Global ETD Search

31	Konnektivitätsbasierte Parzellierung des humanen inferioren Parietalkortex – eine experimentelle DTI-Analyse / Connectivity architecture and subdivision of the human inferior parietal cortex revealed by diffusion MRI Ruschel, Michael 22 October 2013 (has links) (PDF) Der menschliche inferiore Parietallappen (IPC) gehört zum Assoziationskortex und spielt eine wichtige Rolle bei der Integration von somatosensorischen (taktilen), visuellen und akustischen Reizen. Bisher gibt es keine eindeutigen Informationen über den strukturellen Aufbau dieser Hirnregion. Parzellierungen anhand der Zytoarchitektur reichen von zwei (Brodmann 1909) bis sieben Subareale (Caspers et al. 2006). Homologien zwischen dem IPC des Menschen und Makaken-Affen sind weitestgehend unbekannt. In der vorliegenden Arbeit wurden der Aufbau und die Konnektivitäten des menschlichen IPC genauer untersucht. Dazu führte man eine konnektivitätsbasierte Parzellierung des IPC an 20 Probanden durch. Als Methode kam Diffusions-Tensor-Imaging (DTI) kombiniert mit probabilistischer Traktogra-phie zum Einsatz. Der IPC konnte anhand der Konnektivitäten in drei Subareale (IPCa, IPCm, IPCp) parzelliert werden. Diese besitzen in beiden Hemisphären eine ähnliche Größe und eine rostro-kaudale Anordnung. Die Parzellierung ist vergleichbar mit der des Makaken-IPC, bei dem ebenfalls eine Unterteilung in drei Areale (PF, PFG, PG) und eine rostro-kaudale Anordnung nachgewiesen werden konnte. Jedes Subareal des menschlichen IPC besitzt ein individuelles Konnektivitätsmuster. Beim Menschen als auch beim Makaken gibt es starke Verbindungen zum lateralen prämotorischen Kortex und zum superioren Parietallappen. Diese Gemeinsamkeiten lassen darauf schließen, dass strukturelle Eigenschaften im Laufe der Evolution erhalten geblieben sind. Allerdings sind beim Menschen auch Neuentwicklungen nachweisbar. Dazu gehören die deutlich hervortretenden Verbindungen zum Temporallappen. Möglicherweise haben sich diese erst während der Evolution entwickelt und sind beim Menschen als Teil des perisylvischen Sprachnetzwerkes an der Sprachbildung beteiligt. / The human inferior parietal cortex convexity (IPCC) is an important association area, which integrates auditory, visual and somatosensory information. However, the structural organization of the IPCC is a controversial issue. For example, cytoarchitectonic parcellations reported in the literature range from two to seven areas. Moreover, anatomical descriptions of the human IPCC are often based on experiments in the macaque monkey. In this study we used diffusion-weighted magnetic resonance imaging (dMRI) combined with probabilistic tractography to quantify the connectivity of the human IPCC, and used this information to parcellate this cortex area. This provides a new structural map of the human IPCC, comprising three sub-areas (IPCa, IPCm, IPCp) of comparable size, in a rostro-caudal arrangement in the left and right hemisphere. Each sub-area is characterized by a connectivity fingerprint and the parcellation is similar to the subdivision reported for the macaque IPCC (rostro-caudal areas areas PF, PFG, and PG). However, the present study also reliably demonstrates new structural features in the connectivity pattern of the human IPCC, which are not known to exist in the macaque. This study quantifies inter-subject variability by providing a population representation of the sub-area arrangement, and demonstrates substantial lateralization of the connectivity patterns of IPCC. Konnektivitätsbasierte Parzellierung Diffusionsgewichtetes MRT Inferiorer Parietalkortex Probabilistische Traktographie connectivity based parcellation diffusion MRI DTI human parietal lobe inferior parietal cortical convexity probabilistic tractography ddc:610
32	The neural bases of consciousness in the healthy and in the pathological brain / Les corrélates neuronales de la conscience chez les sujets sains et les patients atteints de lésions cérébrales traumatiques Corazzol, Martina 21 December 2017 (has links) L'étude de la conscience est un sujet d'investigation fascinant avec un large champ d'applications et d'implications. Les processus de la conscience peuvent être divisés en deux composantes indépendantes quoiqu'intimement liées : l'état conscient et le contenu conscient. L'état conscient correspond aux processus de variation de la vigilance, tandis que le contenu conscient fait référence aux expériences sensorielles perçues et manipulées dans un espace conscient. Bien que la conscience soit un élément essentiel de la cognition humaine, qui conditionne ce que les gens vivent et peuvent se remémorer, la légitimité et le bien-fondé de l'analyse scientifique et rigoureuse des corrélats neuronaux de la conscience soulèvent encore des débats houleux. Dans la première partie de cette thèse, j'utilise un célèbre paradigme de conflit sensorimoteur pour identifier des corrélats neuronaux de l'émergence de la conscience. Les travaux initiés par Torstein Nielsen (Nielsen 1963) ont démontré que la majorité des traitements sensorimoteurs s'effectuent sans