Ativação cerebral associada à memória episódica verbal no transtorno obsessivo-compulsivo por meio de ressonância magnética funcional / Brain activation associated with verbal episodic memory in obsessivecompulsive disorder using magnetic resonance imaging

Batistuzzo, Marcelo Camargo

19 February 2014

O transtorno obsessivo-compulsivo (TOC) é um transtorno psiquiátrico que acomete cerca de 1 a 3,1% das pessoas ao longo da vida. Embora o seu modelo neurobiológico ainda não esteja completamente estabelecido, inúmeras evidências apontam para áreas relacionadas ao circuito córtico-estriado-pálido-talâmico-cortical (CEPTC). Em especial, o córtex órbito-frontal (COF) é uma região que desempenha um papel fundamental dentro da hipótese fisiopatológica do TOC. Paralelamente, esta região já foi associada, em sujeitos saudáveis, com a habilidade de utilização espontânea da estratégia de agrupamento semântico na memorização de palavras - o que facilita sua evocação posterior. Ao mesmo tempo, estudos neuropsicológicos evidenciaram que pacientes com TOC apresentam déficits na memória episódica verbal (MEV) e que tais déficits poderiam ser mediados por dificuldades em funções executivas ligadas ao planejamento, como utilização de estratégias. Portanto, para testar a hipótese de que há diferenças no correlato neural da codificação da MEV entre pacientes com TOC e controles saudáveis, foi utilizado um teste neuropsicológico adaptado para ressonância magnética funcional (RMf): o paradigma tinha apresentação em bloco. O objetivo do presente estudo foi investigar a etapa de codificação da MEV e a capacidade de agrupamento semântico espontâneo em crianças e adolescentes com TOC. Assim, o paradigma foi constituído por duas listas de palavras: uma, semanticamente relacionada (SR), na qual as palavras eram divididas em categorias semânticas e outra, não relacionada (NR), na qual não havia relação aparente entre as palavras. O contraste de maior interesse do estudo foi a diferença entre essas duas condições (SR > NR). O nível de agrupamento semântico foi quantificado por um índice semântico. Os grupos foram formados por 25 crianças e adolescentes com TOC e 25 controles saudáveis, pareados por sexo, idade, escolaridade, preferência manual e QI. Embora os grupos estivessem pareados por essas características, eles se diferiram em sintomas clínicos, tais como sintomas de depressão, ansiedade e necessidade de rotina por parte da criança/adolescente. Os resultados comportamentais do teste de MEV mostraram que os grupos não se diferenciaram: ambos evocaram a mesma quantidade de palavras e não apresentaram diferenças no índice semântico. Apesar disso, a comparação entre os grupos - controlada para variáveis clínicas - revelou menor ativação (sinal BOLD) nos pacientes em diversas regiões cerebrais: frontais, parietais e occipito-temporais. Por outro lado, a análise de interação psicofisiológica (PPI) revelou que os pacientes apresentaram um aumento da conectividade do COF com regiões temporais em relação aos controles. Isso ocorreu para três das quatro regiões de interesse que foram posicionadas no COF: lateral e medial de ambos os hemisférios. Além disso, o grupo de pacientes apresentou uma correlação positiva entre o índice semântico e o efeito BOLD no COF, o que não ocorreu para o grupo controle. Esses resultados indicam diferenças no funcionamento cerebral de crianças e adolescentes com TOC tanto em regiões que estão dentro do modelo neurobiológico proposto para o TOC (circuito CEPTC), como fora dele também. De acordo com os resultados do presente estudo, as diferenças de ativação e de conectividade poderiam ser consideradas como um déficit latente, uma vez que ambos os grupos apresentaram o mesmo desempenho no paradigma / The obsessive-compulsive disorder (OCD) is a psychiatric disorder that affects 1-3.1% of the general population (lifetime rate). Although its neurobiological model has not been completely establish, numerous evidences indicate that areas of the cortico-striatalpale- thalamic-cortical (CSPTC) circuit are engaged in the disease. In particular, the orbitofrontal cortex (OFC) is a region that plays a key role in the pathophysiological hypothesis of OCD. In parallel to this, in healthy controls this region has been associated with the ability of using spontaneous strategies of semantic clustering at the encoding of related words - in a way that facilitates the posterior retrieval of these words. At the same time, neuropsychological studies showed that OCD patients present verbal episodic memory (VEM) deficits, and that these deficits could be mediated by executive dysfunction - like planing and utilization of strategies. Thus, to investigate the hypothesis that there are differences at the neural correlates of VEM encoding between children and adolescents with OCD and healthy controls, we used a blocked design functional Magnetic Resonance Imaging (fMRI) paradigm to evaluate both groups. The main objective of the study was to investigate the VEM encoding and the ability to spontaneously organize words according to their semantic categories. In order to do this, the fMRI paradigm consisted of two kinds of word lists: a semantically related list (SR), in which words were divided into semantic categories and a unrelated list (UR), were there was no apparent relationship between the words. However, the contrast of most interest of this study, was the difference between the conditions (\'SR > UR\'). The semantic clustering level was quantified by a semantic clustering index. Groups were constituted by 25 children and adolescents with OCD and 25 healthy controls paired by gender, age, educational level, handedness and IQ. Although both groups were matched for these characteristics, they differed in clinical symptoms such as depression, anxiety and routines. Behavioral results showed that the groups were similar in terms of retrieved words and semantic index. Nevertheless, the comparison between groups - controlled for clinical variables - showed less activation (BOLD signal) in patients in several brain regions: frontal, parietal and occipito-temporal. On the other hand, the psychophysiological interaction analysis (PPI) revealed that patients have had an increase in the OFC connectivity with the temporal regions. This has occurred in three of the four regions of interest that were placed in the OFC: lateral and medial of both hemispheres. Also, the patients showed a positive correlation between the semantic index and the BOLD effect in the OFC, which was not observed in the control group. These results suggest that there are differences in brain functioning of children and adolescents with OCD in regions that are inside/outside of the neurobiological model for OCD (CSPTC circuit). In accordance with the present results, these differences in brain activation and connectivity could be regarded as a latent deficit, since both groups presented the same behavioral performance

