Search results for "Visual Cortex"

showing 10 items of 105 documents

Cathodal occipital tDCS is unable to modulate the sound induced flash illusion in migraine

2019

Migraine is a highly disabling disease characterized by recurrent pain. Despite an intensive effort, mechanisms of migraine pathophysiology still represent an unsolved issue. Evidence from both animal and human studies suggests that migraine is characterized by hyperresponsivity or hyperexcitability of sensory cortices, especially the visual cortex. This phenomenon, in turn, may affect multisensory processing. Indeed, migraineurs present with an abnormal, reduced, perception of the Sound-induced Flash Illusion (SiFI), a crossmodal illusion that relies on optimal integration of visual and auditory stimuli by the occipital visual cortex. Decreasing visual cortical excitability with transcrani…

genetic structuresAuramedia_common.quotation_subjectmedicine.medical_treatmentIllusionPainSensory systemSettore BIO/09 - Fisiologia050105 experimental psychologylcsh:RC321-571TDCS03 medical and health sciencesBehavioral Neuroscience0302 clinical medicinePerceptionmedicine0501 psychology and cognitive sciencesVisual cortexlcsh:Neurosciences. Biological psychiatry. NeuropsychiatryBiological PsychiatryMigrainemedia_commonCrossmodalTranscranial direct-current stimulationbusiness.industry05 social sciencesSound-induced Flash IllusionBrief Research Reportmedicine.diseasePsychiatry and Mental healthNeuropsychology and Physiological PsychologyVisual cortexmedicine.anatomical_structureNeurologyMigraineSettore MED/26 - NeurologiabusinessNeuroscience030217 neurology & neurosurgeryNeuroscienceMigraine tDCS Sound Induced Flash Illusion Shams Illusion Visual Cortex Pain
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O047. The sound-induced flash illusions reveal visual cortex hyperexcitability in cluster headache

2015

Objectives Pathophysiology of cluster headache (CH) is not wellknown. Although posterior hypothalamus has been suggested to play a pivotal role, evidence exists of a more diffuse involvement of the central nervous system including brainstem and cerebral cortex. In this regard, we recently observed increased motor cortical excitability in episodic CH patients both outside and inside bout [1]. The sound-induced flash illusions (SIFI) represent an example of multisensory integration, and provide a tool to indirectly explore the excitability state of the visual cortex [2]. SIFI are classified as “fission” and “fusion” illusions. When one visual stimulus (flash) is accompanied by two or more aud…

genetic structuresbusiness.industryCluster headachemedia_common.quotation_subjectCentral nervous systemcluster headacheIllusionClinical NeurologyMultisensory integrationGeneral MedicineStimulus (physiology)medicine.diseasemedicine.anatomical_structureVisual cortexAnesthesiology and Pain MedicineCerebral cortexTMSAnesthesiology and Pain Medicine; Neurology (clinical); cluster headache; TMSmedicineOral PresentationNeurology (clinical)BrainstembusinessNeurosciencemedia_commonThe Journal of Headache and Pain
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Anatomy of the visual system

2004

This brief systemic overview presents the anatomic details of the orbit with respect to imaging modalities CT and MR. The structures of the four orbital compartments, intrakonal and extrakonal space, globe and optic nerve are demonstrated in detail on different CT and MR views (axial, coronal, in soft tissue and bone window, T1-weighted, T2-weighted) with corresponding diagrams. The intracranial visual pathway is explained in detail with emphasis to the striate cortex and extrastriate visual association cortex, presented with diagrams and high-resolution MR.

genetic structuresbusiness.industrySoft tissueGeneral MedicineAnatomyMagnetic Resonance Imagingeye diseasesmedicine.anatomical_structureVisual cortexCortex (anatomy)Coronal planemedicineOptic nerveHumansVisual PathwaysRadiology Nuclear Medicine and imagingTomographyTomography X-Ray ComputedbusinessOrbitVisual CortexOrbit (anatomy)Optic radiationEuropean Journal of Radiology
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100 Years of Benham's Top in Colour Science

