Relevant bibliographies by topics / Split-brain

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Split-brain'

Author: Grafiati
Published: 4 June 2021
Last updated: 31 July 2024

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Journal articles on the topic "Split-brain"

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Butler, Stuart. "Split brain." New Scientist 210, no. 2808 (April 2011): 31. http://dx.doi.org/10.1016/s0262-4079(11)60862-2.

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Weaver, Catherine. "IPE's Split Brain." New Political Economy 14, no. 3 (September 2009): 337–46. http://dx.doi.org/10.1080/13563460903087474.

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Xiao, Qian, and Onur Güntürkün. "Natural split-brain?" Neuroscience Letters 458, no. 2 (July 2009): 75–78. http://dx.doi.org/10.1016/j.neulet.2009.04.030.

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Lassonde, Maryse, and Catherine Ouimet. "The split‐brain." Wiley Interdisciplinary Reviews: Cognitive Science 1, no. 2 (February 24, 2010): 191–202. http://dx.doi.org/10.1002/wcs.36.

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Gazzaniga, Michael S. "The Split Brain Revisited." Scientific American 279, no. 1 (July 1998): 50–55. http://dx.doi.org/10.1038/scientificamerican0798-50.

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David, Anthony S. "The Split-Brain Syndrome." British Journal of Psychiatry 154, no. 3 (March 1989): 422–25. http://dx.doi.org/10.1192/bjp.154.3.422.

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A recurrent theme in psychiatry is the belated and often confused appreciation of advances in other relevant disciplines. An example of this is the “split-brain syndrome”, which provoked a Zeitgeist in the kindred field of neuropsychology and which has shaped notions of mental functioning impinging on the domain of psychiatry as well as philosophy, aesthetics, and education (Benson & Zaidel, 1985). The ‘left brain – right brain story’, while giving rise to much creative scientific enquiry, has also spawned some rather dubious psychophantasy. The purpose of this article is therefore to summarise this vast and growing body of work, to highlight areas of particular relevance, and to steer the reader away from the more wayward regions of speculation.
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TenHouten, W. D., K. D. Hoppe, J. E. Bogen, and D. O. Walter. "Alexithymia and the Split Brain." Psychotherapy and Psychosomatics 43, no. 4 (1985): 202–8. http://dx.doi.org/10.1159/000287880.

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TenHouten, W. D., K. D. Hoppe, J. E. Bogen, and D. O. Walter. "Alexithymia and the Split Brain." Psychotherapy and Psychosomatics 44, no. 1 (1985): 1–5. http://dx.doi.org/10.1159/000287886.

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TenHouten, W. D., K. D. Hoppe, J. E. Bogen, and D. O. Walter. "Alexithymia and the Split Brain." Psychotherapy and Psychosomatics 44, no. 2 (1985): 89–94. http://dx.doi.org/10.1159/000287898.

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TenHouten, W. D., K. D. Hoppe, J. E. Bogen, and D. O. Walter. "Alexithymia and the Split Brain." Psychotherapy and Psychosomatics 44, no. 3 (1985): 113–21. http://dx.doi.org/10.1159/000287902.

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Dissertations / Theses on the topic "Split-brain"

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Lin, Chan. "Visual Specializations in the Brain of the Split-Eyed Whirligig Beetle Dineutus sublineatus." Diss., The University of Arizona, 2014. http://hdl.handle.net/10150/333376.