Adolescent

Adolescente

Biological psychiatry

Brain mapping/psychology

Child

Child psychiatry

Cognição

Cognition

Córtex pré-frontal

Criança

Functional neuroimaging/psychology

Imagem por ressonância magnética

Magnetic resonance imaging

Mapeamento encefálico/psicologia

Memória

Memória episódica

Memory

Memory episodic

Neuroimagem funcional/psicologia

Neuropsychological tests

Obsessive-compulsive disorder

Prefrontal cortex

Psiquiatria biológica

Psiquiatria infantil

Semântica

Semantics

Testes neuropsicológicos

Transtorno obsessivo-compulsivo

Inferência do tempo de atividade neural a partir do efeito BOLD em ressonância magnética funcional / Inference of neural activity time from BOLD effect in functional magnetic resonance imaging

Claudinei Eduardo Biazoli Junior

01 April 2011

A inferência do curso temporal da atividade neural a partir do efeito BOLD é um importante problema, ainda em aberto. A forma da curva BOLD não reflete diretamente as características temporais da atividade eletrofisiológica dos neurônios. Nessa tese, é introduzido o conceito de tempo de processamento neural (TPN) como um dos parâmetros do modelo biofísico da função de resposta hemodinâmica (HRF). O objetivo da introdução desse conceito é obter estimativas mais acuradas da duração da atividade neural a partir do efeito BOLD, que possui auto grau de nãolinearidade. Duas formas de estimar os parâmetros do modelo do efeito BOLD foram desenvolvidas. A validade e aplicabilidade do conceito de TPN e das rotinas de estimação foram avaliadas por simulações computacionais e análise de séries temporais experimentais. Os resultados das simulações e da aplicação foram comparados com medidas da forma da HRF. O experimento analisado consistiu em um paradigma de tomada de decisão na presença de distratores emocionais. Esperase que o TPN em áreas sensoriais primárias seja equivalente ao tempo de apresentação de estímulos. Por outro lado, o TPN em áreas relacionadas com a tomada de decisão deve ser menor que a duração dos estímulos. Além disso, o TPN deve depender da condição experimental em áreas relacionadas ao controle de distratores emocionais. Como predito, o valores estimados do TPN no giro fusiforme foram equivalentes à duração dos estímulos e o TPN no giro do cíngulo dorsal variou com a presença de distrator emocional. Observou-se ainda lateralidade do TPN no córtex pré-frontal dorsolateral. As medidas da forma da HRF obtidas por um método convencional não dectectaram as variações observadas no TPN / The extraction of information about neural activity dynamics related to the BOLD signal is a challenging task. The temporal evolution of the BOLD signal does not directly reflect the temporal characteristics of electrical activity of neurons. In this work, we introduce the concept of neural processing time (NPT) as a parameter of the biophysical model of the hemodynamic response function (HRF). Through this new concept we aim to infer more accurately the duration of neuronal response from the highly nonlinear BOLD effect. We describe two routines to estimate the parameters of the HRF model. The face validity and applicability of the concept of NPT and the estimation procedures are evaluated through simulations and analysis of experimental time series. The results of both simulation and application were compared with summary measures of HRF shape. We analysed an experiment based on a decision-making paradigm with simultaneous emotional distracters. We hypothesize that the NPT in primary sensory areas is approximately the stimulus presentation duration. On the other hand, the NPT in brain areas related to decisionmaking processes should be less than the stimulus duration. Moreover, in areas related to processing of an emotional distracter, the NPT should depend on the experimental condition. As predicted, the NPT in fusiform gyrus is close to the stimulus duration and the NPT in dorsal anterior cingulate gyrus depends on the presence of an emotional distracter. Interestingly, the estimated NPTs in the dorsolateral prefrontal cortex indicate functional laterality of this region. The analysis using standard measures of HRF did not detect the variations observed in our method (NPT)

Córtex pré-frontal dorsolateral

Emoções

Giro do cíngulo

Giro fusiforme

Lateralidade funcional

Modelo de balão

Rede nervosa/fisiologia

Tomada de decisões

Tristeza

Balloon model

Cingulate gyrus

Decision-making

Dorsal lateral prefrontal cortex

Emotion

Functional laterality

Functional magnetic resonance imaging

Fusiform gyrus

Neural network/physiology

Sadness

Finite element modeling of electromagnetic radiation and induced heat transfer in the human body