nécessiter une analyse consciente. L'émergence de phénomènes conscients apparaissant à partir d'un seuil subjectif de conflit sensori-moteur appelé point d'égalité subjective. A partir d'enregistrements électroencéphalographiques, effectués chez une population de sujets adultes, il est possible d'identifier des sources d'activités corticales indépendantes des intensités des stimulations sensorielles expérimentées et spécifiques de l'émergence d'une sensation perçue consciemment. Ainsi, j'ai pu démontrer que le précuneus était une structure centrale dans les processus qui transforment un conflit sensorimoteur en une expérience consciente. J'ai également étudié ce phénomène d'un point de vue développemental en examinant les performances comportementales et des enregistrements EEG recueillies chez l'enfant. Bien que le moment de la correction du mouvement et la qualité du tracé de la trajectoire étaient similaires aux données mesurées chez les sujets adultes, le seuil de conscience motrice s'est montré plus élevé et l'activité du cortex pariétal n'a pas été retrouvée. En revanche, l'aire motrice supplémentaire a été identiée comme un corrélat important de l'émergence d'une sensation consciente d'un conflit sensorimoteur chez l'enfant. Dans une seconde partie, mes travaux ont été consacrés à l'hypothèse audacieuse qu'une stimulation électrique du nerf vague pourrait modifier l'état de conscience d'un patient se trouvant dans un état végétatif depuis 15 ans. Nous rapportons les effets bénéfiques observés après cette thérapeutique expérimentale au niveau comportemental, clinique et neurophysiologiques. Les enregistrements EEG et les méthodes de mesure de connectivité fonctionnelle m'ont permis d'observer chez ce patient une augmentation du partage d'informations corticales particulièrement importante dans les régions pariétales. L'effet de la stimulation a été également confirmé par d'autres méthodes. L'imagerie métabolique a montré une augmentation généralisée de l'activité corticale et sous-corticale et les évaluations cliniques par la CRS-R ont montré une amélioration de l'état de conscience corrélée aux observations électroencéphalographiques. Ces changements induits par la stimulation du nerf vague sont prometteurs car les modifications cérébrales observées sont caractéristiques de l'amélioration des états de conscience chez les patients gravement cérébrolésés. L'ensemble de ces résultats suggèrent que le lobe pariétal constitue à la fois un corrélat important de l'état de conscience et du contenu conscient, faisant de cette région une composante essentielle de l'émergence de la conscience. De plus, nos résultats préliminaires suggèrent que la conscience peut être, au moins partiellement, restaurée. Cette découverte ouvre de toutes nouvelles perspectives pour le futur des recherches en neurosciences où, l'hypothèse d'une modulation de la plasticité cérébrale avait été oubliée / The study of consciousness is a fascinating topic of investigation with a wide field of applications and implications. Consciousness processes can be divided into two orthogonal though intimately linked components: the conscious state, that is the state of vigilance or arousal, and the conscious content which refers to the external inputs perceived and manipulated in a conscious space. Although consciousness represents the most important human dimension where people's personal events are continuously experienced and remembered, it is somewhat surprising that its underlying neural processes still sparks lot of debates. In the first part of this PhD thesis, I took advantage from a well-known sensorimotor conflict paradigm, the Nielsen task, to investigate the neural correlates of the emergence of consciousness. Starting from the principle that much of motor processing occurs outside of awareness, I adapted the Nielsen paradigm to neurally investigate how the perception of a motor conflict in healthy subjects smoothly shifted along the unaware/aware state (i.e. point of subjective equality). Using EEG recordings, I then identify the brain sources which I consider the neural fingerprint of awareness. I found that the precuneus was critical for bringing the sensorimotor conflict into awareness. I also investigated this issue from a developmental perspective by examining the performance of healthy children. Although the timing of movement correction and the quality of movement trajectory in children was similar to adult subjects, motor awareness was shifted towards higher perception thresholds while parietal cortex activity was not found. Rather, children's response to conflict awareness was linked to SMA. After having addressed the topic of awareness in this first part, I will focus more on the second component, wakefulness. Usually these two components evolve together, however there are some pathological states in which they can be dissociated. It is the case for vegetative state patients who experience a state of wakefulness without awareness. In the second part of the thesis, I investigated the challenging hypothesis of a potential return to a conscious