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Whirligig beetles are gregarious aquatic insects living on the water surface. They are equipped with two separate pairs of compound eyes, an upper aerial pair and a lower aquatic pair, but little is known about how their brains are organized to serve such an unusual arrangement. In the first study of this dissertation, I describe the neural organization of their primary visual centers (the optic lobes) of the larval and adult whirligig beetle Dineutus sublineatus. I show that the divided compound eyes of adult beetles supply elaborate optic lobes in the brain that are also split into an upper and a lower half, each optic lobe comprising an upper and lower lamina, an upper and lower medulla, and a partly split bilobed lobula. The exception is the fourth neuropil, the lobula plate. Studies of their development show that the lobula plate Anlagen serving the upper and lower eyes develop at different rates and thus different developmental stages. The upper lobula plate develops precociously in the larva and is thought to process information that enables subaquatic ambush hunting. During metamorphosis the upper lobula plate degenerates and is lost as are the larval stemmatal eyes supplying it. The lower lobula plate develops later, during metamorphosis, and is present in the imago where it is supplied by the lower compound retina. By analogy with dipteran lobula plates it is proposed to support subaquatic locomotory balance. In the subsequent study, I describe the neural organization of the whirligig beetle’s mushroom bodies, a pair of prominent brain centers in the forebrain that are best known for their roles in higher olfactory processing and olfactory-based learning and memory. I found that unlike other insects examined so far, the calyces of the whirligig beetle’s mushroom bodies are exclusively supplied by visual neurons from optic lobe neuropils serving the pair of upper aerial compound eyes, thereby showing a complete modality switch from olfaction to vision in this brain center. These findings, along with multiple evidence from hymenopteran insects and cockroaches, suggest that insect mushroom bodies are not merely olfactory-related but may be involved in visual tasks, such as memory of place. In the last study, I describe experiments to demonstrate that a group of D. sublineatus is able to learn their location with respect to visual cues provided from above the water line, and simultaneously establish and maintain their relative positions with each other within the group. These results provide an explanation as to how a collective, such as several hundred whirligig beetles, can maintain cohesion and remember landmarks that "anchor" the collective at a particular location in a pond or stream. Using techniques in comparative neuroanatomy, this dissertation documents visual specializations of an insect brain that has evolved to suit a unique group-living lifestyle on the water surface. In addition, the spatial learning paradigm described in the third study provides an essential assay for future lesion studies to determine if mushroom bodies are indeed required for visually mediated spatial learning and memory.
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Åström, Frida. "The Left Hemisphere Interpreter and Confabulation : a Comparison." Thesis, Högskolan i Skövde, Institutionen för kommunikation och information, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:his:diva-5232.

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The left hemisphere interpreter refers to a function in the left hemisphere of the brain that search for and produce causal explanations for events, behaviours and feelings, even though no such apparent pattern exists between them. Confabulation is said to occur when a person presents or acts on obviously false information, despite being aware that they are false. People who confabulate also tend to defend their confabulations even when they are presented with counterevidence. Research related to these two areas seems to deal with the same phenomenon, namely the human tendency to infer explanations for events, even if the explanations have no actual bearing in reality. Despite this, research on the left hemisphere interpreter has progressed relatively independently from research related to the concept of confabulation. This thesis has therefore aimed at reviewing each area and comparing them in a search for common relations. What has been found as a common theme is the emphasis they both place on the potentially underlying function of the interpreter and confabulation. Many researchers across the two fields stress the adaptive and vital function of keeping the brain free from both contradiction and unpredictability, and propose that this function is served by confabulations and the left hemisphere interpreter. This finding may provide a possible opening for collaboration across the fields, and for the continued understanding of these exciting and perplexing phenomena.
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Oliveira, Rômerson Deiny. "Especificação, desenvolvimento e prototipagem de um protocolo de alta disponibilidade em FPGA." Universidade Federal de Uberlândia, 2013. https://repositorio.ufu.br/handle/123456789/12549.