Kim, Kyungjoo

24 September 2013

This dissertation develops adaptive hp-Finite Element (FE) technology and a parallel sparse direct solver enabling the accurate modeling of the absorption of Electro-Magnetic (EM) energy in the human head. With a large and growing number of cell phone users, the adverse health effects of EM fields have raised public concerns. Most research that attempts to explain the relationship between exposure to EM fields and its harmful effects on the human body identifies temperature changes due to the EM energy as the dominant source of possible harm. The research presented here focuses on determining the temperature distribution within the human body exposed to EM fields with an emphasis on the human head. Major challenges in accurately determining the temperature changes lie in the dependence of EM material properties on the temperature. This leads to a formulation that couples the BioHeat Transfer (BHT) and Maxwell equations. The mathematical model is formed by the time-harmonic Maxwell equations weakly coupled with the transient BHT equation. This choice of equations reflects the relevant time scales. With a mobile device operating at a single frequency, EM fields arrive at a steady-state in the micro-second range. The heat sources induced by EM fields produce a transient temperature field converging to a steady-state distribution on a time scale ranging from seconds to minutes; this necessitates the transient formulation. Since the EM material properties depend upon the temperature, the equations are fully coupled; however, the coupling is realized weakly due to the different time scales for Maxwell and BHT equations. The BHT equation is discretized in time with a time step reflecting the thermal scales. After multiple time steps, the temperature field is used to determine the EM material properties and the time-harmonic Maxwell equations are solved. The resulting heat sources are recalculated and the process continued. Due to the weak coupling of the problems, the corresponding numerical models are established separately. The BHT equation is discretized with H¹ conforming elements, and Maxwell equations are discretized with H(curl) conforming elements. The complexity of the human head geometry naturally leads to the use of tetrahedral elements, which are commonly employed by unstructured mesh generators. The EM domain, including the head and a radiating source, is terminated by a Perfectly Matched Layer (PML), which is discretized with prismatic elements. The use of high order elements of different shapes and discretization types has motivated the development of a general 3D hp-FE code. In this work, we present new generic data structures and algorithms to perform adaptive local refinements on a hybrid mesh composed of different shaped elements. A variety of isotropic and anisotropic refinements that preserve conformity of discretization are designed. The refinement algorithms support one- irregular meshes with the constrained approximation technique. The algorithms are experimentally proven to be deadlock free. A second contribution of this dissertation lies with a new parallel sparse direct solver that targets linear systems arising from hp-FE methods. The new solver interfaces to the hierarchy of a locally refined mesh to build an elimination ordering for the factorization that reflects the h-refinements. By following mesh refinements, not only the computation of element matrices but also their factorization is restricted to new elements and their ancestors. The solver is parallelized by exploiting two-level task parallelism: tasks are first generated from a parallel post-order tree traversal on the assembly tree; next, those tasks are further refined by using algorithms-by-blocks to gain fine-grained parallelism. The resulting fine-grained tasks are asynchronously executed after their dependencies are analyzed. This approach effectively reduces scheduling overhead and increases flexibility to handle irregular tasks. The solver outperforms the conventional general sparse direct solver for a class of problems formulated by high order FEs. Finally, numerical results for a 3D coupled BHT with Maxwell equations are presented. The solutions of this Maxwell code have been verified using the analytic Mie series solutions. Starting with simple spherical geometry, parametric studies are conducted on realistic head models for a typical frequency band (900 MHz) of mobile phones. / text

hp-FEM

Hybrid mesh

Local mesh refinement algorithms

Electromagnetics

Specific Absorption Rate

Dielectric heating

Gaussian elimination

Directed Acyclic Graph

Direct method

LU

Multi-core

Multi-frontal

OpenMP

Sparse matrix

Supernodes

Task parallelism

Unassembled HyperMatrix

GPU

Dense linear algebra

Algorithms-by-blocks

Heterogeneous architectures

BLAS

The role of human medial frontal cortex in cognition investigated by functional magnetic resonance imaging. / Die Rolle des menschlichen medialen frontalen Kortex in der Kognition untersucht mit Hilfe der funktionellen Magnetresonanztomographie.

Lütcke, Henry

19 October 2007

No description available.

