Influences of visuospatial mental processes and cortical excitability on numerical cognition and learning

Thompson, Jacqueline Marie

January 2014

Numerical cognition has been shown to share many aspects of spatial cognition, both behavioural and neurological. However, it is unclear whether a particular type of spatial cognition, visuospatial mental imagery (VSMI), may play a role in symbolic numerical representation. In this thesis, I first show that mental rotation, a form of VSMI, is related to two measures of basic numerical representation. I then show that number-space synaesthesia (NSS), a rare type of VSMI involving visualised spatial layouts for numbers, does not show an advantage in mental rotation, but shows interference in number line mapping. I next present a study investigating links between NSS and the ability to learn novel numerical symbols. I demonstrate that NSS shows an advantage at learning novel numerals, and that transcranial random noise stimulation, which increases cortical excitability, confers broadly similar advantages that nonetheless differ in subtle ways. I present a study of transcranial alternating current stimulation on the same symbol learning paradigm, which fails to demonstrate effects. Lastly, I present data showing that strength of numerical representation in these newly-learnt symbols is correlated with a measure of mental rotation, and also with visual recognition ability for the symbols after, but not before, training. All together, these findings suggest that VSMI does indeed play a role in numerical cognition, and that it may do so from an early stage of learning symbolic numbers.

153.7

Estudo preliminar sobre o impacto da estimulação transcraniana por corrente contínua em tarefa de multiplicação

Picinini, Rita dos Santos de Carvalho

27 January 2009

Made available in DSpace on 2016-03-15T19:40:41Z (GMT). No. of bitstreams: 1 Rita dos Santos de Carvalho Picinini.pdf: 1897105 bytes, checksum: 40db215aab8bca0781df1d15de88b3d3 (MD5) Previous issue date: 2009-01-27 / Fundo Mackenzie de Pesquisa / Different mathematical skills have been investigated over time and, with the advance of neuroimaging techniques, such as PET (Positron Emission Tomography) and fMRI (functional Magnetic Resonance), central components of arithmetical processing have been identified in the parietal and the pre-frontal cortices. Besides the advances of the neuroimaging techniques, other techniques such as non-invasive brain modulation have also been studied such as the transcranial magnetic stimulation (TMS) and the transcranial direct current stimulation (TDCS) in the involvement of cognitive functions in the area of calculation. This study aimed at investigating the impact of anodal TDCS applied over the left dorsolateral pre-frontal cortex (LDLPFC), right parietal cortex (RPC), left parietal cortex (LPC) while the subject was performing multiplication operations. Fifteen healthy volunteers, students of psychology, aged between 18 and 30 years old, have held subtests of the WAIS III and the multiplication task. The results showed that the anodal TDCS over the RPC improved the performance of men regarding the number of rightness. The influence of TDCS on volunteers who had worse performance took place not on complex tasks, but simple arithmetical ones. Besides, the influence of TDCS on volunteers who had better performance was in complex tasks, not simple ones. These results show that the effects of the TDCS on a certain function depend on the baseline values of each volunteer. The other stimulation conditions over the LDLPFC and LPC did not show any significant results. The TDCS can bring a beneficial effect in calculation tasks, depending on the intensity, polarity, time and location of stimulation, resulting in the increased or diminished cortex excitability. / Diferentes habilidades matemáticas vêm sendo investigadas ao longo dos tempos e, com o avanço das técnicas de neuroimagem, como PET (Tomografia por emissão de Pósitrons) e fMRI (ressonância magnética funcional) componentes centrais no processamento aritmético vêm sendo identificados em córtex parietal e pré-frontal. Além do avanço das técnicas de neuroimagem, outras técnicas como de modulação cerebral não-invasiva também vêm sendo estudadas, como Estimulação Magnética Transcraniana (EMT) e a Estimulação Transcraniana por Corrente Contínua (ETCC) no envolvimento das funções cognitivas com a área de cálculo. Este estudo teve como objetivo investigar o impacto da ETCC anódica quando aplicada no Córtex Pré-Frontal Dorsolateral (CPFDLE), Córtex Parietal Direito (CPD), Córtex Parietal Esquerdo (CPE) no desempenho em operações de multiplicação. Quinze voluntários saudáveis, estudantes de psicologia, com faixa etária entre 18 e 30 anos, realizaram subtestes do WAIS III e a tarefa de multiplicação. Os resultados desse estudo mostraram que a ETCC anódica aplicada no CPD melhorou o desempenho dos homens em relação ao número de acertos. A influência da ETCC em participantes com pior desempenho em Aritmética se deu em tarefa simples de multiplicação, mas não complexa, ao passo que a influência da ETCC em participantes com melhor desempenho em Aritmética se deu em tarefa complexa de multiplicação, mas não em simples. Tais resultados sinalizam que os efeitos da estimulação em uma determinada função dependem dos valores de linha de base de cada participante As outras condições de estimulações, CPFDLE e CPE não resultaram em efeitos significativos. A ETCC pode produzir um efeito benéfico em tarefas de cálculo, dependendo da intensidade, polaridade, tempo e localização da estimulação, podendo resultar em aumento ou diminuição na excitabilidade do córtex.

