimental and pathological tonic pain. In Chapter 2, we explore different methods of inducing ongoing pain in healthy subjects. Results from this study show that mechanically induced pain is well suited for use in ASL FMRI experiments. In Chapter 3, we compare currently available ASL FMRI approaches for investigating tonic states, using a range of sensory paradigms. Results from these experiments support the use of an optimised version of Continuous ASL (CASL) FMRI to obtain whole-brain perfusion. Additionally, we discuss our decision to proceed with the newly acquired pseudo-continuous ASL (pCASL); a novel ASL technique that benefits from maximal signal-to-noise (SNR) across a whole-brain volume. In Chapter 4 we implement the pCASL FMRI approach to image the neural correlates of ongoing experimental pain. Results from the investigation of parametrically modulated ongoing mechanical pain show robust pain-related activation of key pain related regions that are monotonically active with an increase in stimulus intensity. Additionally, data from this experiment shows the presence of complex perfusion dynamics relative to pain worthy of further study. In Chapter 5, we optimised the pCASL sequence to obtain absolute perfusion changes across the whole-brain volume, using multi-inversion times, so that we could investigate the perfusion dynamics observed in Chapter 4. Results show that absolute perfusion changes during tonic pain are considerably less than for regions recruited during a non- pain task. Additionally, dynamic perfusion changes show complex stimulus responses across all active regions regardless of stimulus type. We conclude that while the technique is well suited to quantify absolute perfusion, the mechanisms underlying the dynamic changes in CBF (neuronal signal, neurovascular coupling) need further study. Finally, in Chapter 6, we implement the absolute perfusion approach developed in Chaper 5 to interrogate the neural correlates of the genetic pain disease, Erythromelalgia, and pleasurable relief. The results of this study show pain-related activation (and relief-induced reduction) of key pain-related regions. We conclude from these results that the ASL technique developed over the course of this thesis can be used to study a range of pain pathologies. Taken together, the results of this thesis document the development of a powerful perfusion imaging technique capable of quantifying absolute perfusion changes across a whole-brain volume. The data presented here from investigations of both experimental and pathological pain states supports the use of this technique in future tonic pain studies, as well as other neuroscience applications. We are confident that implementation of this imaging approach will provide integral insight into the mechanisms of ongoing pain states; and further the development of novel efficacious pain treatment options.

616.0472

Bases cérébrales de la perception auditive simple et complexe dans l’autisme

Samson, Fabienne

11 1900

La perception est décrite comme l’ensemble des processus permettant au cerveau de recueillir et de traiter l’information sensorielle. Un traitement perceptif atypique se retrouve souvent associé au phénotype autistique habituellement décrit en termes de déficits des habilités sociales et de communication ainsi que par des comportements stéréotypés et intérêts restreints. Les particularités perceptives des autistes se manifestent à différents niveaux de traitement de l’information; les autistes obtiennent des performances supérieures à celles des non autistes pour discriminer des stimuli simples, comme des sons purs, ou encore pour des tâches de plus haut niveau comme la détection de formes enchevêtrées dans une figure complexe. Spécifiquement pour le traitement perceptif de bas niveau, on rapporte une dissociation de performance en vision. En effet, les autistes obtiennent des performances supérieures pour discriminer les stimuli définis par la luminance et inférieures pour les stimuli définis par la texture en comparaison à des non autistes. Ce pattern dichotomique a mené à l’élaboration d’une hypothèse suggérant que l’étendue (ou complexité) du réseau de régions corticales impliquées dans le traitement des stimuli pourrait sous-tendre ces différences comportementales. En effet, les autistes obtiennent des performances supérieures pour traiter les stimuli visuels entièrement décodés au niveau d’une seule région corticale (simples) et inférieures pour les stimuli dont l’analyse requiert l’implication de plusieurs régions corticales (complexes). Un traitement perceptif atypique représente une caractéristique générale associée au phénotype autistique, avec de particularités rapportées tant dans la modalité visuelle qu’auditive. Étant donné les parallèles entre ces deux modalités sensorielles, cette thèse vise à vérifier si l’hypothèse proposée pour expliquer certaines particularités du traitement de l’information visuelle peut possiblement aussi caractériser le traitement de l’information auditive dans