570 Biowissenschaften

Biologie

funktionelle MRT

Medialer Frontaler Kortex

Anteriorer Cingulärer Kortex

Konflikt

Antizipation

Neurofeedback

functional MRI

medial frontal cortex

anterior cingulate cortex

conflict

anticipation

neurofeedback

real-time fMRI

42.99

44.03

77.50

FAB 000: Kognitionspsychologie

MED 372: Bildgebende Verfahren {Medizin}

Dinâmica do sistema córtico-hipocampal durante o condicionamento contextual de medo / Cortico-hippocampal system dynamics during contextual fear conditioning

Ana Carolina Bione Kunicki

03 February 2012

O estabelecimento das memórias de longo prazo requer uma efetiva comunicação do hipocampo com o neocortex. Um mecanismo plausível envolvido na comunicação neuronal e na plasticidade sináptica é a sincronização da atividade elétrica cerebral na frequência teta. Estudos recentes mostraram que a sincronização entre os ritmos teta do hipocampo e do córtex pré-frontal aumenta durante a evocação das memórias aversivas e diminui após a extinção do aprendizado. Entretanto, outros ritmos cerebrais, como as ondas delta, também estão envolvidos nas respostas comportamentais do medo e nos processos de memória. Desta forma, o ritmo teta, que já foi bastante estudado pelo seu papel no aprendizado e na memória, e o ritmo delta, por seu envolvimento no ciclo sono-vigília, foram investigados considerando a relação causal entre eles. Ainda não está bem estabelecido como os ritmos delta e teta podem juntos contribuir nos processos cognitivos ou como os ritmos do hipocampo podem influenciar ou receber influencias da atividade cortical. Neste trabalho foi investigada a contribuição dos ritmos delta e teta em função do estado comportamental (vigília ativa ou congelamento) e do tipo de memória evocada (recente ou remota). Além disso, foi realizada uma análise de sincronia de fase para inferir a dinâmica da atividade elétrica entre o córtex pré-frontal medial, o hipocampo e o córtex visual durante a evocação das memórias de medo. Para tanto, os animais foram treinados e testados numa tarefa de condicionamento de medo ao contexto. Neste tipo de condicionamento, o animal aprende a estabelecer uma associação entre um determinado contexto (caixa de condicionamento) e um evento aversivo (choque elétrico nas patas) que ocorreu neste contexto. Quando o animal foi reintroduzido na caixa de condicionamento, o mesmo exibiu uma série de respostas condicionadas incluindo a reação de congelamento. Os resultados mostraram que os ritmos delta e teta estão relacionados de forma específica às respostas comportamentais de medo e de evocação das memórias recente e remota. Observou-se no espectro de potências uma maior contribuição do ritmo teta durante a vigília exploratória, diminuindo durante o congelamento. Neste último, os ratos apresentaram um robusto aumento da contribuição do ritmo delta. Além disso, a medida de causalidade mostrou ser dependente do estado comportamental do animal. Finalmente, um aumento da sincronia entre o hipocampo e o córtex pré-frontal foi evidenciado durante a evocação de memória recente, contraposta à diminuição durante a evocação da memória remota. Estes resultados indicam que a sincronização da atividade elétrica cerebral pode refletir uma facilitação na comunicação neuronal / The establishment of long-term memories requires effective communication of the hippocampus to the neocortex. Electrophysiological activities between hippocampus and prefrontal cortex have shown higher theta synchronization during retrieval of aversive memories and lower during extinction learning. While theta activity is more differently related to learning and memory, delta waves have been more discussed in the context of sleep or \"offline\" states. Few studies have investigated delta waves during \"on-line\" states (such as task-relevant situations) and the contribution of these rhythms to memory storage remains unclear. We recorded electrophysiological data to study the contributions of delta and theta waves in cortico-hippocampal system of rats underwent to contextual fear conditioning. Our experiment consisted of environmental pre-exposition, training with electrical footshocks, and recent/remote memory tests. Two groups of rats were tested one or eighteen days post training for recent or remote memory, respectively. Local field potential time series of two behavioral states were sampled: active exploration and freezing. The results showed that theta and delta rhythms play an important role in behavioral responses and memory processing. They are related to fear recall and their contribution depend on the recent or remote memory. Additionally, using an order parameter we show that theta contribution is strongly pronounced in active exploration, decreasing during freezing. In the latter, the rats presented pronounced delta waves in freezing. Moreover, a behavioral-dependent causality measure showed an increase of theta influence in delta rhythms, resulting in a theta slowing in aversive memory retrieval. Finally, we show an increased synchrony between hippocampus and prefrontal cortex during recall of recent memory, but a decreased synchrony in remote memory. We proposed that synchronized activity may facilitate the communication of information and once the memories are established in the neocortex, the synchronization decreases, and recalling them becomes more independent of the hippocampus. We proposed that delta-theta oscillations of the hippocampus over neocortical areas reflect information processing during aversive memory retrieval

Aprendizagem

Condicionamento clássico

Córtex pré-frontal

Eletrofisiologia

Hipocampo

Memória de curto prazo/fisiologia

Memória de longo prazo/fisiologia

Ondas encefálicas/fisiologia

Ratos

Ritmo teta

Brain waves/physiology

Classical conditioning

Electrophysiology

Hippocampus

Learning

Long-term memory/physiology

Prefrontal cortex

Rats

Short-term memory/physiology

Theta rhythm

Ativação cerebral associada à memória episódica verbal no transtorno obsessivo-compulsivo por meio de ressonância magnética funcional / Brain activation associated with verbal episodic memory in obsessivecompulsive disorder using magnetic resonance imaging