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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior
The increasing number of users connected to the Internet led it to become a major vehicle for personal and business transactions in the last years. Nevertheless, its unavailability can result in losses, including nancial ones, for its users. Despite of all eorts to keep the network availability nearest to 100% of the time, reasearches have shown that the existing protocols have two algorithmic problems caused by message losses or disruption, named No Brain and Split Brain, which attack the network availability and lead it to crash. Thus, those researches propose that such protocols must be changed considering the possibility of message loss. In this way, this research species and implements the High Availability Router Protocol (HARP), which is a new high availability protocol that operates in stateless environments. Furthermore, a validation system is presented to test high availability protocols for the sake of link failures. The specication concerns to environment assumptions, services, vocabulary, format and procedure rules specied by nite state machine, moreover, the specication is complemented with a TLA+ formal description regarding concurrent systems context intending to ratify the HARP good properties. The HARP implementation consists of its prototyping on FPGA and the validation system based on a System-on-Programmable Chip (SOPC).
O crescente número de usuários conectados à Internet favoreceu que ela se tornasse um dos principais veículos de transações pessoais e empresariais nos últimos anos. Entretanto, sua indisponibilidade pode acarretar perdas, inclusive de caráter nanceiro, aos seus usuários. Apesar dos esforços empenhados para manter a rede 100% do tempo dispon ível, pesquisas apontam que os protocolos de alta disponibilidade apresentam problemas algorítmicos conhecidos como Acéfalo e Cérebro Partido, que são causados por perdas e erros de mensagens e levam à indisponibilidade da rede. Tais pesquisas propõem, então, que alterações sejam feitas nas especicações dos protocolos existentes considerando que mensagens podem não chegar a seus destinos conforme previsto. Em virtude disso, este trabalho especica e implementa um novo protocolo de alta disponibilidade, chamado High Availability Router Protocol (HARP), cuja operação acontece em ambientes sem preservação de estado. Adicionalmente, apresenta-se um sistema de validação para protocolos de alta disponibilidade que os testam segundo falhas nos canais de comunicação. A especicação do HARP concerne ao ambiente de operação, serviços, vocabulário, formato de mensagens e regras de procedimento especicadas através de máquinas de estados - nitos. Ademais, a especicação é complementada pela descrição formal em TLA+ e sua vericação no contexto de sistemas concorrentes para raticar as boas propriedades do protocolo. A implementação do HARP consiste da prototipagem em FPGA e o sistema de validação é baseado em um System on a Programmable Chip.
Mestre em Ciência da Computação
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Brito, Tiago Machado de. "The incoherent mind : analysis of mind, brain and split-brain data in search of a countable number of minds." Master's thesis, 2017. http://hdl.handle.net/10451/35581.

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Split-brains, patients who have undergone a corpus callosotomy – the severing of the corpus callosum – have been targets of study for several decades, due to strange behavioral phenomena that they reveal. In experimental conditions, in which different information can be exclusively provided to each hemisphere of the brain, they appear to be able to act as if two distinct persons. This phenomena have left many investigators from various areas of research in awe, unable to explain how such strange occurrences could originate from a brain much like our own. However, here I argue that, not only can a normal brain account for the split-brain phenomena (given their structural changes), but that analyzing the problem from a different standpoint – that of considering mental incoherencies – we can start seeing mental coherence, not as a necessary property of a mind, but as a necessary property of a set of conscious states; and since split-brain patients seem to have a partially incoherent consciousness, where an incoherent conscious stream arises under experimental situations, no single or set of co-conscious conscious states in each hemisphere reveals incoherencies, but rather, the mind as a whole does. As such, and in accordance with the Bayesian Brain theory, I stand in the present work for an incoherent, single-mind hypothesis to the question of how many minds a split-brain patient has – a question that has closely followed the split-brain debate since its birth.
Split-Brains, pacientes a quem foi efetuada uma calosotomia – o seccionamento do corpo caloso – têm sido alvos de estudos há várias décadas devido a estranhos fenómenos comportamentais por eles revelados. Em condições experimentais, onde diferentes informações podem ser exclusivamente comunicadas a cada hemisfério do cérebro, estes pacientes aparentam ser capazes de agir como duas pessoas distintas. Este fenómeno deixou inúmeros investigadores de diversas áreas de estudo perplexos, incapazes de explicar em pleno como poderiam comportamentos tão curiosos surgir de um cérebro tão semelhante ao nosso. Nesta dissertação proponho que, não só um cérebro como o nosso tem o potencial para revelar os fenómenos manifestados por split-brains (dadas as devidas alterações estruturais), proponho também que ao analisar o problema por um outro prisma – através da consideração de incoerências mentais – podemos começar a considerar coerência mental, não como uma propriedade necessária à existência de uma mente, mas antes como uma propriedade necessária à existência de um conjunto de estados de consciência; e visto que split-brains parecem ter uma consciência parcialmente incoerente, onde experiencias conscientes incoerentes surgem ao serviço de um mesmo individuo em condições experimentais, nenhum conjunto de estados de consciência gerado por cada hemisfério revela incoerências, mas sim a mente enquanto um todo. Deste modo, e conforme a teoria do Cérebro Bayesiano, eu defendo na presente dissertação a hipótese da possibilidade de uma mente incoerente para a questão de quantas mentes podemos considerar um split-brain ter – questão esta que tem seguido o debate de fenómenos split-brain desde a sua origem.
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LAURO, GROTTO ROSAPIA. "Semantic memory impairments: models and experimental investigations." Doctoral thesis, 1997. http://hdl.handle.net/2158/540674.