l’autisme. Le premier article (Chapitre 2) expose le niveau de performance des autistes, parfois supérieur, parfois inférieur à celui des non autistes lors du traitement de l’information auditive et suggère que la complexité du matériel auditif à traiter pourrait être en lien avec certaines des différences observées. Le deuxième article (Chapitre 3) présente une méta-analyse quantitative investiguant la représentation au niveau cortical de la complexité acoustique chez les non autistes. Ce travail confirme l’organisation fonctionnelle hiérarchique du cortex auditif et permet d’identifier, comme en vision, des stimuli auditifs pouvant être définis comme simples et complexes selon l’étendue du réseau de régions corticales requises pour les traiter. Le troisième article (Chapitre 4) vérifie l’extension des prédictions de l’hypothèse proposée en vision au traitement de l’information auditive. Spécifiquement, ce projet compare les activations cérébrales sous-tendant le traitement des sons simples et complexes chez des autistes et des non autistes. Tel qu’attendu, les autistes montrent un patron d’activité atypique en réponse aux stimuli complexes, c’est-à-dire ceux dont le traitement nécessitent l’implication de plusieurs régions corticales. En bref, l’ensemble des résultats suggèrent que les prédictions de l’hypothèse formulée en vision peuvent aussi s’appliquer en audition et possiblement expliquer certaines particularités du traitement de l’information auditive dans l’autisme. Ce travail met en lumière des différences fondamentales du traitement perceptif contribuant à une meilleure compréhension des mécanismes d’acquisition de l’information dans cette population. / Perception involves the processes allowing the brain to extract and understand sensory information. Atypical perceptual processing has been associated with the autistic phenotype usually described in terms of impairments in social and communication abilities, as well as restricted interests and repetitive behaviours. Perceptual atypicalities are reported across a range of tasks. For instance, superior performance in autistics compared to non autistics is observed for pure tone discrimination as well as for complex figure disembodying tasks. One particular study reported atypical low-level visual processing in autism. In this experiment, autistics displayed enhanced performance for identifying the orientation of luminance-defined gratings and inferior performance for texture-defined gratings in comparison to non autistics. This dichotomous pattern led to the formulation of a hypothesis suggesting an inverse relation between the level of performance and the extent (or complexity) of the cortical network required for processing the stimuli. Specifically, autistics would perform better than non autistics during processing visual stimuli involving one cortical region (luminance-defined or simple stimuli), while they would show decreased performance for processing stimuli involving a network of cortical region (texture-defined or complex stimuli). Atypical perceptual processing is described as a general feature associated with the autistic phenotype and is reported for both the visual and the auditory modalities. Considering the existing parallels between the two sensory modalities, the principal purpose of the presented doctoral dissertation it to verify whether the hypothesis proposed to explain atypical visual processing in autism could also apply to audition. The first article (Chapter 2) is an exhaustive literature review of studies on autistics’ auditory processing abilities. Taken together, the results suggest that the level of performance of autistics on auditory tasks could be related to the acoustic complexity of the stimuli. The second article (Chapter 3) uses quantitative meta-analysis to investigate how auditory complexity is represented at the cortical level in non autistics. This study confirms the hierarchical functional organization of the auditory cortex and allows defining simple and complex auditory stimuli based on the extent of the cortical network involved in their processing, as it was done in vision. The third article (Chapter 4) verifies if the predictions of the hypothesis proposed in vision could also apply in audition. Specifically, this study examines the cortical auditory response to simple and complex sounds in autistics and non autistics. As expected, autistics display atypical cortical activity in response to complex auditory material that is stimuli involving a network of multiple cortical regions to be processed. In sum, the studies in this dissertation indicate that the predictions of the hypothesis proposed in vision could extend to audition and possibly explain some of the atypical behaviours related to auditory processing in autism. This thesis demonstrates fundamentally different auditory cortical processing in autistics that could help define a general model of perceptual differences in autism which could represent a key factor in the understanding of information acquisition.