Marcelo Camargo Batistuzzo

19 February 2014

O transtorno obsessivo-compulsivo (TOC) é um transtorno psiquiátrico que acomete cerca de 1 a 3,1% das pessoas ao longo da vida. Embora o seu modelo neurobiológico ainda não esteja completamente estabelecido, inúmeras evidências apontam para áreas relacionadas ao circuito córtico-estriado-pálido-talâmico-cortical (CEPTC). Em especial, o córtex órbito-frontal (COF) é uma região que desempenha um papel fundamental dentro da hipótese fisiopatológica do TOC. Paralelamente, esta região já foi associada, em sujeitos saudáveis, com a habilidade de utilização espontânea da estratégia de agrupamento semântico na memorização de palavras - o que facilita sua evocação posterior. Ao mesmo tempo, estudos neuropsicológicos evidenciaram que pacientes com TOC apresentam déficits na memória episódica verbal (MEV) e que tais déficits poderiam ser mediados por dificuldades em funções executivas ligadas ao planejamento, como utilização de estratégias. Portanto, para testar a hipótese de que há diferenças no correlato neural da codificação da MEV entre pacientes com TOC e controles saudáveis, foi utilizado um teste neuropsicológico adaptado para ressonância magnética funcional (RMf): o paradigma tinha apresentação em bloco. O objetivo do presente estudo foi investigar a etapa de codificação da MEV e a capacidade de agrupamento semântico espontâneo em crianças e adolescentes com TOC. Assim, o paradigma foi constituído por duas listas de palavras: uma, semanticamente relacionada (SR), na qual as palavras eram divididas em categorias semânticas e outra, não relacionada (NR), na qual não havia relação aparente entre as palavras. O contraste de maior interesse do estudo foi a diferença entre essas duas condições (SR > NR). O nível de agrupamento semântico foi quantificado por um índice semântico. Os grupos foram formados por 25 crianças e adolescentes com TOC e 25 controles saudáveis, pareados por sexo, idade, escolaridade, preferência manual e QI. Embora os grupos estivessem pareados por essas características, eles se diferiram em sintomas clínicos, tais como sintomas de depressão, ansiedade e necessidade de rotina por parte da criança/adolescente. Os resultados comportamentais do teste de MEV mostraram que os grupos não se diferenciaram: ambos evocaram a mesma quantidade de palavras e não apresentaram diferenças no índice semântico. Apesar disso, a comparação entre os grupos - controlada para variáveis clínicas - revelou menor ativação (sinal BOLD) nos pacientes em diversas regiões cerebrais: frontais, parietais e occipito-temporais. Por outro lado, a análise de interação psicofisiológica (PPI) revelou que os pacientes apresentaram um aumento da conectividade do COF com regiões temporais em relação aos controles. Isso ocorreu para três das quatro regiões de interesse que foram posicionadas no COF: lateral e medial de ambos os hemisférios. Além disso, o grupo de pacientes apresentou uma correlação positiva entre o índice semântico e o efeito BOLD no COF, o que não ocorreu para o grupo controle. Esses resultados indicam diferenças no funcionamento cerebral de crianças e adolescentes com TOC tanto em regiões que estão dentro do modelo neurobiológico proposto para o TOC (circuito CEPTC), como fora dele também. De acordo com os resultados do presente estudo, as diferenças de ativação e de conectividade poderiam ser consideradas como um déficit latente, uma vez que ambos os grupos apresentaram o mesmo desempenho no paradigma / The obsessive-compulsive disorder (OCD) is a psychiatric disorder that affects 1-3.1% of the general population (lifetime rate). Although its neurobiological model has not been completely establish, numerous evidences indicate that areas of the cortico-striatalpale- thalamic-cortical (CSPTC) circuit are engaged in the disease. In particular, the orbitofrontal cortex (OFC) is a region that plays a key role in the pathophysiological hypothesis of OCD. In parallel to this, in healthy controls this region has been associated with the ability of using spontaneous strategies of semantic clustering at the encoding of related words - in a way that facilitates the posterior retrieval of these words. At the same time, neuropsychological studies showed that OCD patients present verbal episodic memory (VEM) deficits, and that these deficits could be mediated by executive dysfunction - like planing and utilization of strategies. Thus, to investigate the hypothesis that there are differences at the neural correlates of VEM encoding between children and adolescents with OCD and healthy controls, we used a blocked design functional Magnetic Resonance Imaging (fMRI) paradigm to evaluate both groups. The main objective of the study was to investigate the VEM encoding and the ability to spontaneously organize words according to their semantic categories. In order to do this, the fMRI paradigm consisted of two kinds of word lists: a semantically related list (SR), in which words were divided into semantic categories and a unrelated list (UR), were there was no apparent relationship between the words. However, the contrast of most interest of this study, was the difference between the conditions (\'SR > UR\'). The semantic clustering level was quantified by a semantic clustering index. Groups were constituted by 25 children and adolescents with OCD and 25 healthy controls paired by gender, age, educational level, handedness and IQ. Although both groups were matched for these characteristics, they differed in clinical symptoms such as depression, anxiety and routines. Behavioral results showed that the groups were similar in terms of retrieved words and semantic index. Nevertheless, the comparison between groups - controlled for clinical variables - showed less activation (BOLD signal) in patients in several brain regions: frontal, parietal and occipito-temporal. On the other hand, the psychophysiological interaction analysis (PPI) revealed that patients have had an increase in the OFC connectivity with the temporal regions. This has occurred in three of the four regions of interest that were placed in the OFC: lateral and medial of both hemispheres. Also, the patients showed a positive correlation between the semantic index and the BOLD effect in the OFC, which was not observed in the control group. These results suggest that there are differences in brain functioning of children and adolescents with OCD in regions that are inside/outside of the neurobiological model for OCD (CSPTC circuit). In accordance with the present results, these differences in brain activation and connectivity could be regarded as a latent deficit, since both groups presented the same behavioral performance