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Il lavoro di tesi mira a documentare la validità di un modello multimodulare della memoria semantica attraverso indagini neuropsicologiche e studi di computazione neurale. L'elaborato è diviso in tre parti: nella prima parte viene presentato uno studio neuropsicologico di caso singolo condotto su una paziente con probabile A.D. presso il Dipartimento di Scienze Neurologiche e Psichiatriche della Università degli Studi di Firenze; lo studio mira a documentare la dissociazione tra memoria semantica verbale e visiva. Nel secondo studio, realizzato presso il Dipartimento di Fisiologia e Scienze della Visione della Università degli Studi di Verona, la distribuzione emisferica dei contenuti della memoria semantica visiva è indagata attraverso un compito di riconoscimento visivo di stimoli complessi in pazienti split brain. Nella terza parte è presentato uno studio analitico e una simulazione numerica condotta con una rete neurale multimodulare ad attrattori.
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Friesen, Lowell Keith. "The structure of consciousness." 2013. https://scholarworks.umass.edu/dissertations/AAI3603085.

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In this dissertation, I examine the nature and structure of consciousness. Conscious experience is often said to be phenomenally unified, and subjects of consciousness are often self-conscious. I ask whether these features necessarily accompanyconscious experience. Is it necessarily the case, for instance, that all of a conscious subject's experiences at a time are phenomenally unified? And is it necessarily the case that subjects of consciousness are self-conscious whenever they are conscious? I argue that the answer to the former is affirmative and the latter negative. In the first chapter, I set the stage by distinguishing phenomenal unity from other species of conscious unity. A pair of conscious states is phenomenally unified if they are experienced together as part of a single experience that encompasses them both. The Unity Thesis is formulated using the notion of a maximal state of consciousness. In the second chapter, I attempt to precisify this notion in a way that does not pre-emptively decide the debate over the Unity Thesis. In informal terms, a maximal state of consciousness is a sum of conscious states that are i) simultaneous, ii) have the same subject, and iii) all have a conjoint phenomenology. I call this the Consensus View. In chapter three, I consider a recent attempt by Bayne to account for the split-brain data in a way that does not attribute two streams of consciousness to them. I close the chapter by presenting the rough outline of an interpretation of the split-brain data that is consistent with both the Unity Thesis and the split-brain data. In chapter four, I turn from defending the Unity Thesis to examining an attempt to account for conscious unity. Rosenthal has offered a theory of conscious unity as an extension of his higher-order theory of consciousness. I consider his account of conscious unity in light of a well-known objection to his theory: the (Representational) Mismatch Objection. In chapter five, the discussion turns from the unity of consciousness to self-consciousness. The question that is considered in this and the last chapter is the question whether conscious experience is necessarily accompanied by self-consciousness. The affirmative answer to this question I call the Ubiquity Thesis. I spend some time distinguishing robust conceptions of self-consciousness from minimal conceptions of self-consciousness. In the sixth and final chapter, I take up a contemporary defence of the Ubiquity Thesis. Kriegel, a higher-order theorist like Rosenthal, has argued that every conscious state is conscious in virtue of the fact that it represents itself. This self-representation is understood as a kind of self-consciousness and, thus, his theory can be seen as affirming the Ubiquity Thesis. (Abstract shortened by UMI.)
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Ptito, Alexia. "Assymétries cérébrales lors de traitement de l’information visuelle rapide : investigations chez une population clinique et neurologiquement saine." Thèse, 2009. http://hdl.handle.net/1866/5132.