Audition

Complexité

Autisme

Auditory

Complexity

Autism

Functional magnetic resonance imaging

Études des marqueurs physiologiques de la mémoire visuelle à court terme : électrophysiologie, magnétoencéphalographie et imagerie par résonance magnétique fonctionnelle

Robitaille, Nicolas

January 2009

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.

Mémoire visuelle à court terme

Visual short-term memory

Électrophysiologie

Electrophysiology

Magnétoencéphalographie

Magnetoencephalography

Functional magnetic resonance imaging

Caractérisation du substrat neurologique impliqué dans le traitement de stimuli visuels dynamiques émotionnels : étude d'imagerie par résonance magnétique fonctionnelle

Karama, Sherif

08 1900

Malgré l’engouement pour les neurosciences cognitives des émotions et les nombreuses publications des dernières décennies tentant d’élucider les bases neurobiologiques des émotions, nos connaissances sur le domaine restent embryonnaires. Plusieurs questions importantes restent toujours sans réponses incluant s’il existe ou non un système unique pour le traitement de stimuli émotionnels et s’il y a ou non des différences entre les hommes et les femmes pour le traitement de stimuli émotionnels. L’objectif de cette thèse est d’apporter certains éléments de réponses à ces questions à travers une caractérisation du substrat neurobiologique impliqué dans le traitement de stimuli émotionnels visuels et dynamiques. Ce travail a été mené via l’imagerie par résonance magnétique fonctionnelle (IRMf) cérébrale. Le premier chapitre, subdivisé en quatre sections, permet de présenter la perspective dans laquelle s’inscrit la thèse. La première section de ce chapitre sert à établir certaines balises définitionnelles liées aux émotions. La seconde section, basée sur une lecture des textes originaux, retrace les faits historiques saillants de la neurobiologie des émotions allant de Charles Darwin à Joseph Ledoux. La troisième section débute où la seconde s’arrête et continue l’histoire de la neurobiologie des émotions à travers un résumé de toutes les principales méta-analyses d’imagerie fonctionnelle cérébrale des émotions. La dernière section du chapitre permet de présenter la problématique de recherche. La recherche, à proprement parler, qui constitue le corps de la thèse est ensuite présentée sous forme de trois articles. Enfin, les résultats de cette recherche et la manière dont ils s’inscrivent dans la continuité de nos connaissances actuelles font l’objet d’une discussion générale. Le premier article (chapitre II) rapporte, chez les hommes et les femmes, les régions du cerveau qui sont plus activées lors du traitement de films érotiques que lors du traitement de films dits ‘neutres’. Un chevauchement manifeste est observé entre les hommes et les femmes. Par contre, une activation significativement plus grande est observée chez les hommes pour l’hypothalamus, une région importante pour le comportement sexuel à travers la phylogénie. De plus, chez les hommes seulement, l’activation hypothalamique est corrélée à l’excitation sexuelle subjective. Comme la recherche présentée dans le premier article se sert de conditions expérimentales relativement longues pour l’IRMf (i.e. extraits de films de 3 minutes) et que ceci peut induire une nette diminution de signal en lien avec certaines contraintes de l’IRMf, le second article (chapitre III) examine les corrélats du traitement de stimuli sexuels en utilisant, cette fois, un paradigme d’IRMf classique où plusieurs extraits de films de 33 secondes sont présentés à la place. Cette étude démontre que, pour le traitement de stimuli sexuels, ce paradigme classique d’IRMf est beaucoup plus sensible que celui du premier article. De plus, comme ce paradigme mène à une reproduction des résultats du premier papier, ce travail soutient la perspective selon laquelle les paradigmes à époques courtes sont une alternative valide aux longues époques comme méthode d’étude du traitement de stimuli émotionnels. Le troisième article (chapitre IV) capitalise sur le protocole du second article et démontre que les patrons d’activation associés au visionnement de courts extraits de films induisant du dégoût, de l’amusement, ou de l’excitation sexuelle, sont très étendus. Une analyse de conjonction formelle démontre un large chevauchent de ces patrons à travers les différents affects étudiés. Enfin, le cinquième chapitre sert de discussion générale. Les questions des différences entre les hommes et les femmes dans le traitement des émotions, de l’existence ou non d’un système général pour le traitement des émotions, ainsi que de la manière dont un tel système pourrait être conçu, sont des points saillants de la discussion. Ces points sont abordés à la lumières des connaissances actuelles et des résultats des trois articles. / Despite the intense interest garnered by cognitive neurosciences of emotions and the numerous publications in recent decades attempting to partial the neurobiological basis of emotions, our knowledge of the area remains embryonic. Important questions that need to be answered include whether or not there exists a general system for processing emotional stimuli and whether or not there are differences between men and women in processing emotional stimuli. The main objective of this dissertation is to provide some answers to these questions by characterizing the neurobiological substrate involved in processing dynamic visual emotional stimuli. This work was conducted through cerebral functional magnetic resonance imaging (fMRI). The first chapter, which is divided into four sections, lays the groundwork for the thesis. The first section of this chapter serves to clarify some definitional background related to emotions. The second section, based on a reading of the original texts, traces the salient historical facts of the neurobiology of emotions from Charles Darwin to Joseph Ledoux. The third section begins where the second ends and continues the history of the neurobiology of emotions through a summary of all the main functional brain imaging meta-analyzes of emotions. The final section of the chapter introduces the research problematic. The research itself, which constitutes the body of the dissertation, is then presented in the form of three articles. Finally, results of this research and how they fit into the continuity of our current knowledge form the basis of a general discussion. The first paper (Chapter II) reports, in men and women, the brain regions that are more activated during the processing of erotic film excerpts than during the processing of so-called 'neutral' film excerpts. A clear overlap is observed between men and women. This being said, a significantly greater activation is observed in men for the hypothalamus, a region important for sexual behavior across the phylogeny. In addition, in men only, hypothalamic activation is correlated with reported sexual arousal. As the research presented in the first paper uses relatively long experimental conditions for fMRI (i.e. 3-minute film excerpts) and as this can lead to a net signal decrease due to certain fMRI constraints, the second paper (Chapter III) examines correlates of processing sexual stimuli using, this time, a classic fMRI paradigm where several short film clips of 33 seconds are used instead. This study shows that, for the processing of sexual stimuli, this conventional fMRI paradigm is much more sensitive than the one used in the first paper. Importantly, given that this paradigm leads to a reproduction of results of the first paper, this work supports the view that short epochs are a valid alternative to long epochs as a method of studying the processing of emotional stimuli. The third section (Chapter IV) capitalizes on the protocol of the second paper and demonstrates that the activation patterns associated with the viewing of short film excerpts inducing disgust, amusement, or sexual arousal, are extensive. A formal conjunction analysis shows a broad overlap of these patterns across the various affects studied. Finally, the fifth chapter provides a general discussion of the results. The question of gender differences in processing emotional stimuli, of whether or not a general system for processing emotions exists, and of how it may be understood, represent important elements of the discussion. These points are discussed in light of current knowledge and of the results of the three papers.

émotion

affect

amusement

dégoût

excitation sexuelle

emotion

affect

amusement

disgust

sexual arousal

functional magnetic resonance imaging

Représentation cérébrale des récompenses selon leur nature : une approche par neuroimagerie fonctionnelle chez le sujet sain et le joueur pathologique / Cerebral representation of reward according to reward type : a functional neuroimaging investigation in healthy subjects and pathological gamblers