Adolescente

Cognição

Córtex pré-frontal

Criança

Imagem por ressonância magnética

Mapeamento encefálico/psicologia

Memória

Memória episódica

Neuroimagem funcional/psicologia

Psiquiatria biológica

Psiquiatria infantil

Semântica

Testes neuropsicológicos

Transtorno obsessivo-compulsivo

Adolescent

Biological psychiatry

Brain mapping/psychology

Child

Child psychiatry

Cognition

Functional neuroimaging/psychology

Magnetic resonance imaging

Memory

Memory episodic

Neuropsychological tests

Obsessive-compulsive disorder

Prefrontal cortex

Semantics

Resting state brain networks in young people with familial risk for psychosis

Jukuri, T. (Tuomas)

16 February 2016

Abstract Neuropsychiatric illnesses usually become overtly manifest in adolescence and early adulthood. A critical long-term aim is to be able to prevent the development of such illnesses, which requires instruments to identify subjects at high risk of illness and to offer them effective interventions. There is an indisputable need for more sophisticated methods to enable more precise detection of adolescents and young adults who are at high risk of developing psychosis. Abnormal function in brain networks has been reported in people with schizophrenia and other psychotic disorders. Similar abnormalities have been found also in people at risk for developing psychosis, but it is not known whether this applies also to spontaneous resting state activity in young people with a familial risk for psychosis. We conducted resting-state functional MRI (R-fMRI) in 72 (29 male) young adults with a history of psychosis in one or both parents (FR) but without psychosis themselves, and 72 (29 male) similarly healthy control subjects without familial risk for psychosis. Both groups in the Oulu Brain and Mind study were drawn from the Northern Finland Birth Cohort 1986. All volunteers were 20–25 years old. Parental psychosis was established using the Care Register for Health Care. R-fMRI data was pre-processed using independent component analysis (ICA). A dual regression technique was used to detect between-group differences with p < 0.05 threshold corrected for multiple comparisons at voxel level. FR subjects demonstrated significantly decreased activity compared to control subjects in the default mode network and in the central executive network and increased activity in the cerebellum. The findings clarify previously controversial literature on the subject. The finding suggests that abnormal activity in these brain networks in rest may be associated with increased vulnerability to psychosis. The findings maybe helpful in developing more precise methods for detecting young people at highest risk for developing psychosis. / Tiivistelmä Psykoottisiin häiriöihin sairastutaan yleensä nuoruudessa tai varhaisaikuisuudessa. Psykoositutkimuksen tavoitteena on löytää uusia menetelmiä, joiden avulla kyettäisiin tunnistamaan suurimmassa psykoosiriskissä olevat nuoret, jotta heille voitaisiin tarjota sairautta ennaltaehkäiseviä hoitokeinoja. Skitsofreniaan ja muihin psykoottisiin häiriöihin sairastuneilla on havaittu aivotoiminnan poikkeavuuksia. Samankaltaisia aivotoiminnan poikkeavuuksia on havaittu myös nuorilla, jotka ovat vaarassa sairastua psykoosiin. Toistaiseksi on ollut epäselvää, onko psykoosiin sairastuneiden henkilöiden lapsilla aivohermoverkkojen toiminnan poikkeavuuksia lepotilassa. Suoritimme aivojen lepotilan MRI-tutkimuksen (R-fMRI) 72:lle (29 miestä) nuorelle aikuiselle, joiden jompikumpi vanhempi oli sairastunut psykoosin sekä 72:lle (29 miestä) nuorelle aikuiselle, joiden vanhemmat eivät olleet sairastaneet psykoosia. Molemmat tutkimusryhmät tässä Oulu Brain and Mind -tutkimuksessa olivat Pohjois-Suomen 1986 syntymäkohortin jäseniä. Tutkittavat olivat 20–25 vuoden iässä. Lepotilan toiminnallinen magneettikuvaus suoritettiin 1.5 Teslan Siemensin magneettikuvantamislaitteella. Tutkimuskohteiksi valittiin lepotilan toiminnallinen aivohermoverkko, toiminnan ohjauksesta vastaava aivohermoverkko ja pikkuaivot. Kuvantamisdataan sovellettiin itsenäisten komponenttien analyysia aivohermoverkkojen määrittämistä varten. Ryhmien välisen eron havaitsemiseen käytettiin ei-parametristä permutaatiotestiä, joka kynnystettiin tilastollisesti merkitsevään tasoon (p < 0.05). Lepotilan oletushermoverkossa ja toiminnanohjauksesta vastaavassa aivohermoverkoissa havaittiin vähäisempää aktiivisuutta ja pikkuaivoissa kohonnutta aktiivisuutta perinnöllisessä psykoosiriskissä olevilla nuorilla aikuisilla verrattuna verrokkeihin. Tutkimustulokset selkeyttivät aiempaa ristiriitaista kirjallisuutta tutkimusaiheesta. Tutkimuksessa havaittujen aivoalueiden poikkeava toiminta lepotilassa voi liittyä kohonneeseen psykoosin puhkeamisriskiin. Tutkimuslöydösten avulla voidaan todennäköisesti edesauttaa parempien kuvantamismenetelmien kehittämistä suurimmassa psykoosiriskissä olevien nuorten tunnistamiseen.