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Le phénomène de Clignement Attentionnel (Attentional Blink, AB), fait référence à une diminution transitoire du rapport exact d’une deuxième cible (C2) si celle-ci est présentée trop tôt après une première cible (C1) lors d’une présentation visuelle sérielle rapide (rapid serial visual presentation, RSVP), et ce, quand les deux cibles doivent être rapportées. Cette étude a examiné l’existence possible d’asymétries hémisphèriques dans le traitement attentionnel ainsi que l’éventualité que la présentation de cibles à deux hémisphères différents puisse diminuer le AB chez des participants neurologiquement sains et l’abolir dans le cas d’un patient callosotomisé. Pour ce faire, nous avons employé un paradigme modifié du AB dans lequel les cibles pouvaient apparaître dans n’importe quelle de quatre RSVP, une dans chaque quadrant du champ visuel, pour permettre des essais dans lesquels les deux cibles puissent être présentées au même hémisphère et d’autres où chaque cible était présentée à un hémisphère différent. Bien que nous n’ayons trouvé aucune diminution de l’effet AB lors de présentation inter-hémisphérique, dans les deux populations à l’étude, le taux de bonnes réponses globales à la deuxième cible était plus élevé quand les cibles étaient présentées à des hémisphères différents. Nous avons également trouvé un avantage de l’hémisphère gauche chez le patient callosotomisé.
The Attentional Blink (AB) refers to a transient impairment in the accurate report of a second target (T2) if it closely follows the presentation of a first target (T1) in a rapid serial visual presentation (RSVP), when both targets must be reported. This study investigated both the possibility of hemispheric asymmetries of attentional processes as well as the possibility that presenting targets to different hemispheres could diminish the AB in neurologically intact participants and abolish it in the case of a split-brain patient. To do so, a modified AB paradigm was used in which targets could appear in any of four simultaneous RSVP streams, one in each quadrant of the visual field, so as to have trials in which both targets were presented to the same hemispheres and trials in which targets were presented to different hemispheres. Although no evidence of a diminished AB was observed by presenting targets to separate hemispheres, in both neurologically intact individuals and the split-brain patient, overall accuracy was higher when targets were presented to separate hemispheres. A left hemisphere advantage was only observed in the split-brain patient.
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Rosa, Christine. "Spécialisation hémisphérique de la reconnaissance de sa propre voix." Thèse, 2008. http://hdl.handle.net/1866/6367.

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Ouimet, Catherine. "Investigation des fonctions du corps calleux par l'étude du transfert interhémisphérique de l'information visuelle et motrice chez les individus normaux et callosotomisés." Thèse, 2010. http://hdl.handle.net/1866/4408.