operação de multiplicação

Córtex Parietal Direito (CPD)

Córtex Parietal Esquerdo (CPE)

discalculia

multiplication

Right Parietal Cortex (RPC)

Left Parietal Cortex (LPC)

dyscalculia

CNPQ::CIENCIAS HUMANAS::PSICOLOGIA

Interactions interhémisphériques dans le contrôle du mouvement unilatéral

Beaulé-Bulman, Vincent

02 1900

L’exécution d’un mouvement purement unilatéral nécessite le recrutement d’un vaste réseau de régions corticales et sous-corticales, qu’il est possible de regrouper sous le terme de réseau de transformation non-miroir. Ce réseau doit contrer la tendance naturelle du cerveau à exécuter des mouvements de manière bilatérale et synchronisée, en miroir. Malgré l’efficacité de ce réseau, une activité miroir subtile est observée au niveau de la main qui doit demeurer inactive lors de mouvements unilatéraux chez l'humain en santé. Ce débordement moteur doit être inhibé grâce aux interactions interhémisphériques transitant par le corps calleux (CC), la plus grande commissure du cerveau servant de pont entre les hémisphères. Ainsi, la commande motrice peut être acheminée efficacement du cortex moteur primaire (M1) controlatéral à la main devant exécuter une l’action par l’entremise de la voie corticospianle (VCS). En plus du CC, le cortex prémoteur (CPM) joue un rôle important dans ce réseau puisque son interférence via la stimulation magnétique transcrânienne (SMT) entraîne une augmentation de l’activité miroir dans la main devant normalement demeurer inactive lors d’un mouvement unilatéral. Ainsi, toute modification dans ce réseau ou dans les processus interhémisphériques peut provoquer l’augmentation des mouvements miroirs (MM). À ce jour, aucune étude n’a tenté de moduler ces interactions pour réduire la présence de MM. Ainsi, les études cliniques et méthodologiques qui composent la présente thèse comportent deux objectifs principaux : (1) déterminer si la stimulation électrique transcrânienne à courant direct (SÉTcd) permet l'étude du réseau de transformation non-miroir, et si cette technique est en mesure de diminuer l’intensité des MM chez des individus en santé; (2) caractériser l'anatomie et le fonctionnement du cerveau dans deux populations d’individus porteurs de mutations génétiques affectant le développement de structures impliquées dans la latéralisation du mouvement, le CC et la VCS. L’article 1 décrit les assisses théoriques de la présente thèse grâce à une revue de la littérature portant sur les interactions interhémisphériques dans le mouvement unilatéral. L’article 2 suggère que la SÉTcd est un outil efficace dans l'étude du réseau de transformation non-miroir puisque le protocole de stimulation bilatérale a permis d’augmenter la présence et l’intensité des MM physiologiques (MMp) chez des individus en santé. Cependant, il n’a pas été possible de moduler à la baisse les MMp malgré différents protocoles de stimulation. Dans l’article 3, l'étude d’individus nés sans CC a mis en lumière une augmentation de l’épaisseur corticale au niveau des aires somatosensorielles (S1) et visuelles (V1) primaires, de même qu’au niveau de la représentation de la main dans M1. Ces différences demeurent toutefois légères considérant l’importance du CC. L’article 4 a démontré que les individus porteurs d’une mutation sur le gène DCC présentent un phénotype similaire à celui de porteurs d'une mutation sur le gène RAD51. Ces mutations affectent la migration de la VCS au niveau des pyramides. La VCS projette ainsi aux deux mains, causant des mouvements miroirs congénitaux (MMC). Cette pathologie est également accompagnée d’anomalies neurophysiologiques, telle qu’une inhibition interhémisphérique (IIH) réduite. En somme, les études composant cette thèse ont permis d’approfondir notre connaissance de certaines structures responsables de la latéralisation adéquate du mouvement, tout en décrivant de nouvelles méthodes pour en étudier le fonctionnement. / The execution of purely unilateral hand movements requires the recruitment of vast cortical and subcortical brain areas known as the non-mirroring network. This network counteracts the natural tendency of the brain, which tends to execute movements in a bilateral and synchronized manner. Despite the efficacy of the non-mirroring network in restricting motor output to contralateral limbs, subtle mirroring can be observed in the inactive hand of healthy individuals when performing a unilateral task. This motor overflow needs to be inhibited through interhemispheric projections coursing through the corpus callosum (CC), the biggest white matter tract of the brain. This mechanism makes it possible for motor commands originating from the primary motor cortex (M1) to reach the contralateral hand performing an action via the corticospinal tract (CST). It has been suggested that the premotor cortex (PMC) is an important component of the non-mirroring network since its interference with transcranial magnetic stimulation (TMS) enhances mirror activity in the inactive, mirror hand when a unilateral hand movement is performed. Indeed, modulation of parts of the non-mirroring network and interhemispheric projections can result in enhanced mirror movements (MM). It is not known whether specific interventions can decrease MM. The clinical and methodological studies that compose the present thesis have two main objectives: (1) Determine whether transcranial direct-current stimulation (tDCS) can be used to assess non-mirroring network function and reduce MM intensity in healthy individuals; (2) Characterize brain function and anatomy in two clinical populations presenting specific genetic mutations that affect the development of structures involved in the lateralization of movement (the CC and CST). Article 1 provides a theoretical basis for the present essay through a review of the literature pertaining to interhemispheric interactions in the production of unilateral movements. Article 2 shows that tDCS can be used to study the non-mirroring network since a bilateral stimulation protocol significantly increased the intensity of physiological MM (pMM) in healthy individuals. However, despite different stimulation protocols, it was not possible to reduce pMM. In article 3, anatomical MRIs performed in individuals born without a CC revealed increases in cortical thickness in primary somatosensory (S1) and visual (V1) cortex, as well as in the hand representation of M1. Taken together, however, the data suggest that anatomical differences between acallosal patients and healthy participants are relatively subtle considering the size and function of the CC. Article 4 showed that individuals presenting a mutation on the DCC gene display a phenotype similar to that of individuals presenting a mutation on the RAD51 gene. DCC mutations affect the crossing of the CST at the pyramidal level, resulting in a CST that projects to both hands simultaneously, causing congenital mirror movements (CMM). This pathological condition is accompanied by neurophysiological anomalies that include reduced interhemispheric inhibition (IHI). In summary, the studies comprised in the present thesis significantly increase our knowledge of the specific brain structures that enable the proper lateralization of movements. It also describes novel methods that can be used to investigate the non-mirroring network.