BOLD-signal

CEN

DMN

PCC

R-fMRI

anterior lobe of the right cerebellum

birth cohort

central executive network

cerebellum

default mode network

fMRI

familial risk for psychosis

functional MRI

genetic vulnerability

independent component analysis

parental psychosis

posterior cingulate cortex

rIFG

resting-state

right inferior frontal gyrus

schizophrenia

BOLD-signaali

ICA

itsenäisten komponenttien analyysi

oletushermoverkko

pikkuaivot

psykoosialttius

skitsofrenia

syntymäkohortti

Evaluation of Knee Ligament Injuries in Occupants of Heavy Goods Vehicles by Simulating Frontal Impacts using THUMS HBM / Utvärdering av knäligamentskador hos åkande i tunga fordon genom att simulera frontala islag hos THUMS HBM

Nusia, Jiota

January 2019

INTRODUCTION. Frontal collisions have been observed to cause the severe injuries on heavy goods vehicle occupants, and the lower extremities have been frequently injured. Injuries of knee joints are rarely life threatening, however they tend to give long-term consequences. AIM. Evaluate non-lethal frontal impacts towards the knee joint of Total Human Model for Safety (THUMS) v4.0 using a cylindrical barrier. The main objectives are to 1) create local injury risk functions of the knee ligaments restraining frontal impacts, 2) simulate frontal impacts towards the knee joints of THUMS and3) prepare the Hybrid III (HIII)-model for corresponding frontal impacts conducted on THUMS. The intention is for future HIII-simulations to be cross-correlated with the responses from THUMS for the ability to estimate knee ligament strains by investigating impacts on HIII. METHODS. 1) Ligament risk curves of PCL, MCL and LCL were formulated by assembling mean strain threshold values and standard deviations from literature. Virtual values were generated from these pooled strain thresholds, creating the risk curves. 2) THUMS lower body was impacted by a cylindrical steel barrier at four different locations - middle of patella, middle of knee joint, upper tibia and below tibia tuberositas. Four impact velocities ranging from 8-14 km/h were used at each location, giving a total of 16 impacts. 3) The HIII-model was prepared by removing the upper body and inserting the cylindrical steel barrier into the model file. RESULTS. The strain threshold at 50% rupture risk for PCL resulted in 23.6±4.4%, 34.2±6.0% for MCL and 26.6±6.5% for LCL. The simulated THUMS PCL strains reached between 36%-58% for the highest velocity at the impact locations where tibia was involved. Both MCL and LCL gave an approximate 5% strain outcome. The resultant knee displacement for these impacts ranged between 22 mm - 32 mm. The knee displacements at the PCL strain threshold ranged between 14 mm - 16 mm. DISCUSSION and CONCLUSION. Most of the maximal PCL strains exceeded the PCL threshold with large margins. However, the knee displacement at the PCL strain threshold resulted in outcomes comparable to the thresholds used for HIIImodel. These results supported the obtained PCL threshold to be within a reasonable range.

Frontal impacts

Cumulative injury risk curve

Ligament material curves

Total Human Model for Safety (THUMS)

Hybrid III- model (HIII)

Heavy Goods Vehicles (HGV)

Validation

Knee joint

Posterior cruciate ligament (PCL)

Medial collateral ligament (MCL)

Lateral collateral ligament (LCL).

Medical Engineering

Medicinteknik

Responses in left inferior frontal gyrus are altered for speech-in-noise processing, but not for clear speech in autism

Schelinski, Stefanie, Kriegstein, Katharina von

04 June 2024

Introduction Autistic individuals often have difficulties with recognizing what another person is saying in noisy conditions such as in a crowded classroom or a restaurant. The underlying neural mechanisms of this speech perception difficulty are unclear. In typically developed individuals, three cerebral cortex regions are particularly related to speech-in-noise perception: the left inferior frontal gyrus (IFG), the right insula, and the left inferior parietal lobule (IPL). Here, we tested whether responses in these cerebral cortex regions are altered in speech-in-noise perception in autism. Methods Seventeen autistic adults and 17 typically developed controls (matched pairwise on age, sex, and IQ) performed an auditory-only speech recognition task during functional magnetic resonance imaging (fMRI). Speech was presented either with noise (noise condition) or without noise (no noise condition, i.e., clear speech). Results In the left IFG, blood-oxygenation-level-dependent (BOLD) responses were higher in the control compared to the autism group for recognizing speech-in-noise compared to clear speech. For this contrast, both groups had similar response magnitudes in the right insula and left IPL. Additionally, we replicated previous findings that BOLD responses in speech-related and auditory brain regions (including bilateral superior temporal sulcus and Heschl's gyrus) for clear speech were similar in both groups and that voice identity recognition was impaired for clear and noisy speech in autism. Discussion Our findings show that in autism, the processing of speech is particularly reduced under noisy conditions in the left IFG—a dysfunction that might be important in explaining restricted speech comprehension in noisy environments.