Sescousse, Guillaume

02 February 2011

Les récompenses possèdent plusieurs fonctions importantes, liées au plaisir, à la motivation et à l’apprentissage, qui façonnent notre comportement au quotidien. Il est aujourd’hui bien établi que ces fonctions sont prises en charge par un ensemble de régions cérébrales appelé « système de récompense », dont la perturbation peut générer des comportements inadaptés tels que l’addiction. Néanmoins, toutes les récompenses ne sont pas équivalentes, et il n’y a pas lieu de penser que le cerveau répond de façon identique à chacune d’entre elles. Nous avons testé cette hypothèse à l’aide de l’Imagerie par Résonance Magnétique fonctionnelle (IRMf), en adoptant trois angles d’approche différents. Une première expérience s’est concentrée sur la distinction entre récompenses primaires (i.e. ancestrales et concrètes) et secondaires (i.e. évoluées et abstraites), étudiée ici à travers l’exemple des images érotiques et de l’argent. En plus d’un réseau cérébral activé en commun par ces récompenses, nos résultats ont montré une dissociation au sein du cortex orbitofrontal (OFC), recruté spécifiquement dans sa partie postérieure par les récompenses primaires, et spécifiquement dans sa partie antérieure par les récompenses secondaires. Ce résultat soutient l’idée générale d’un gradient de complexité croissante le long de l’axe postéro-antérieur de l’OFC. Dans la deuxième étude, nous avons comparé, au moyen d’une approche méta-analytique quantitative, les activités cérébrales rapportées dans la littérature en réponse à des gains monétaires, des goûts plaisants et des stimuli érotiques visuels. Les résultats obtenus étayent les conclusions de la première étude, et confirment parallèlement l’existence de réponses cérébrales spécifiques à chaque type de récompense. Enfin, dans la troisième étude, nous nous sommes intéressés au jeu pathologique, en formulant l’hypothèse d’un déséquilibre de la sensibilité aux récompenses monétaires versus non-monétaires. Les résultats obtenus confortent cette prédiction, en suggérant principalement une perturbation du traitement des récompenses non-monétaires dans le striatum ventral des joueurs. Dans l’ensemble, ces résultats apportent un éclairage nouveau sur l’architecture fonctionnelle du système de récompense, à la fois chez des individus sains et des individus joueurs pathologiques / Rewards serve several important behavioural functions related to motivation, pleasure and learning. At the cerebral level, reward processing is thought to rely on a well-defined set of brain regions known as the “reward system”, whose disruption has been linked to maladaptive behaviours such as addiction. However, a wide variety of rewards exists, and there is no reason to think that the brain responds equivalently to all of them. In order to test this assumption, we used functional Magnetic Resonance Imaging (fMRI), with three different perspectives. In a first experiment, we investigated the distinction existing between so-called primary (i.e. primitive and concrete) rewards and secondary (i.e. evolved and abstract) rewards, studied here through the examples of erotic pictures and monetary gains. In addition to a common brain network recruited regardless of reward type, our results revealed a functional dissociation within the orbitofrontal cortex (OFC), whose posterior part responded specifically to primary rewards, while its anterior part responded specifically to secondary rewards. Interestingly, this finding supports the idea of a complexity gradient along the postero-anterior axis of the OFC. In a second study, we used a quantitative meta-analytic approach to compare the brain activations reported in the literature in response to monetary gains, pleasant tastes and erotic pictures. The results are in line with the conclusions drawn from the first experiment, and confirm the existence of reward-type-specific responses in the brain. Finally, we conducted a third study focusing on pathological gambling, and aiming to test the hypothesis of an imbalance in the sensitivity to monetary versus non-monetary rewards. The results bring evidence supporting this view, and essentially demonstrate an impaired processing of non-monetary rewards in the ventral striatum of gamblers. Overall, this work sheds new light on the functional architecture of the reward system, both in healthy subjects and pathological gamblers

Récompense

Cerveau

Addiction

Jeu pathologique

Reward

Brain

Addiction

Pathological gambling

573.8

Modelling human decision under risk and uncertainty

Hunt, Laurence T.

January 2011

Humans are unique in their ability to flexibly and rapidly adapt their behaviour and select courses of action that lead to future reward. Several ‘component processes’ must be implemented by the human brain in order to facilitate this behaviour. This thesis examines two such components; (i) the neural substrates supporting action selection during value- guided choice using magnetoencephalography (MEG), and (ii) learning the value of environmental stimuli and other people’s actions using functional magnetic resonance imaging (fMRI). In both situations, it is helpful to formally model the underlying component process, as this generates predictions of trial-to-trial variability in the signal from a brain region involved in its implementation. In the case of value-guided action selection, a biophysically realistic implementation of a drift diffusion model is used. Using this model, it is predicted that there are specific times and frequency bands at which correlates of value are seen. Firstly, there are correlates of the overall value of the two presented options, and secondly the difference in value between the options. Both correlates should be observed in the local field potential, which is closely related to the signal measured using MEG. Importantly, the content of these predictions is quite distinct from the function of the model circuit, which is to transform inputs relating to the value of each option into a categorical decision. In the case of social learning, the same reinforcement learning model is used to track both the value of two stimuli that the subject can choose between, and the advice of a confederate who is playing alongside them. As the confederate advice is actually delivered by a computer, it is possible to keep prediction error and learning rate terms for stimuli and advice orthogonal to one another, and so look for neural correlates of both social and non-social learning in the same fMRI data. Correlates of intentional inference are found in a network of brain regions previously implicated in social cognition, notably the dorsomedial prefrontal cortex, the right temporoparietal junction, and the anterior cingulate gyrus.

153.83

Efeito do nitroprussiato de sódio em voluntários saudáveis e pacientes portadores de esquizofrenia: um estudo de ressonância magnética funcional / Effect of sodium nitroprusside in healthy volunteers and patients with schizophrenia: a functional magnetic resonance imaging study