state, in a patient lying in a vegetative state for 15 years, after vagus nerve stimulation (VNS). We report beneficial effects of VNS including improved behavioural responsiveness and reinforced brain connectivity patterns as key signs of increased consciousness. The results showed an increase of information sharing a measure of functional connectivity particularly prominent across centro-posterior regions. Converging findings, coming from different methods, showed that VNS promoted the spread of cortical signals and metabolism which we found correlated with behavioural improvement as measured with the CRS-R scale. The VNS-induced changes are promising since they seem to follow an already known connectivity pattern characterizing state of consciousness improvements. Taken together, these findings indicate that the parietal lobe constitutes the neural correlate of both state and content-specific consciousness and suggest that this region is a "hot zone" for its emergence. Moreover, our first findings in a vegetative state patient also suggest that consciousness can be potentially repaired, thus opening the way to a new avenue of research in a domain where brain plasticity was underestimated Conscience Conscience motrice Troubles de la conscience La stimulation du nerf vague Cortex parietal Precuneus posterieur cortex cingulaire Consciousness Motor awareness Disorder of consciousness Vagus nerve stimulation Parietal cortex Precuneusposterior cingulate cortex 612.8
33	Comprimento telomérico no sistema nervoso central de um modelo de doença de Alzheimer tratado com lítio / Telomere length in the central nervous system of a model for Alzheimer\'s disease treated with lithium Giancarlo de Mattos Cardillo 02 April 2018 (has links) Telômeros são complexos DNA-proteína presentes nas extremidades dos cromossomos. Os telômeros se encurtam a cada divisão celular, sendo o comprimento telomérico, portanto, considerado um biomarcador do envelhecimento celular. Esse encurtamento é vinculado a diversas doenças relacionadas à idade avançada. Na doença de Alzheimer (DA), têm sido associados com diversas vias fisiopatológicas, como a neuroinflamação e o estresse oxidativo, porém seus mecanismos ainda são pouco conhecidos. A maioria dos estudos sobre comprimento telomérico na DA é realizada em DNA leucocitário, pouco se sabendo sobre seu estado no sistema nervoso central. O lítio é um importante estabilizador de humor, com efeitos neuroprotetores amplamente evidenciados, mas pouco se sabe sobre seu efeito na manutenção do comprimento telomérico. O objetivo do presente estudo foi avaliar o efeito do tratamento crônico com lítio no comprimento telomérico em diferentes regiões cerebrais (córtex parietal, hipocampo e epitélio olfatório) de camundongos triplo transgênicos para DA (3xTg-AD) e selvagens. Dezoito animais transgênicos e 22 selvagens foram tratados por oito meses com ração contendo 1,0 g (Li1) ou 2,0 g (Li2) de carbonato de lítio/kg, ou ração padrão (Li0). O comprimento telomérico do DNA extraído destes tecidos foi quantificado por PCR em tempo real. O tratamento crônico com lítio foi associado a telômeros mais longos no córtex parietal (Li1, p=0,04) e hipocampo (Li2, p=0,02) dos camundongos 3xTg-AD comparados com os respectivos selvagens. Nossos achados sugerem que o tratamento crônico com lítio afeta a manutenção do comprimento telomérico, mas que a magnitude desse efeito depende da concentração de lítio ministrada e das características do tecido envolvido. Esse efeito foi apenas observado quando comparando os animais triplo transgênicos com os selvagens, indicando que a presença da patologia, no caso a DA, se faz necessária para a modulação do comprimento telomérico promovida pelo lítio / Telomeres are DNA-protein complexes present in the extremities of chromosomes. Telomeres shorten at each cell division, being the telomere length, therefore, considered a cell aging biomarker. This telomere shortening is associated to several age-related diseases. In Alzheimer\'s disease (AD), telomere length has been linked to several pathophysiological pathways, such as neuroinflammation and oxidative stress, though its mechanism are still poorly understood. Majority of studies regarding telomere length in AD are based in leucocyte DNA, with little information about its status in the central nervous system. Lithium is an important mood stabilizer, with neuroprotective effects widely evidenced, but little is known about its effects in telomere length maintenance. The objective of this present study was to evaluate the effect of chronical lithium treatment on telomere length in different brain regions (parietal cortex, hippocampus and olfactory epithelium) of wild type and triple transgenic mice model for AD (3xTg-AD). Eighteen transgenic and 22 wild type male mice were treated for eight months with chow containing 1.0g (Li1) or 2.0g (Li2) of lithium carbonate/kg, or standard chow (Li0). Telomere length of extracted DNA from theses tissues was quantified by real-time PCR. Chronic lithium treatment was associated with longer telomeres in the parietal cortex (Li1, p=0.04) and in the hippocampus (Li2, p=0.02)of 3xTg-AD compared with the respective wild type.Our findings suggest that chronic lithium treatment does affect telomere maintenance, but the magnitude of this effect depends on the working concentrations of lithium and characteristics of the involved tissue. This effect was only observed when comparing triple transgenic with wild type mice, suggesting that the presence of AD pathology was required for the lithium modulation of telomere length Camundongos transgênicos Doença de Alzheimer Hipocampo Lítio Logo parietal Mucosa olfatória Telômeros Alzheimer's disease Lithium, Hippocampus Mice transgenic Olfactory mucosa Parietal lobe Telomere