1995

For 100 years Benham's top has been a popular device demonstrating pattern-induced flicker colours (PIFCs). Results of early and recent investigations on PIFCs are reported and show that the phenomenon originates in phase-sensitive lateral interactions of modulated neural activity in the retina followed by additional spatial interactions in the visual cortex behind the locus of binocular fusion. Colour matches with normal colour stimuli indicate that S/(M + L) opponent neurons are involved. Dichromats do not find matching stimuli for all PIFCs. PIFCs may become useful in medical diagnosis. The phenomenon is interpreted as a side effect of a neural mechanism providing colour constancy under…

genetic structuresmedia_common.quotation_subjectMotion PerceptionIllusionExperimental and Cognitive PsychologyStimulus (physiology)Retina050105 experimental psychologyBenham's topFlicker Fusion03 medical and health sciencesNeural activity0302 clinical medicineRetinal Rod Photoreceptor CellsArtificial IntelligenceOrientationPsychophysicsmedicinePsychophysicsHumansVisual Pathways0501 psychology and cognitive sciencesVisual Cortexmedia_commonNeuronsRetinaCommunicationOptical Illusionsbusiness.industryFlicker05 social sciencesSensory SystemsOphthalmologymedicine.anatomical_structureVisual cortexRetinal Cone Photoreceptor CellsbusinessPsychologyNeuroscienceColor Perception030217 neurology & neurosurgeryPerception
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Generative adversarial networks with bio-inspired primary visual cortex for Industry 4.0

2022

Biologicalization (biological transformation) is an emerging trend in Industry 4.0 affecting digitization of manufacturing and related processes. It brings up the next generation of manufacturing technology and systems that extensively use biological and bio-inspired principles, materials, functions, structures and resources. This research is a contribution to the further convergence of computer and human vision for more robust and accurate automated object recognition and image generation. We present VOneGANs, a novel class of generative adversarial networks (GANs) with the qualitatively updated discriminative component. The new model incorporates a biologically constrained digital primary…

hybrid CNNneuroverkottekoälyIndustry 4.0BiologicalizationVOneGANGANkoneoppiminenprimary visual cortex V1General Earth and Planetary ScienceskonenäköteollisuustuotantotekniikkaGeneral Environmental Science
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ERPs to pitch changes: a result of reduced responses to standard tones in rabbits.

1996

EVENT-RELATED potentials (ERPs) were recorded in rabbits when pitch deviant tones occurred in a series of standard tones (oddball situation). In control recordings, the deviant tones were presented without the standard tones (deviant-alone situation). In the oddball situation, significant difference ERPs (deviant ERPs - standard ERPs) could be found in the hippocampal and cerebellar recordings but not in the visual cortex. All the ERPs to the deviant stimuli observed in the oddball situation were also present in the deviant-alone situation. The difference ERPs were therefore based on reduced responses to the standards. The results are discussed in the context of a mismatch negativity (MMN) …

medicine.medical_specialtyGeneral NeuroscienceSignificant differenceMismatch negativityContext (language use)CognitionAudiologyHippocampusElectric StimulationPitch DiscriminationElectrophysiologyCerebellar CortexVisual cortexmedicine.anatomical_structureAcoustic StimulationmedicineEvoked Potentials AuditoryAnimalsRabbitsPsychologyNeuroscienceVisual CortexNeuroreport
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Contribution of area 19 to the foreground-background-interaction of the cat: an analysis based on single cell recordings and behavioural experiments.

1990

The contribution of area 19 to pattern discrimination in the cat was studied by single cell recordings in this area and by behavioural experiments before and after bilateral lesions. In order to make quantitative comparisons between behavioural performance and that of cell systems, we introduced a new parameter that characterizes visual neurons by their signal-to-noise (S/N) thresholds. A structured visual background made up of Gaussian visual broadband noise which could be moved was superimposed on the signal (moving bars or outline patterns) and the S/N characteristics of the response were determined by varying the signal intensity. The detection performance of cats after bilateral lesion…

medicine.medical_specialtyMotion PerceptionStimulus (physiology)AudiologyElectrocardiographymedicineImage noiseForeground-backgroundAnimalsVision OcularMathematicsVisual CortexNeuronsBehavior AnimalBroadband noiseGeneral NeuroscienceBrainPattern discriminationElectrophysiologyElectrophysiologyVisual cortexmedicine.anatomical_structurePattern Recognition VisualCatsDetection performanceFemaleNeuroscienceMicroelectrodesPhotic StimulationExperimental brain research
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O046. Color vision and visual cortex excitability are impaired in episodic migraine. Simply coexisting or pathophysiologically related dysfunctions?