Garcia, Giovana Jorge

29 April 2016

Apesar dos numerosos estudos enfocando a compreensão da esquizofrenia, sua etiologia permanece desconhecida. Atualmente, as medicações antipsicóticas disponíveis são baseadas principalmente na hipótese dopaminérgica, porém, apresentam eficácia parcial no tratamento dos sintomas. Diante disso, outros sistemas neurais têm sido investigados e, nesse contexto, a hipótese glutamatérgica conquistou grande importância. Essa hipótese postula a presença de uma hipoatividade do receptor glutamatérgico N-metil-D-aspartato na esquizofrenia e, consequentemente, de uma desregulação na neurotransmissão do óxido nítrico. Um ensaio clínico recente com a administração de nitroprussiato de sódio, um doador de óxido nítrico, mostrou resultados significativos na melhora da sintomatologia de pacientes esquizofrênicos, entretanto, nenhum estudo de neuroimagem investigou quais são os efeitos dessa droga no sistema nervoso central. No crescente campo de estudo da neuroimagem funcional as redes neurais foram descobertas, sendo a default mode network uma das mais estudadas na esquizofrenia. Os recentes estudos de neuroimagem funcional têm evidenciado alterações do funcionamento dessa rede neural nos pacientes portadores da doença, evidenciando assim, a importância da default mode network na compreensão da esquizofrenia. Nesse caminho, o presente estudo investigou os efeitos agudos da administração de nitroprussiato de sódio na conectividade funcional da rede default mode network através da ressonância magnética funcional mediada pelo contraste BOLD (blood oxygen level dependent) em pacientes portadores de esquizofrenia e em voluntários saudáveis. Os pacientes portadores de esquizofrenia foram divididos em dois grupos de acordo com a medicação antipsicótica em uso: grupo sem clozapina (n=13) e grupo com clozapina (n=13). Os voluntários saudáveis também foram divididos em grupo controle (n=14) e grupo controle com tarefa de escuta passiva (n=5). Todos os pacientes portadores de esquizofrenia e o grupo controle foram submetidos a um protocolo de infusão de nitroprussiato de sódio com aquisição simultânea de imagens funcionais. Nossos resultados mostraram um aumento da conectividade funcional da default mode network com a infusão da medicação nos pacientes portadores de esquizofrenia, especialmente no hemisfério direito, enquanto esse mesmo padrão não foi encontrado nos controles saudáveis. Além disso, o aumento na conectividade se mostrou distinto entres os grupos de pacientes avaliados, sendo mais precoce e amplo no grupo de pacientes que não estava em uso do antipsicótico clozapina. Observamos também que o efeito modulatório da droga ocorreu sobre regiões da default mode network já estudadas e fortemente implicadas na fisiopatogenia da esquizofrenia. Assim, nossa investigação neurofuncional contribuiu para a compreensão dos efeitos terapêuticos do nitroprussiato de sódio na sintomatologia de pacientes portadores de esquizofrenia. Nossos achados também reforçam a importância do nitroprussiato de sódio como uma nova ferramenta farmacológica adjuvante no tratamento da esquizofrenia / Despite numerous studies focusing on the understanding of schizophrenia, its etiology remains unknown. Currently, available antipsychotic medications are mainly based on dopamine hypothesis, however, they exhibit partial efficacy in the treatment of the symptoms. Therefore, other neural systems have been investigated and, in this context, the glutamatergic hypothesis gained great importance. This hypothesis postulates the presence of a hypoactivity of the N-methyl-D-aspartate glutamate receptor in schizophrenia and, consequently, a deregulation of nitric oxide neurotransmission. A recent clinical trial with the administration of sodium nitroprusside, a nitric oxide donor, showed significant results in improving the symptoms of schizophrenic patients, however, no neuroimaging study investigated what are the effects of this drug on the central nervous system. The neural networks were discovered from the growing field of functional neuroimaging study and the default mode network is one of the most studied in schizophrenia. The recent functional neuroimaging studies have shown alterations in the functioning of this neural network in patients with the disease, highlighting the importance of the default mode network in the understanding of schizophrenia. In this way, the present study investigated the acute effects of sodium nitroprusside administration in the functional connectivity of the default mode network using blood oxygen level dependent (BOLD) functional magnetic resonance imaging in patients with schizophrenia and healthy volunteers. Schizophrenic patients are divided into two groups according to antipsychotic medication used: group treated without clozapine (n = 13) and group treated with clozapine (n = 13). Healthy volunteers were also divided into control group (n = 14) and control group with passive listening task (n = 5). All schizophrenic patients and healthy volunteers were subjected to a sodium nitroprusside infusion protocol simultaneously to acquisition of functional images. Our results showed increased default mode network functional connectivity with the drug infusion in patients with schizophrenia, mainly in the right hemisphere, while this same pattern was not found in healthy controls. In addition, the increase in connectivity was distinct between groups of patients because it was earlier and more extensive in the group of patients that was not in use of clozapine antipsychotic. We also note that the drug modulatory effect occurred on default mode network regions already studied and strongly implicated in the schizophrenia pathogenesis. Thus, our neurofunctional research contributed to the understanding of the sodium nitroprusside therapeutic effects on the schizophrenia symptoms. Our findings also underline the importance of sodium nitroprusside as a new adjuvant pharmacological tool in the treatment of schizophrenia

default mode network

default mode network

esquizofrenia

functional magnetic resonance imaging

nitric oxide

nitroprussiato de sódio

óxido nítrico

ressonância magnética funcional

schizophrenia

sodium nitroprusside

Avaliação dos efeitos do envelhecimento na hemodinâmica cerebral por imagens de ressonância magnética / Evaluation of aging effects on cerebral hemodynamics by magnetic resonance imaging