34	Modulação da atenção visuoespacial com estimulação transcraniana por corrente contínua em córtex parietal Hara, Ana Clara Portela 06 August 2013 (has links) Made available in DSpace on 2016-03-15T19:40:03Z (GMT). No. of bitstreams: 1 Ana Clara Portela Hara.pdf: 1185473 bytes, checksum: 98af56b10b63f07c120ba7122a299358 (MD5) Previous issue date: 2013-08-06 / The human visual attention and cognitive processes involved still arouse interest in investigations and have gaps. Perform a reading task or look for a parking spot are common actions of our day-to-day life that require the recruitment of our visual attentional system. The present study aimed to investigate the influence of Transcranial Direct Current Stimulation (tDCS) over Posterior Parietal Cortex (PPC) in the performance of visuospatial attention tasks, such as Bisection of Lines test and Visual Search test in young healthy volunteers. In order to analyze differences and similarities between different types of stimulation (anodic and cathodic simulation) as well as the pseudoneglect phenomenon, participated 21 young adults of which 90.47% female, 95.23% with incomplete higher education; right handed and with a mean age of 22.66 ± 3.04 (mean ± standard deviation). The results showed that participants were faster in the second assessment compared to baseline for both tasks. In addition, volunteers were faster in the Line Bisection test when the large lines was at left. Another important finding of the study was the longer fixation time in the left visual hemifield when faced with larger lines on the left in the Line Bisection Task. Furthermore, similar results when there are target to the left or right was find in the Visual Search test. Was also observe an increase in fixation time on right hemifield after cathodal stimulation in the Visual Search test compared to baseline. Therefore, these findings come against pseudoneglect phenomenon, as well as inhibition of the right posterior parietal cortex with the Transcranial Direct Current Stimulation can have induced a decrease in this phenomenon. The present study brought important contributions to the understanding of pseudoneglect phenomenon, and showed that tDCS can be an important tool for research and future intervention possibilities. / A atenção visual humana e os processos cognitivos nela envolvidos ainda despertam interesse em investigações e apresentam lacunas. Realizar uma tarefa de leitura ou procurar uma vaga no estacionamentosão ações comuns do nosso dia-a-dia que exigem o recrutamento do nosso sistema atencional visual. O presente trabalhoteve como objetivo investigar a influência da Estimulação Transcraniana por Corrente Contínua em Córtex Parietal Posterior (CPP) no desempenho de tarefas de atenção visuoespacial, tais como Bissecção de Linhas e Busca Visual, em jovens saudáveis; a fim de analisar diferenças e semelhanças entre os diferentes tipos de estimulação (anódica, catódica e placebo), bem como o fenômeno pseudonegligência. Participaram do estudo 21 adultos jovens, sendo 90,47% do sexo feminino; 95,23% com ensino superior incompleto; destros e com idade média de 22,66 ±3,04 (média±desvio-padrão). Os resultados mostraram que na Tarefa de Bissecção de Linhas os participantes foram mais rápidos na segunda avaliação em comparação com a linha de base. Além disso, os voluntários foram mais rápidos quando diante das linhas Maiores à Esquerda. Outro achado importante do estudo foi o maior tempo de fixação visual em hemicampo esquerdo quando diante de linhas maiores à esquerda. Quanto aos resultados encontrados na Tarefa de Busca Visual, os participantes apresentaram maior número de acertos quando os alvos apareceram em hemicampo esquerdo. Além disso, independentemente da localização do alvo, seja em hemicampo esquerdo ou hemicampo direito, o tempo de fixação foi maior à esquerda. Outro achado significativo foi o aumento no tempo de fixação em hemicampo direito após estimulação catódica na tarefa Busca Visual em comparação com a linha de base. Tais achados apontam para o fenômeno pseudonegligência, assim como a inibição do CPP direito por meio da ETCC pode ter induzido a diminuição de tal fenômeno. O presente estudo trouxe importantes contribuições no entendimento da pseudonegligência, assim como demonstrou ser uma importante ferramenta de investigação sobre o fenômeno e com possibilidades futuras de intervenção. pseudonegligência córtex parietal posterior movimento ocular pseudoneglect transcranial direct current stimulation right posterior parietal cortex eye-tracking CNPQ::CIENCIAS HUMANAS::PSICOLOGIA