Mouvements miroirs

Mouvements miroirs congénitaux

Stimulation magnétique transcrânienne

Inhibition interhémisphérique

Corps calleux

Agénésie du corps calleux

Cortex prémoteur

Voie corticospinale

Gène DCC

Mirror movements

Congenital mirror movements

Transcranial magnetic stimulation

Transcranial direct-current stimulation

Interhemispheric inhibition

Corpus callosum

Agenesis of the corpus callosum

Premotor cortex

Corticospinal tract

DCC gene

Overactive Performance Monitoring in Obsessive-Compulsive Disorder: Unraveling Affective Processes and Modulation by Non-Invasive Brain Stimulation

Balzus, Luisa

15 July 2024

Eine überaktive Überwachung eigener Handlungen, welche sich in erhöhten Amplituden der error-related negativity (ERN) zeigt, scheint eine zentrale Rolle in der Pathophysiologie der Zwangsstörung zu spielen. Die funktionelle Bedeutsamkeit der ERN, die Mechanismen, die zur erhöhten ERN bei Zwangsstörungen beitragen und der Nutzen der ERN als Ansatzpunkt für Interventionen sind jedoch nicht vollständig geklärt. Diese Dissertation umfasst drei Studien, deren Ziel es war, diese Aspekte zu untersuchen. Studie 1 untersuchte die affektive Bewertung eigener Handlungen und zeigte, dass Handlungen automatisch affektive Valenz zugeschrieben wird. Darauf aufbauend untersuchte Studie 2, ob die ERN die Valenzbewertung von Fehlern widerspiegelt und ob eine veränderte Fehlerbewertung zur erhöhten ERN bei Zwangsstörungen beiträgt. Die Ergebnisse zeigten, dass Personen mit Zwangsstörung eine verminderte Valenzbewertung von Fehlern aufweisen, lieferten aber keine Hinweise auf einen Zusammenhang zwischen ERN und Fehlerbewertung, was nahelegt, dass eine veränderte Fehlerbewertung nicht der erhöhten ERN bei Zwangsstörungen zugrunde liegt. Studie 3 untersuchte, ob die ERN durch nicht-invasive Hirnstimulation modulierbar ist und lieferte Hinweise darauf, dass kathodale transkranielle Gleichstromstimulation über dem prä-supplementär motorischen Areal die ERN bei gesunden Personen und Personen mit Zwangsstörung reduziert. Zusammenfassend zeigen die Studien, dass die Handlungsüberwachung die affektive Bewertung eigener Handlungen umfasst und dass dieser Prozess bei Zwangsstörungen verändert ist; eine veränderte Fehlerbewertung scheint jedoch nicht der erhöhten ERN bei Zwangsstörungen zugrunde zu liegen. Diese Erkenntnisse tragen zum Verständnis neurokognitiver Veränderungen bei dieser Störung bei. Zudem zeigen die Ergebnisse, dass nicht-invasive Hirnstimulation das Potenzial hat, die ERN bei Personen mit Zwangsstörung abzuschwächen. Dies könnte den Weg für neue Interventionsstrategien ebnen. / Overactive performance monitoring, as indicated by increased amplitudes of the error-related negativity (ERN), is considered to play a central role in the pathophysiology of obsessive-compulsive disorder (OCD). However, the functional significance of the ERN, the mechanisms contributing to increased ERN amplitudes in OCD, and the utility of the ERN as a target for intervention are not fully understood. This dissertation comprises three studies that aimed to shed light on these questions. Study 1 examined the affective evaluation of own actions, revealing that affective valence is automatically assigned to actions. Building upon this, Study 2 investigated whether the ERN reflects the valence evaluation of errors and whether altered error evaluation contributes to heightened ERN magnitude in OCD. The results indicated that individuals with OCD show reduced valence evaluation of errors, yet they provided no evidence for an association between ERN and error evaluation, suggesting that altered error evaluation may not underlie elevated ERN magnitude in OCD. Study 3 investigated whether the ERN can be modulated by non-invasive brain stimulation, and provided tentative evidence that cathodal transcranial direct current stimulation over the presupplementary motor area reduces the ERN in healthy individuals and individuals with OCD. In summary, the studies provide evidence that performance monitoring encompasses the affective evaluation of own actions and demonstrate that this process is altered in OCD; however, aberrant error evaluation does not seem to underlie heightened ERN amplitudes in OCD. These insights contribute to the understanding of neurocognitive alterations in this disorder. Additionally, the results suggest that non-invasive brain stimulation has the potential to attenuate the ERN in individuals with OCD, which may pave the way for novel intervention strategies.