Silva, João Paulo Santos

13 April 2018

O processo de envelhecimento é acompanhado por um declínio nas funções cognitivas, principalmente, de funções fluidas ou de processamento. Essas diminuições são pelo menos, em parte, devido a alterações estruturais e funcionais do sistema nervoso central. Uma abordagem para estudar as mudanças funcionais é a medição da utilização metabólica regional da glicose, ou, alternativamente, um parâmetro físico correlacionado ao metabolismo cerebral e à atividade funcional local, como o fluxo sanguíneo cerebral (CBF). Neste contexto, em Imagens por Ressonância Magnética (IRM), a técnica de Marcação dos Spins Arteriais (ASL) surge como uma importante ferramenta não invasiva para análises perfusionais. Seu uso não só permite avaliar a perfusão sanguínea cerebral, gerando mapas quantitativos de CBF, mas também fornecer uma alternativa para estudar a conectividade funcional (FC), um parâmetro importante para descrição da topologia e funcionalidade cerebral. Sessenta e três indivíduos saudáveis, na faixa etária entre dezoito à setenta e dois anos, foram recrutados para participar deste estudo. Análises estatísticas mostram uma diminuição de CBF em várias regiões cerebrais, especialmente nos lobos frontal e temporal, que acompanham o processo de envelhecimento. As medidas de FC foram obtidas em análises por regiões de interesse e teoria de grafos; estas também demostraram uma diminuição, com o avanço da idade, em regiões presentes nos lobos frontal e temporal, mas também relataram um maior número de regiões prejudicadas no lobo parietal. Portanto, usando uma técnica de imagem não invasiva, foi possível observar déficits de CBF além de alterações de aspectos da organização funcional, oferecendo valores quantitativos que podem ajudar na melhor descrição dos efeitos do envelhecimento na hemodinâmica cerebral. / Aging process is accompanied by a decline in cognitive functions foremost comprise fluid or processing-based functions. These decreases are at least partly due to structural and functional deteriorating changes of the central nervous system. One approach to study these functional changes is the measurement of the regional metabolic utilization of glucose, or, alternatively, a physical quantity correlated to cerebral metabolism and local functional activity, such as the cerebral blood flow (CBF). In this context, Arterial spin labeling (ASL) emerges as a noninvasive Magnetic Resonance Imaging (MRI) perfusion technique. Its use not only allows assessing cerebral perfusion, by generating CBF values, but also can provide an alternative to study functional connectivity (FC), which is an important parameter that describes the brain topology and functionality. Sixty-three healthy subjects, from age eighteen to seventy-two years, were recruited to participate in this study. ASL-CBF maps showed a decrease in several brain regions, especially in frontal and temporal lobes that follows aging process. FC measures were assessed with regions of interest (ROI-to-ROI) and graph theory analysis, also showing a decrease in regions present in frontal and temporal lobes, and also more impaired regions in the parietal lobe. Therefore, using a noninvasive imaging technique it was possible to observe CBF deficits besides alteration in aspects on functional organization, offering quantitative values that can help to describe better the aging effects on cerebral hemodynamics.

Conectividade funcional

Systemphysiologische Untersuchungen zur Bedeutung des frontalen und parietalen Kortex für visuelle Leistungen beim Menschen

Brandt, Stephan A.