2015

Background and objectives Evidence of abnormal color vision processing in migraine comes from observation of positive symptoms during visual aura, effects of strong color contrast triggering attacks and of colored-spectacles reducing migraine frequency. Although the central or peripheral basis of such color misperception remains unclear, several authors reported a selective deficit of shortwavelength cones (S-cones) [1]. Sound-induced flash illusions (SIFI) are a simple way to describe visual distorsion induced by acoustic perception. SIFI critically depend on excitability of primary visual cortex (V1) as they are reduced by facilitatory anodal transcranial direct current stimulation (tDCS)…

medicine.medical_specialtyNeurologygenetic structuresAuraColor visionmedicine.medical_treatmentmedia_common.quotation_subjectIllusionClinical NeurologyAudiologymedicinemedia_commonTranscranial direct-current stimulationbusiness.industryGeneral Medicinemedicine.diseaseMigraine with auraMigraine Color Vision Migraine Patient Migraine With Aura. Migraine Without AuraAnesthesiology and Pain Medicine; Neurology (clinical)Visual cortexmedicine.anatomical_structureAnesthesiology and Pain MedicineMigraineOral PresentationNeurology (clinical)medicine.symptombusinessNeuroscienceThe Journal of Headache and Pain
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O069. Menstrual cycle affects cortical excitability differently in females with migraine and in healthy controls: a new perspective by cross modal so…

2015

The sound-induced flash illusions (SIFI) represent a valid tool to explore multimodal perception and are critically dependent on visual and acoustic cortical excitability [1, 2]. In a previous study [3], we observed a significant reduction of illusions in migraine patients with respect to healthy controls, probably due to a condition of visual cortex hyperexcitability. Aim of the present study was to evaluate SIFI perceptions in healthy women and patients with menstrual migraine and to describe the effects of cyclical change of steroid hormones and cortical responsiveness.

medicine.medical_specialtyNeurologygenetic structuresmedia_common.quotation_subjectIllusionClinical NeurologyM-PSI/02 - PSICOBIOLOGIA E PSICOLOGIA FISIOLOGICAMigraine Progesterone Estradiol Menstrual Cycle Visual Cortexmenstrual migrainePerceptionmedicineMenstrual cyclemedia_commonbusiness.industryPerspective (graphical)General Medicinecortical excitabilitymedicine.diseasesound induced flash illusionsVisual cortexmedicine.anatomical_structureAnesthesiology and Pain MedicineMigrainemenstrual migraine; cortical excitability; sound induced flash illusionsOral PresentationSettore MED/26 - Neurologiasense organsNeurology (clinical)businessNeuroscienceHormoneThe Journal of Headache and Pain
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Modulatory effects of low- and high-frequency repetitive transcranial magnetic stimulation on visual cortex of healthy subjects undergoing light depr…

2005

The aim of the present study was to explore further the effects of light deprivation (LD) on visual cortex excitability. Healthy subjects reporting reliable induction of phosphenes by occipital transcranial magnetic stimulation (TMS) underwent 60 min of complete LD. Phosphene threshold (PT) was measured before (T0), after 45 min (T1) and 60 min (T2) of LD, and then every 10 min after light re-exposure until recovery to T0 values. Repetitive TMS (rTMS) (at 1 or 10 Hz) was applied in separate sessions during the last 15 min of LD. PTs significantly decreased after 45 min of LD. rTMS differentially modified the effects of 60 min LD on PTs depending on stimulation frequency. One hertz rTMS did …

medicine.medical_specialtyPhysiologyPhotic Stimulationmedia_common.quotation_subjectmedicine.medical_treatmentStimulationNeurophysiologyAudiologyInhibitory postsynaptic potentialTranscranial magnetic stimulationVisual cortexmedicine.anatomical_structurePhosphenemedicineContrast (vision)PsychologyNeurosciencemedia_commonThe Journal of Physiology
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