35	Unique Features and Neuronal Properties in a Multisensory Cortex Foxworthy, W. Alex 08 June 2012 (has links) UNIQUE FEAUTRES OF ORGANIZATION AND NEURONAL PROPERTIES IN A MULTISENSORY CORTEX Multisensory processing is a ubiquitous sensory effect that underlies a wide variety of behaviors, such as detection and orientation, as well as perceptual phenomena from speech comprehension to binding. Such multisensory perceptual effects are presumed to be based in cortex, especially within areas known to contain multisensory neurons. However, unlike their lower-level/primary sensory cortical counterparts, little is known about the connectional, functional and laminar organization of higher-level multisensory cortex. Therefore, to examine the fundamental features of neuronal processing and organization in the multisensory cortical area of the posterior parietal cortex (PPr) of ferrets, the present experiments utilized a combination of immunohistological, neuroanatomical and multiple single-channel electrophysiological recording techniques. These experiments produced four main results. First, convergence of extrinsic inputs from unisensory cortical areas predominantly in layers 2-3 in PPr corresponded with the high proportion of multisensory neurons in those layers. This is consistent with multisensory responses in this higher-level multisensory region being driven by cortico-cortical, rather than thalamo-cortical connections. Second, the laminar organization of the PPr differed substantially from the pattern commonly observed in primary sensory cortices. The PPr has a reduced layer 4 compared to primary sensory cortices, which does not receive input from principal thalamic nuclei. Third, the distribution of unisensory and multisensory neurons and properties differs significantly by layer. Given the laminar-dependent input-output relationships, this suggests that unisensory and multisensory signals are processed in parallel as they pass through the circuitry of the PPr. Finally, specific functional properties of bimodal neurons differed significantly from those of their unisensory counterparts. Thus, despite their coextensive distribution within cortex, these results differentiate bimodal from unisensory neurons in ways that have never been examined before. Together these experiments represent the first combined anatomical-electrophysiological examination of the laminar organization of a multisensory cortex and the first systematic comparison of the functional properties of bimodal and unisensory neurons. These results are essential for understanding the neural bases of multisensory processing and carry significant implications for the accurate interpretation of macroscopic studies of multisensory brain regions (i.e. fMRI, EEG), because bimodal and unisensory neurons within a given neural region can no longer be assumed to respond similarly to a given external stimulus. Medical Sciences Medicine and Health Sciences Neurosciences
36	Differentiation of extraembryonic endoderm stem cell lines and parietal endoderm into visceral endoderm : the art of XEN cells Paca, Agnieszka Maria January 2012 (has links) The extraembryonic endoderm of mammals is essential for nutritive support of the foetus and patterning of the early embryo. Visceral and parietal endoderm are major subtypes of this lineage with the former exhibiting most, if not all, of the embryonic patterning properties. Extraembryonic endoderm (XEN) cell lines derived from the primitive endoderm of mouse blastocysts represent a cell culture model of this lineage, but are biased towards parietal endoderm in culture and in chimaeras. Here, I further characterise XEN cells and show that these cell lines exhibit high levels of heterogeneity. In an effort for XEN cells to adopt visceral endoderm character different aspects of the in vivo environment were mimicked. I found that BMP4 and laminin promote a mesenchymal-to-epithelial transition of XEN cells with upregulation of epithelial markers and downregulation of mesenchymal markers. Gene expression analysis showed the differentiated XEN cells most resembled extraembryonic visceral endoderm. Correspondingly, inhibition of Erk and BMP signalling drives XEN cells toward parietal endoderm fate. Finally, I show that BMP4 treatment of freshly isolated parietal endoderm from Reichert’s membrane promotes its visceral endoderm differentiation. This suggests that parietal endoderm is still developmentally plastic and can be transdifferentiated to a visceral endoderm in response to BMP. Generation of visceral endoderm from XEN cells uncovers the true potential of these blastocyst-derived cells and is a significant step towards modelling early developmental events ex vivo. 571.861