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Le principal rôle du corps calleux est d’assurer le transfert de l’information entre les hémisphères cérébraux. Du support empirique pour cette fonction provient d’études investiguant la communication interhémisphérique chez les individus à cerveau divisé (ICD). Des paradigmes expérimentaux exigeant une intégration interhémisphérique de l’information permettent de documenter certains signes de déconnexion calleuse chez ces individus. La présente thèse a investigué le transfert de l’information sous-tendant les phénomènes de gain de redondance (GR), de différence croisé– non-croisé (DCNC) et d’asynchronie bimanuelle chez les ICD et les individus normaux, et a ainsi contribué à préciser le rôle du corps calleux. Une première étude a comparé le GR des individus normaux et des ICD ayant subi une section partielle ou totale du corps calleux. Dans une tâche de détection, le GR consiste en la réduction des temps de réaction (TR) lorsque deux stimuli sont présentés plutôt qu’un seul. Typiquement, les ICD présentent un GR beaucoup plus grand (supra-GR) que celui des individus normaux (Reuter-Lorenz, Nozawa, Gazzaniga, & Hughes, 1995). Afin d’investiguer les conditions d’occurrence du supra-GR, nous avons évalué le GR en présentation interhémisphérique, intrahémisphérique et sur le méridien vertical, ainsi qu’avec des stimuli requérant une contribution corticale différente (luminance, couleur équiluminante ou mouvement). La présence d’un supra-GR chez les ICD partiels et totaux en comparaison avec celui des individus normaux a été confirmée. Ceci suggère qu’une section antérieure du corps calleux, qui perturbe le transfert d’informations de nature motrice/décisionnelle, est suffisante pour produire un supra-GR chez les ICD. Nos données permettent aussi d’affirmer que, contrairement au GR des individus normaux, celui des ICD totaux est sensible aux manipulations sensorielles. Nous concluons donc que le supra-GR des ICD est à la fois attribuable à des contributions sensorielles et motrices/décisionnelles. Une deuxième étude a investigué la DCNC et l’asynchronie bimanuelle chez les ICD et les individus normaux. La DCNC réfère à la soustraction des TR empruntant une voie anatomique « non-croisée » aux TR empruntant une voie anatomique « croisée », fournissant ainsi une estimation du temps de transfert interhémisphérique. Dans le contexte de notre étude, l’asynchronie bimanuelle réfère à la différence de TR entre la main gauche et la main droite, sans égard à l’hémichamp de présentation. Les effets de manipulations sensorielles et attentionnelles ont été évalués pour les deux mesures. Cette étude a permis d’établir une dissociation entre la DCNC et l’asynchronie bimanuelle. Précisément, les ICD totaux, mais non les ICD partiels, ont montré une DCNC significativement plus grande que celle des individus normaux, alors que les deux groupes d’ICD se sont montrés plus asynchrones que les individus normaux. Nous postulons donc que des processus indépendants sous-tendent la DCNC et la synchronie bimanuelle. De plus, en raison de la modulation parallèle du GR et de l’asynchronie bimanuelle entre les groupes, nous suggérons qu’un processus conjoint sous-tend ces deux mesures.
The main role of the corpus callosum is the transfer of information across the cerebral hemispheres. Evidence for this function comes from studies investigating the interhemispheric communication of split-brain individuals. Specific experimental paradigms requiring interhemispheric integration have enabled the documentation of disconnection symptoms for split-brain individuals. Along those lines, the present thesis investigated the transfer of information underlying the redundant target effect (RTE), the crossed-uncrossed difference (CUD), and bimanual asynchrony of normal and split-brain individuals, and therefore contributed to further our knowledge of the role of the corpus callosum. The first study investigated the RTE of partial split-brain (anterior section), total split-brain, and normal individuals. The RTE occurs when reaction times (RTs) to multiple stimuli are faster than RTs to a single stimulus. Split-brain individuals typically exhibit an enhanced RTE as compared to normal individuals (Reuter-Lorenz et al., 1995). In order to investigate the conditions in which the enhanced RTE occurs, we tested the RTE in interhemispheric, intrahemispheric, and midline conditions, as well as with stimuli requiring different cortical contributions (stimuli defined by luminance, equiluminant colour, or motion). Our data supported the occurrence of an enhanced RTE for partial and total split-brain individuals as compared to normal individuals. This suggests that an anterior section of the corpus callosum, which disrupts the transfer of motor/decisional information, suffices to produce an enhanced RTE in split-brain individuals. In addition, in contrast with the RTE of normal individuals, that of total split-brain individuals was modulated as a function of a sensory manipulation. We therefore conclude that the enhanced RTE of split-brain individuals is attributable to both sensory and motor/decisional contributions. The second study investigated the CUD and the bimanual asynchrony of normal, partial split-brain, and total split-brain individuals. The CUD refers to the subtraction of mean RTs of uncrossed hand-visual hemifield combination from mean RTs of crossed hand-visual hemifield combination. In the context of our study, the asynchrony reflected the difference between the left-hand RT and the right-hand RT on each trial, irrespective of the side of presentation. The effect of sensory and attentional manipulations was assessed for both measures. Our study contributed to dissociate the CUD and bimanual asynchrony. Specifically, total split-brain individuals, but not partial split-brain individuals, showed a larger CUD than normal individuals, whereas both split-brain groups were less synchronous than normal individuals. We therefore postulate that independent processes underlie the CUD and bimanual asynchrony. Furthermore, the parallel modulation of the RTE and bimanual asynchrony across groups suggest common underlying processes for these two measures.
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Books on the topic "Split-brain"