Zwangsstörung

Handlungsüberwachung

Fehlerverarbeitung

affektive Verarbeitung

EEG

ereigniskorrelierte Potentiale

fehlerbezogene Negativierung

nicht-invasive Hirnstimulation

transkranielle Gleichstromstimulation

obsessive-compulsive disorder

performance monitoring

error processing

affective processing

EEG

event-related potentials

error-related negativity

non-invasive brain stimulation

transcranial direct current stimulation

150 Psychologie

CU 3100

CZ 1360

YG 1704

ddc:150

A case for memory enhancement : ethical, social, legal, and policy implications for enhancing the memory

Muriithi, Paul Mutuanyingi

January 2014

The desire to enhance and make ourselves better is not a new one and it has continued to intrigue throughout the ages. Individuals have continued to seek ways to improve and enhance their well-being for example through nutrition, physical exercise, education and so on. Crucial to this improvement of their well-being is improving their ability to remember. Hence, people interested in improving their well-being, are often interested in memory as well. The rationale being that memory is crucial to our well-being. The desire to improve one’s memory then is almost certainly as old as the desire to improve one’s well-being. Traditionally, people have used different means in an attempt to enhance their memories: for example in learning through storytelling, studying, and apprenticeship. In remembering through practices like mnemonics, repetition, singing, and drumming. In retaining, storing and consolidating memories through nutrition and stimulants like coffee to help keep awake; and by external aids like notepads and computers. In forgetting through rituals and rites. Recent scientific advances in biotechnology, nanotechnology, molecular biology, neuroscience, and information technologies, present a wide variety of technologies to enhance many different aspects of human functioning. Thus, some commentators have identified human enhancement as central and one of the most fascinating subject in bioethics in the last two decades. Within, this period, most of the commentators have addressed the Ethical, Social, Legal and Policy (ESLP) issues in human enhancements as a whole as opposed to specific enhancements. However, this is problematic and recently various commentators have found this to be deficient and called for a contextualized case-by-case analysis to human enhancements for example genetic enhancement, moral enhancement, and in my case memory enhancement (ME). The rationale being that the reasons for accepting/rejecting a particular enhancement vary depending on the enhancement itself. Given this enormous variation, moral and legal generalizations about all enhancement processes and technologies are unwise and they should instead be evaluated individually. Taking this as a point of departure, this research will focus specifically on making a case for ME and in doing so assessing the ESLP implications arising from ME. My analysis will draw on the already existing literature for and against enhancement, especially in part two of this thesis; but it will be novel in providing a much more in-depth analysis of ME. From this perspective, I will contribute to the ME debate through two reviews that address the question how we enhance the memory, and through four original papers discussed in part three of this thesis, where I examine and evaluate critically specific ESLP issues that arise with the use of ME. In the conclusion, I will amalgamate all my contribution to the ME debate and suggest the future direction for the ME debate.

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