37	Differential processing of quantity and order of numbers : neuropsychological, electrophysiological and behavioural evidence Turconi, Eva 29 September 2005 (has links) Numbers convey different meanings when used in different contexts (Wiese, 2003). In a cardinal context, a number will tell us how many entities are in a set and convey quantity meaning. In an ordinal context, a number will refer to the relative position (or rank) of one element within a sequence; non-numerical ordered series (e.g. the letters of the alphabet) can also be used to provide meaningful order information. Because quantity and order are linked up with each other in the cognitive number domain (the larger the quantity a number refers to, the later it is located in the conventional number sequence), the question of whether they rely on some common or distinct underlying mechanism(s) is theoretically relevant and was addressed in the present thesis. Experimental studies showed evidence of both similarities (similar distance and SNARC effects, recruitment of parietal and frontal regions, and conjoint impairment or preservation after brain damage) and dissociations (different developmental course, dissociation after cerebral lesion, and specific behavioural markers) between quantity and order neuro-functional processes. The aim of the present thesis was to clarify the relationship between numerical quantity and order processing and to test the hypothesis that they rely on (at least partially) dissociated mechanisms. We tested this hypothesis in a single case study, an electrophysiological study and in two behavioural experiments. In the neuropsychological study, we reported the case of patient CO, who showed Gerstmann syndrome after bilateral parietal damage and became unable to process sequence order relations (e.g. he couldn't recite the number sequence backwards, nor decide whether a number, letter, day or month comes before or after a given target in the corresponding sequence, and he was unable to verify the order of items in a pair). Nonetheless, the patient had largely preserved quantity processing abilities (he could compare numbers and dot patterns to find the smaller or larger, and showed a standard distance effect, he could produce a number smaller or larger than a given target, and match dot patterns with Arabic numerals). Overall, CO's pattern of performance was interpreted as reflecting the involvement of different mechanisms when processing quantity or sequence order relations. Our electrophysiological study corroborated this finding since different spatio-temporal patterns of the distance effect were observed when subjects had to process numbers in a quantity comparison task or in an order judgment task. Quantity processing elicited an early distance effect over the P2p component on left parietal sites, whereas the distance effect was slightly delayed and bilaterally distributed in the numerical order judgment task; and this latter task additionally recruited prefrontal regions on a later (P3-counterpart) component. Finally, our behavioural study further emphasized the involvement of different mechanisms underlying the processing of quantity and numerical order and provided some evidence about the nature of these specific mechanisms. In the number comparison (quantity) task, the standard distance effect was proposed to reflect the involvement of a magnitude comparison mechanism; whereas the reverse distance effect observed in the numerical order verification task was taken as evidence for the recruitment of a serial search (recitation) process. Besides, the pair-order effect was also found to specifically affect order but not quantity judgments. Taken together, the data collected in the present thesis lend further support to the hypothesis that quantity and numerical order rely on distinct processing mechanisms that can be damaged selectively after cerebral lesions, that recruit similar brain areas but with a different spatio-temporal course and that show specific behavioural markers. Quantity meaning Number comparison Serial search Gerstmann syndrome Parietal cortex Order judgment Reverse distance effect
38	Differential processing of quantity and order of numbers : neuropsychological, electrophysiological and behavioural evidence Turconi, Eva 29 September 2005 (has links) Numbers convey different meanings when used in different contexts (Wiese, 2003). In a cardinal context, a number will tell us how many entities are in a set and convey quantity meaning. In an ordinal context, a number will refer to the relative position (or rank) of one element within a sequence; non-numerical ordered series (e.g. the letters of the alphabet) can also be used to provide meaningful order information. Because quantity and order are linked up with each other in the cognitive number domain (the larger the quantity a number refers to, the later it is located in the conventional number sequence), the question of whether they rely on some common or distinct underlying mechanism(s) is theoretically relevant and was addressed in the present thesis. Experimental studies showed evidence of both similarities (similar distance and SNARC effects, recruitment of parietal and frontal regions, and conjoint impairment or