04 December 2001

Es wird eine Reihe systemphysiologischer Untersuchungen zusammengefasst, die sich mit höheren visuellen Funktionen beim Menschen befassen. Mit Hilfe von Augenbewegungsmessungen, Kortexstimulation und funktioneller Kernspintomographie werden die kortikalen Strukturen und physiologischen Mechanismen untersucht, die sich mit der kortikalen Integration von visuellen, mnestischen, attentionalen und motorischen Verarbeitungsprozessen befassen. Im den folgenden Abschnitten werden die wichtigsten Ergebnisse zusammengefasst: 1. Es konnte erstmals gezeigt werden, dass Augenbewegungen während der visuellen Vorstellung explorierenden Augenbewegungen bei der Wahrnehmung entsprechen. Dies entspricht der Voraussage, dass Augenbewegungen bei visueller Vorstellung Ausdruck eines konstruktiven Prozesses der aufmerksamkeitsgesteuerten sensomotorischen Integration von Teilbildern und deren Position im Raum sind. Es wurde vorgeschlagen, dass die visuelle Vorstellung als ein konstruktiver Prozess zu verstehen sei, der unter Beteiligung des Dorsolateralen Präfrontalen Kortex (DLPFC) (Arbeitsgedächtnis) und parietaler (Raumwahrnehmung) und temporaler visueller Areale (Objektwahrnehmung) einzelne Teilbilder zu einem Vorstellungsbild zusammensetzt. 2. In weiteren Studien wurden zeitliche, strukturelle und behaviorale Aspekte des visuellen Arbeitsgedächtnisses untersucht. Es konnte gezeigt werden, dass das visuelle Arbeitsgedächtnis beim Menschen durch ein Netzwerk kortikaler Areale kontrolliert wird, das unter anderem den Posterior Parietalen Cortex (PPC) und den DLPFC umfasst. Erstmals wurde die selektive Störbarkeit dieser Areale durch transkranielle Kortexstimulation demonstriert und gezeigt, dass die Areale verschiedene kognitive Partialfunktionen wahrnehmen, die zu bestimmten Zeitpunkten des Gesamtprozesses wichtig sind. In weiteren Verhaltensexperimente wurde festgestellt, dass das visuelle Arbeitsgedächtnis selektiv die Wahrnehmungsinhalte repräsentiert, die für aktuelle Entscheidungen relevant sind. 3. Funktionell-kernspintomographische Untersuchungen hatten zum Ziel, die anatomischen Strukturen zu identifizieren, die bei bestimmten Formen der selektiven visuellen Aufmerksamkeit relevant sind. Es wurde die Rolle des Frontalen Augenfeldes (FEF) und des PPC in Paradigmen untersucht, in denen Augenbewegungen durch Fixation unterdrückt waren. Es konnte erstmals gezeigt werden, dass das FEF bei der visuellen Selektion im Rahmen einer Suchaufgabe mit Merkmalsverknüpfung aktiviert wird und nicht nur für die Kontrolle von Augenbewegungen, sondern auch für Prozesse der Aufmerksamkeitssteuerung verantwortlich ist. Im PPC konnten auf Grund differentieller Aktivierungsniveaus funktionelle Subregionen identifiziert werden und gezeigt werden das der PPC entgegen gängiger kognitionspsychologischen Modellvorstellungen eine aktive Rolle bei der visuellen Suche mit Merkmalsverknüpfung spielt. 4. Im letzten Teil der Arbeit wird der Versuch geschildert, visuelle Kortexareale als Teil eines okzipito-parieto-frontalen Netzwerkverbundes bildgebend darzustellen. Mit artifizieller Reizung des visuellen Kortex durch transkranielle Kortexstimulation und gleichzeitiger fMRT, gelang es neben einer lokalen BOLD-Antwort auch Ferneffekte in visuellen und visuo-motorischen Arealen zu induzieren. Die beteiligten anatomischen Strukturen entsprechen jenen, für die auf Grund von tierexperimentellen Untersuchungen funktionell relevante Verbindungen unterstellt werden. Dies ist ein weitere Schritt, um beim Menschen mit nicht-invasiven Methoden zerebrale Konnektivität untersuchen zu können. Die Erforschung von Struktur- und Funktionsbeziehungen höherer Leistungen des Sehsystems haben eine klinische Relevanz für die topische Diagnostik und Rehabilitation umschriebener Hirnläsionen. Dabei reicht es nicht einzelne Hirnfunktionen bestimmten Arealen zuzuordnen, sondern Hirnfunktionen als konzertierte Aktion verbundener Areale zu begreifen. / The general aim of this collection of published papers was to identify the neuroanatomical basis and functional mechanisms realizing the integration of sensory, attentional, mnestic and motor components during different visuo-motor response tasks (visual imagery, visual-working memory, attentive tracking, visual search) and to interpret the results in the context of cerebral connectivity. The main findings are: 1. Scanpaths, defined as repetitive sequences of fixations and saccades were found during visual imagery and viewing. Positions of fixations were distributed according to the spatial arrangement of subfeatures in the diagrams. For a particular imagined diagrammatic picture, eye movements were closely correlated with the eye movements recorded while viewing the same picture. Thus eye movements during imagery are not random but reflect the content of the visualized scene. 2. Investigating the role of the dorsolateral prefrontal cortex (DLPFC) and the posterior parietal cortex (PPC) in memory-guided saccades in humans, it was found that repetitive transcranial magnetic stimulation (rTMS) (20 Hz, 0.5 s) interferes temporarily with cortical activity in DLPFC and PPC during different intervals of the delay period. It was concluded that within this network the DLPFC is mainly concerned with the mnemonic representation and the PPC with the sensory representation of spatially defined perceptual information. 3. Comparison of functional magnetic resonance imaging data (fMRI) between attentive tracking and attention shifting revealed essentially identical activation patterns involving parietal, temporal and frontal cortical regions. This suggests that parietal cortex is involved not only in discrete shifts of attention between objects at different spatial locations, but also in continuous "attentional pursuit" of moving objects. Taken together, these data suggest that attentive tracking is mediated by a network of areas which includes (a) parietal and frontal regions responsible for attention shifts and eye movements and (b) the MT complex, thought to be responsible for motion perception. 4. Using fMRI in human subjects to investigate the functional neuroanatomy of attentional mechanisms employed during conjunction search it was found that the frontal eye field, the ventral precentral sulcus and several posterior parietal regions were consistently activated. Results suggested an involvement of the human frontal eye field in covert visual selection of potential targets during search and also provided evidence for a subdivision of posterior parietal cortex in multiple areas participating in covert visual selection, with a major contribution of the posterior intraparietal sulcus. 5. Using fMRI to investigate local and distant cerebral activation induced by transcranial electrical stimulation in order to non-invasively map functional connectivity in the human visual system distant coactivation in subcortical (lateral geniculate nucleus), cortical visual (striate and extrastriate) and visuomotor areas (frontal and supplementary eye fields) were found. This pattern of activation resembled a network of presumably interconnected visual and visuomotor areas. We conclude that combining transcranial electrical stimulation of neural tissue with simultaneous fMRI offers the possibility to study non-invasively cerebral connectivity in the human brain. In general the results support the concept of a highly integrated cortico-cortical network of multiple frontal and parietal areas controlling partially overlapping subtask involved in directed attention, visuo-spatial working memory, eye movements and visual feature detection.

Visuelles System

Aufmerksamkeit

funktionelle Kernspintomographie

transkranielle Kortexstimulation

functional magnetic resonance imaging

visual system

attention

transcranial cortex stimulation

610 Medizin

33 Medizin

YG 1700

ddc:610

Efeitos do treinamento físico e ingestão de vinho tinto na função cognitiva de indivíduos sem declínio cognitivo / Effects of physical training and red wine consumption on cognitive function in individuals without cognitive decline