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Maryse, Lassonde, Jeeves Malcolm A. 1926-, and International Brain Research Organization, eds. Callosal agenesis: A natural split brain? New York: Plenum Press, 1994.

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Lieb, Kathrin. Split-Brain-Forschung und ihre Folgen: Medizin, Geschichte, Populärwissenschaft. Stuttgart: Franz Steiner Verlag, 2012.

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Erika, Erdmann, ed. A mind for tomorrow: Facts, values, and the future. Westport, Conn: Praeger, 2000.

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Erdmann, Erika. Beyond a world divided: Human values in the brain-mind science of Roger Sperry. Boston: Shambhala, 1991.

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Herrmann, Ned. The Creative brain. [S.L.]: [S.N.], 1991.

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1928-, Benson D. Frank, and Zaidel Eran, eds. The Dual brain: Hemispheric specialization in humans. New York: Guilford Press, 1985.

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1913-, Sperry Roger Wolcott, and Trevarthen Colwyn, eds. Brain circuits and functions of the mind: Essays in honor of Roger W. Sperry. Cambridge: Cambridge University Press, 1990.

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Zimbardo, Philip G. Discovering psychology: Disc 7, programs 25-26. S. Burlington, VT: Annenberg Media, 2001.

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Psyche and the split-brain. Lanham: University Press of America, 1994.

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Jeeves, Malcolm A. Callosal Agenesis: A Natural Split Brain? Springer, 2012.

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Book chapters on the topic "Split-brain"

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Mendoza, John E. "Split-Brain." In Encyclopedia of Clinical Neuropsychology, 3268–70. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-57111-9_691.

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Mendoza, John E. "Split-Brain." In Encyclopedia of Clinical Neuropsychology, 1–3. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-56782-2_691-2.

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J. Holcomb, Matthew, and Raymond S. Dean. "Split Brain." In Encyclopedia of Child Behavior and Development, 1431. Boston, MA: Springer US, 2011. http://dx.doi.org/10.1007/978-0-387-79061-9_2771.

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Mendoza, John E. "Split-Brain." In Encyclopedia of Clinical Neuropsychology, 2359–60. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-0-387-79948-3_691.

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Prete, Giulia, and Luca Tommasi. "Split-Brain Patients." In Encyclopedia of Evolutionary Psychological Science, 1–5. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-16999-6_2764-1.

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Colvin, Mary Molly, Nicole L. Marinsek, Michael B. Miller, and Michael S. Gazzaniga. "Split-brain Cases." In The Blackwell Companion to Consciousness, 634–47. Chichester, UK: John Wiley & Sons, Ltd, 2017. http://dx.doi.org/10.1002/9781119132363.ch45.

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Joseph, R. "The Split Brain." In The Right Brain and the Unconscious, 91–106. Boston, MA: Springer US, 1992. http://dx.doi.org/10.1007/978-1-4899-5996-6_6.

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Colvin, Mary K., and Michael S. Gazzaniga. "Split-Brain Cases." In The Blackwell Companion to Consciousness, 181–93. Malden, MA, USA: Blackwell Publishing, 2007. http://dx.doi.org/10.1002/9780470751466.ch15.