info:eu-repo/classification/ddc/150

ddc:150

info:eu-repo/classification/ddc/610

ddc:610

Seismic structure, gas hydrate, and slumping studies on the Northern Cascadia margin using multiple migration and full waveform inversion of OBS and MCS data

Yelisetti, Subbarao

05 November 2014

The primary focus of this thesis is to examine the detailed seismic structure of the northern Cascadia margin, including the Cascadia basin, the deformation front and the continental shelf. The results of this study are contributing towards understanding sediment deformation and tectonics on this margin. They also have important implications for exploration of hydrocarbons (oil and gas) and natural hazards (submarine landslides, earthquakes, tsunamis, and climate change). The first part of this thesis focuses on the role of gas hydrate in slope failure observed from multibeam bathymetry data on a frontal ridge near the deformation front off Vancouver Island margin using active-source ocean bottom seismometer (OBS) data collected in 2010. Volume estimates (∼ 0.33 km^3) of the slides observed on this margin indicate that these are capable of generating large (∼ 1 − 2 m) tsunamis. Velocity models from travel time inversion of wide angle reflections and refractions recorded on OBSs and vertical incidence single channel seismic (SCS) data were used to estimate gas hydrate concentrations using effective medium modeling. Results indicate a shallow high velocity hydrate layer with a velocity of 2.0 − 2.1 km/s that corresponds to a hydrate concentration of 40% at a depth of 100 m, and a bottom simulating reflector (BSR) at a depth of 265 − 275 m beneath the seafloor (mbsf). These are comparable to drilling results on an adjacent frontal ridge. Margin perpendicular normal faults that extend down to BSR depth were also observed on SCS and bathymetric data, two of which coincide with the sidewalls of the slump indicating that the lateral extent of the slump is controlled by these faults. Analysis of bathymetric data indicates, for the first time, that the glide plane occurs at the same depth as the shallow high velocity layer (100±10 mbsf). In contrast, the glide plane coincides with the depth of the BSR on an adjacent frontal ridge. In either case, our results suggest that the contrast in sediments strengthened by hydrates and overlying or underlying sediments where there is no hydrate is what causing the slope failure on this margin. The second part of this dissertation focuses on obtaining the detailed structure of the Cascadia basin and frontal ridge region using mirror imaging of few widely spaced OBS data. Using only a small airgun source (120 cu. in.), our results indicate structures that were previously not observed on the northern Cascadia margin. Specifically, OBS migration results show dual-vergence structure, which could be related to horizontal compression associated with subduction and low basal shear stress resulting from over-pressure. Understanding the physical and mechanical properties of the basal layer has important implications for understanding earthquakes on this margin. The OBS migrated image also clearly shows the continuity of reflectors which enabled the identification of thrust faults, and also shows the top of the igneous oceanic crust at 5−6 km beneath the seafloor, which were not possible to identify in single-channel and low-fold multi-channel seismic (MCS) data. The last part of this thesis focuses on obtaining detailed seismic structure of the Vancouver Island continental shelf from MCS data using frequency domain viscoacoustic full waveform inversion, which is first of its kind on this margin. Anelastic velocity and attenuation models, derived in this study to subseafloor depths of ∼ 2 km, are useful in understanding the deformation within the Tofino basin sediments, the nature of basement structures and their relationship with underlying accreted terranes such as the Crescent and the Pacific Rim terranes. Specifically, our results indicate a low-velocity zone (LVZ) with a contrast of 200 m/s within the Tofino basin sediment section at a depth 600 − 1000 mbsf over a lateral distance of 10 km. This LVZ is associated with high attenuation values (0.015 − 0.02) and could be a result of over pressured sediments or lithology changes associated with a high porosity layer in this potential hydrocarbon environment. Shallow high velocities of 4 − 5 km/s are observed in the mid-shelf region at depths > 1.5 km, which is interpreted as the shallowest occurrence of the Eocene volcanic Crescent terrane. The sediment velocities sharply increase about 10 km west of Vancouver Island, which probably corresponds to the underlying transition to the Mesozoic marine sedimentary Pacific Rim terrane. High attenuation values of 0.03 − 0.06 are observed at depths > 1 km, which probably corresponds to increased clay content and the presence of mineralized fluids. / Graduate / 0373 / 0372 / 0605 / subbarao@uvic.ca

seismic structure

gas hydrate

submarine landslides or slumps

Northern Cascadia margin

multiple migration

full waveform inversion

visco-acoustic wave equation

tomography

fluid flow

earth quakes

hydrocarbon exploration

tectonics

bottom simulating reflection or BSR

seismic attenuation

ocean bottom seismic data

mutli-channel seismic data

single-channel seismic data

airgun source

dual-vergence structure

low velocity zone

high velocity region

Crescent terrane

Pacific Rim terrane

normal faults

frontal thrusts and backthrust