Nishiyama, Marcelo

19 February 2019

Introdução: Embora vinho tinto (VT) e exercício (Ex) sejam potenciais protetores cardiovasculares, um possível efeito aditivo de ambos não é conhecido. Neste estudo investigamos se o Ex. Físico supervisionado poderia influenciar funções cognitivas (cognição) em homens bebedores habituais de VT em comparação a indivíduos abstêmios (ABS), ambos sem declínio cognitivo. Objetivos: além do acima também comparamos os efeitos do treinamento físico supervisionado no desempenho cardiovascular de bebedores de VT e abstêmios. Métodos: Foram incluídos homens, de 50 a 75 anos, sem déficit cognitivo, consumidores regulares de VT e abstêmios, randomizados em 4 grupos: ABS com e sem treinamento físico, consumidores de VT com e sem treinamento físico. Estudamos função executiva (Stroop) e memória operacional (2-Back) por Ressonância Magnética Funcional (RMf-3T), assim como a acurácia e tempo de resposta. Igualmente foram utilizados testes neuropsicológicos clássicos nas condições pré e pós Ex. Foi realizado Teste de Esforço Cardiopulmonar (TECP). Os voluntários foram treinados durante 3 meses, com três sessões semanais de uma hora de duração. Avaliação cognitiva foi feita por instrumentos padronizados de avaliação neuropsicológica. Resultados: 73 pacientes, sendo 47 ABS com média de idade 58,4±5,1(DP) anos e 50 VT com média de idade de 60.9±6,4anos (DP). O consumo médio de VT foi de 19.8±10.3 gramas de etanol/dia e o tempo de consumo médio de 26,1±15,7 anos. Na fase pré, os consumidores de VT têm melhor desempenho que os ABS tanto nos testes neuropsicológicos (Trilhas A, B, e Stroop 1) quanto nas imagens cerebrais (2-Back). No pós, os bebedores com treinamento físico mostraram: nos testes neuropsicológicos redução no tempo de execução (Stroop 2); na imagem por ressonância magnética funcional não houve modificações nas áreas ativadas, mas registrou-se tendência a melhora da acurácia (Stroop). Houve aumento significativo na média do consumo de oxigênio pico (VO2 pico) nos grupos que treinaram (VT 24.9±2.6 vs 27.1±3.5 e no grupo ABS foi 27.1±4.9 vs 29.7±4.1). Houve correlação negativa entre VO2 pico e a resposta cerebral nos ABS e bebedores VT (quanto menor o VO2 pico maior a resposta cerebral). Conclusão: Indivíduos consumidores regulares de VT tem melhor função cognitiva em testes de memória e atenção mesmo na fase pré-treinamento e respondem melhor ao exercício físico. Existe correlação negativa entre o VO2 pico e a ativação cerebral, o que pode indicar que melhor desempenho físico pode induzir maior eficiência mental. Estes dados são sugestivos, embora não afirmativos, de que existe efeito aditivo do Ex físico sobre funções cognitivas em bebedores crônicos, moderados de VT, sem déficit cognitivo. Dadas as limitações do estudo consideramos que o mesmo deva ser visto como gerador de futuras hipóteses que deverão ser melhor avaliadas em pesquisas subsequentes / Introduction: Although red wine (RW) and exercise (Ex) have potential protective cardiovascular effects, a possible additive effect of both is not known. In this study, we investigated whether the supervised Physical Ex could influence cognitive functions in habitual men, RW drinkers, in comparison to abstainers (ABS), both without cognitive dysfunction. Objectives: in addition to the above we also compared the effects of Ex on the cardiovascular performance of drinkers and nondrinkers. Methods: included were 73 men, 50 to 75 years, without cognitive deficit, regular RW consumers and abstainers, randomized into 4 groups: ABS with and without physical training, RW consumers with and without physical training. We studied executive function (Stroop) and working memory (2-back) through Functional Magnetic Resonance Imaging (fMRI) as well as accuracy and response time. Classical neuropsychological tests have also been performed pre and post Ex. Cardiopulmonary exercise Testing (TECP) was performed. The volunteers were trained during 3 months, with 3 weekly sessions of one hour duration. Cognitive assessment was performed by standardized instruments of neuropsychology assessment. Results: 73 men, 47 (ABS) with a mean age 58,4±5,1(SD) years and 50 RW drinkers with a mean age of 60.9±6,4 years (SD) were studied. The average RW consumption was 19.8±10.3 grams of ethanol/day, and the average time of consumption was 26.1±15,7 years. In the pre Ex the RW consumers had better performance than the ABS both on neuropsychological tests (Trails A, B, and Stroop 1) as well as in brain imaging (2-back). In the post Ex drinkers with physical training showed: in the neuropsychological tests reduction in execution time (Stroop color word test); at fMRI there were no changes in the activated areas, but a trend towards improvement of accuracy (Stroop) was noted. There was a significant increase in the peak VO2 (oxygen consumption) in the groups that trained (RW 24.9±2.6 vs 27.1±3.5 and in the group of ABS was 27.1±4.9 vs 29.7±4.1). There was a negative correlation between VO2 peak and the activated brain areas in the ABS and drinkers RW (the lower the VO2 peak the larger the response of the brain). Conclusion: Regular RW consumers had better cognitive function on tests of memory and attention even in the pre-Ex and responded better to physical exercise. There was a negative correlation between VO2 peak and the brain activation, which may indicate that better physical performance can induce greater mental efficiency. These data are suggestive, though not affirmative, that there is additive effect of physical Ex on cognitive functions in chronic, moderate RW drinkers, without cognitive deficit. Given protocol limitations, we think that the study should be considered as hypothesis generating that ought to be further evaluated in subsequent investigations

Cognição

Cognition

Consumo de oxigênio

Exercício

Exercise

Functional magnetic resonance imaging

Neuropsychological tests

Oxygen consumption

Testes neuropsicológicos

Vinho

Wine