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Prete, Giulia, and Luca Tommasi. "Split-Brain Patients." In Encyclopedia of Evolutionary Psychological Science, 7890–95. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-319-19650-3_2764.

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Rogers, Steven A., and Deborah A. Lowe. "Split-Brain Research." In Encyclopedia of Sciences and Religions, 2207. Dordrecht: Springer Netherlands, 2013. http://dx.doi.org/10.1007/978-1-4020-8265-8_200166.

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Conference papers on the topic "Split-brain"

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Curran, Bill. "Split-brain model (abstract only)." In the 19th annual conference. New York, New York, USA: ACM Press, 1991. http://dx.doi.org/10.1145/327164.328806.

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Garvey, Gregory P. "The split-brain human computer user interface." In the third conference. New York, New York, USA: ACM Press, 1999. http://dx.doi.org/10.1145/317561.317574.

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Gazzaniga, Michael. "Keynote lecture 1: Plasticity following split-brain surgery." In 2015 International Conference on Virtual Rehabilitation (ICVR). IEEE, 2015. http://dx.doi.org/10.1109/icvr.2015.7358562.

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Ulutas, Tolga, Muhammed Ali Nur Oz, Muharrem Mercimek, and Ozgur Turay Kaymakci. "Split-Brain Autoencoder Approach for Surface Defect Detection." In 2020 International Conference on Electrical, Communication, and Computer Engineering (ICECCE). IEEE, 2020. http://dx.doi.org/10.1109/icecce49384.2020.9179311.

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Zhang, Richard, Phillip Isola, and Alexei A. Efros. "Split-Brain Autoencoders: Unsupervised Learning by Cross-Channel Prediction." In 2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR). IEEE, 2017. http://dx.doi.org/10.1109/cvpr.2017.76.

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Garvey, Gregory P. "Blasey Ford v Kavanaugh & The Split-Brain Interface." In 2019 IEEE Games, Entertainment, Media Conference (GEM). IEEE, 2019. http://dx.doi.org/10.1109/gem.2019.8811538.

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Liang, Xiao, Di Dong, Hui Hui, Liwen Zhang, Mengjie Fang, and Jie Tian. "Brain vascular image enhancement based on gradient adjust with split Bregman." In SPIE BiOS, edited by Daniel L. Farkas, Dan V. Nicolau, and Robert C. Leif. SPIE, 2016. http://dx.doi.org/10.1117/12.2211627.

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Stojnic, Vladan, and Vladimir Risojevic. "Evaluation of Split-Brain Autoencoders for High-Resolution Remote Sensing Scene Classification." In 2018 International Symposium ELMAR. IEEE, 2018. http://dx.doi.org/10.23919/elmar.2018.8534634.

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Sudre, Carole H., M. Jorge Cardoso, and Sébastien Ourselin. "Bilayered anatomically constrained split-and-merge expectation maximisation algorithm (BiASM) for brain segmentation." In SPIE Medical Imaging, edited by Sebastien Ourselin and Martin A. Styner. SPIE, 2014. http://dx.doi.org/10.1117/12.2041690.

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Rintalan, Christopher J., and Laura L. Liptai. "Experimental Analysis of Pediatric Brain Injury Causation Utilizing Scientifically Proven Quantitative Measures." In ASME 2004 International Mechanical Engineering Congress and Exposition. ASMEDC, 2004. http://dx.doi.org/10.1115/imece2004-59605.

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Abstract:
On February 19, 2003, a 3-year-old child was sent downstairs to retrieve a toy. Shortly after, her guardian heard a noise and ran to find her lying at the bottom of the split-foyer stairs. She was rushed to the hospital immediately by paramedics. She died five days later and the cause of death determined was brain herniation due to anoxic/ischemic brain injury. The objective of this research was to determine which fall scenario(s) matched the trauma sustained utilizing scientifically proven quantitative measures.
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