preservation after brain damage) and dissociations (different developmental course, dissociation after cerebral lesion, and specific behavioural markers) between quantity and order neuro-functional processes. The aim of the present thesis was to clarify the relationship between numerical quantity and order processing and to test the hypothesis that they rely on (at least partially) dissociated mechanisms. We tested this hypothesis in a single case study, an electrophysiological study and in two behavioural experiments. In the neuropsychological study, we reported the case of patient CO, who showed Gerstmann syndrome after bilateral parietal damage and became unable to process sequence order relations (e.g. he couldn't recite the number sequence backwards, nor decide whether a number, letter, day or month comes before or after a given target in the corresponding sequence, and he was unable to verify the order of items in a pair). Nonetheless, the patient had largely preserved quantity processing abilities (he could compare numbers and dot patterns to find the smaller or larger, and showed a standard distance effect, he could produce a number smaller or larger than a given target, and match dot patterns with Arabic numerals). Overall, CO's pattern of performance was interpreted as reflecting the involvement of different mechanisms when processing quantity or sequence order relations. Our electrophysiological study corroborated this finding since different spatio-temporal patterns of the distance effect were observed when subjects had to process numbers in a quantity comparison task or in an order judgment task. Quantity processing elicited an early distance effect over the P2p component on left parietal sites, whereas the distance effect was slightly delayed and bilaterally distributed in the numerical order judgment task; and this latter task additionally recruited prefrontal regions on a later (P3-counterpart) component. Finally, our behavioural study further emphasized the involvement of different mechanisms underlying the processing of quantity and numerical order and provided some evidence about the nature of these specific mechanisms. In the number comparison (quantity) task, the standard distance effect was proposed to reflect the involvement of a magnitude comparison mechanism; whereas the reverse distance effect observed in the numerical order verification task was taken as evidence for the recruitment of a serial search (recitation) process. Besides, the pair-order effect was also found to specifically affect order but not quantity judgments. Taken together, the data collected in the present thesis lend further support to the hypothesis that quantity and numerical order rely on distinct processing mechanisms that can be damaged selectively after cerebral lesions, that recruit similar brain areas but with a different spatio-temporal course and that show specific behavioural markers. Quantity meaning Number comparison Serial search Gerstmann syndrome Parietal cortex Order judgment Reverse distance effect
39	Aging and Weight-Ratio Estimation Holmin, Jessica Marie 01 May 2012 (has links) Many researchers have explored the way younger people perceive weight ratios using a variety of methodologies; however, very few researchers have used a more direct ratio estimation procedure, in which participants estimate an actual ratio between two or more weights. Of the few researchers who have used a direct method, the participants who were recruited were invariably younger adults. To date, there has been no research performed to examine how older adults perceive weight-ratios, using direct estimation or any other technique. Past research has provided evidence that older adults have more difficulty than younger adults in perceiving small differences in weight (i.e., the difference threshold for older adults is higher than that of younger adults). Given this result, one might expect that older adults would demonstrate similar impairments in weight ratio estimation compared to younger adults. The current experiment compared the abilities of 17 younger and 17 older adults to estimate weight ratios, using a direct ratio estimation procedure. On any given trial, participants were presented with two weights, and were asked to provide a direct estimate of the ratio, with the heavier in relation to the lighter. The results showed that the participants’ perceived weight ratios increased as a linear function of the actual weight ratios and that compared to younger adults, the older adults overestimated the weight ratios. The age-related overestimation was especially pronounced at higher weight ratios. weight discrimination parietal lobe cerebral atrophy older adults Clinical Psychology Developmental Psychology
40	Neuronal basis of goal-directed reach planning under reversed vision in the parietal and premotor cortices Kuang, Shenbing 19 February 2013 (has links) No description available. 570 reach planning reversed vision parietal reach region dorsal premotor cortex Biologie (PPN619462639)

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