Cognitive and Neurophysiological Models of Brain Asymmetry
Asymmetry is an inherent characteristic of brain organization in both humans and other vertebrate species, and is evident at the behavioral, neurophysiological, and structural levels. Brain asymmetry underlies the organization of several cognitive systems, such as emotion, communication, and spatial...
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Ocklenburg, Sebastian edt Cognitive and Neurophysiological Models of Brain Asymmetry Basel MDPI - Multidisciplinary Digital Publishing Institute 2022 1 electronic resource (246 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Asymmetry is an inherent characteristic of brain organization in both humans and other vertebrate species, and is evident at the behavioral, neurophysiological, and structural levels. Brain asymmetry underlies the organization of several cognitive systems, such as emotion, communication, and spatial processing. Despite this ubiquity of asymmetries in the vertebrate brain, we are only beginning to understand the complex neuronal mechanisms underlying the interaction between hemispheric asymmetries and cognitive systems. Unfortunately, despite the vast number of empirical studies on brain asymmetries, theoretical models that aim to provide mechanistic explanations of hemispheric asymmetries are sparse in the field. Therefore, this Special Issue aims to highlight empirically based mechanistic models of brain asymmetry. Overall, six theoretical and four empirical articles were published in the Special Issue, covering a wide range of topics, from human handedness to auditory laterality in bats. Two key challenges for theoretical models of brain asymmetry are the integration of increasingly complex molecular data into testable models, and the creation of theoretical models that are robust and testable across different species. English Medicine bicssc Neurosciences bicssc Silbo Gomero whistle language cerebral lateralization brain asymmetry dichotic listening task situs inversus heterotaxy visceral asymmetry vertebrate asymmetry human laterality left-right differentiation brain torque ciliopathy parrots footedness brain mass body mass nidopallium optic tectum optic tecta Wulst lateral asymmetry finite element method electrical field potential dipole moment power EEG bilateria cerebral asymmetry handedness language molecular asymmetry situs primary auditory cortex (A1) Doppler-shifted constant frequency (DSCF) mustached bat sex differences amplitude spectral temporal hemispheric specialization social communication frequency modulation (FM) neurodevelopment GWAS heritability quantitative trait polygenic scores avian brain brain asymmetries hemispheric lateralization ontogeny epigenetic neuronal plasticity visual system cerebral polymorphisms cerebral dominance DC model genetics polygenic model bilateral language functional modules language evolution lateralization MRI baboon development language areas neuroscience brain asymmetry laterality functional hemispheric asymmetries structural hemispheric asymmetries theoretical models 3-0365-4250-7 3-0365-4249-3 Güntürkün, Onur edt Ocklenburg, Sebastian oth Güntürkün, Onur oth |
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English |
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Güntürkün, Onur Ocklenburg, Sebastian Güntürkün, Onur |
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Güntürkün, Onur Ocklenburg, Sebastian Güntürkün, Onur |
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HerausgeberIn Sonstige Sonstige |
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Cognitive and Neurophysiological Models of Brain Asymmetry |
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Cognitive and Neurophysiological Models of Brain Asymmetry |
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Cognitive and Neurophysiological Models of Brain Asymmetry |
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Cognitive and Neurophysiological Models of Brain Asymmetry |
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Cognitive and Neurophysiological Models of Brain Asymmetry |
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Cognitive and Neurophysiological Models of Brain Asymmetry |
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Cognitive and Neurophysiological Models of Brain Asymmetry |
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cognitive and neurophysiological models of brain asymmetry |
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MDPI - Multidisciplinary Digital Publishing Institute |
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2022 |
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1 electronic resource (246 p.) |
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3-0365-4250-7 3-0365-4249-3 |
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Cognitive and Neurophysiological Models of Brain Asymmetry |
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