BIOMAT Database Logo BIOMAT Database Logo

Neural network for Braille reading and the speech-reading convergence in the blind: Similarities and differences to visual reading. 2021

Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
Laboratory of Language Neurobiology, Nencki Institute of Experimental Biology, Polish Academy of Sciences, Warsaw, Poland. Electronic address: g.dziegiel@nencki.edu.pl.

All writing systems represent units of spoken language. Studies on the neural correlates of reading in different languages show that this skill relies on access to brain areas dedicated to speech processing. Speech-reading convergence onto a common perisylvian network is therefore considered universal among different writing systems. Using fMRI, we test whether this holds true also for tactile Braille reading in the blind. The neural networks for Braille and visual reading overlapped in the left ventral occipitotemporal (vOT) cortex. Even though we showed similar perisylvian specialization for speech in both groups, blind subjects did not engage this speech system for reading. In contrast to the sighted, speech-reading convergence in the blind was absent in the perisylvian network. Instead, the blind engaged vOT not only in reading but also in speech processing. The involvement of the vOT in speech processing and its engagement in reading in the blind suggests that vOT is included in a modality independent language network in the blind, also evidenced by functional connectivity results. The analysis of individual speech-reading convergence suggests that there may be segregated neuronal populations in the vOT for speech processing and reading in the blind.

UI MeSH Term Description Entries
D008085 Lipreading The process by which an observer comprehends speech by watching the movements of the speaker's lips without hearing the speaker's voice. Speechreading,Lip Reading,Lip Readings,Lipreadings,Reading, Lip,Readings, Lip,Speechreadings
D008279 Magnetic Resonance Imaging Non-invasive method of demonstrating internal anatomy based on the principle that atomic nuclei in a strong magnetic field absorb pulses of radiofrequency energy and emit them as radiowaves which can be reconstructed into computerized images. The concept includes proton spin tomographic techniques. Chemical Shift Imaging,MR Tomography,MRI Scans,MRI, Functional,Magnetic Resonance Image,Magnetic Resonance Imaging, Functional,Magnetization Transfer Contrast Imaging,NMR Imaging,NMR Tomography,Tomography, NMR,Tomography, Proton Spin,fMRI,Functional Magnetic Resonance Imaging,Imaging, Chemical Shift,Proton Spin Tomography,Spin Echo Imaging,Steady-State Free Precession MRI,Tomography, MR,Zeugmatography,Chemical Shift Imagings,Echo Imaging, Spin,Echo Imagings, Spin,Functional MRI,Functional MRIs,Image, Magnetic Resonance,Imaging, Magnetic Resonance,Imaging, NMR,Imaging, Spin Echo,Imagings, Chemical Shift,Imagings, Spin Echo,MRI Scan,MRIs, Functional,Magnetic Resonance Images,Resonance Image, Magnetic,Scan, MRI,Scans, MRI,Shift Imaging, Chemical,Shift Imagings, Chemical,Spin Echo Imagings,Steady State Free Precession MRI
D008297 Male Males
D008875 Middle Aged An adult aged 45 - 64 years. Middle Age
D009415 Nerve Net A meshlike structure composed of interconnecting nerve cells that are separated at the synaptic junction or joined to one another by cytoplasmic processes. In invertebrates, for example, the nerve net allows nerve impulses to spread over a wide area of the net because synapses can pass information in any direction. Neural Networks (Anatomic),Nerve Nets,Net, Nerve,Nets, Nerve,Network, Neural (Anatomic),Networks, Neural (Anatomic),Neural Network (Anatomic)
D009473 Neuronal Plasticity The capacity of the NERVOUS SYSTEM to change its reactivity as the result of successive activations. Brain Plasticity,Plasticity, Neuronal,Axon Pruning,Axonal Pruning,Dendrite Arborization,Dendrite Pruning,Dendritic Arborization,Dendritic Pruning,Dendritic Remodeling,Neural Plasticity,Neurite Pruning,Neuronal Arborization,Neuronal Network Remodeling,Neuronal Pruning,Neuronal Remodeling,Neuroplasticity,Synaptic Plasticity,Synaptic Pruning,Arborization, Dendrite,Arborization, Dendritic,Arborization, Neuronal,Arborizations, Dendrite,Arborizations, Dendritic,Arborizations, Neuronal,Axon Prunings,Axonal Prunings,Brain Plasticities,Dendrite Arborizations,Dendrite Prunings,Dendritic Arborizations,Dendritic Prunings,Dendritic Remodelings,Network Remodeling, Neuronal,Network Remodelings, Neuronal,Neural Plasticities,Neurite Prunings,Neuronal Arborizations,Neuronal Network Remodelings,Neuronal Plasticities,Neuronal Prunings,Neuronal Remodelings,Neuroplasticities,Plasticities, Brain,Plasticities, Neural,Plasticities, Neuronal,Plasticities, Synaptic,Plasticity, Brain,Plasticity, Neural,Plasticity, Synaptic,Pruning, Axon,Pruning, Axonal,Pruning, Dendrite,Pruning, Dendritic,Pruning, Neurite,Pruning, Neuronal,Pruning, Synaptic,Prunings, Axon,Prunings, Axonal,Prunings, Dendrite,Prunings, Dendritic,Prunings, Neurite,Prunings, Neuronal,Prunings, Synaptic,Remodeling, Dendritic,Remodeling, Neuronal,Remodeling, Neuronal Network,Remodelings, Dendritic,Remodelings, Neuronal,Remodelings, Neuronal Network,Synaptic Plasticities,Synaptic Prunings
D009778 Occipital Lobe Posterior portion of the CEREBRAL HEMISPHERES responsible for processing visual sensory information. It is located posterior to the parieto-occipital sulcus and extends to the preoccipital notch. Annectant Gyrus,Calcarine Fissure,Calcarine Sulcus,Cuneate Lobule,Cuneus,Cuneus Cortex,Cuneus Gyrus,Gyrus Lingualis,Lingual Gyrus,Lunate Sulcus,Medial Occipitotemporal Gyrus,Occipital Cortex,Occipital Gyrus,Occipital Region,Occipital Sulcus,Sulcus Calcarinus,Calcarine Fissures,Calcarinus, Sulcus,Cortex, Cuneus,Cortex, Occipital,Cortices, Cuneus,Cortices, Occipital,Cuneate Lobules,Cuneus Cortices,Fissure, Calcarine,Fissures, Calcarine,Gyrus Linguali,Gyrus, Annectant,Gyrus, Cuneus,Gyrus, Lingual,Gyrus, Medial Occipitotemporal,Gyrus, Occipital,Linguali, Gyrus,Lingualis, Gyrus,Lobe, Occipital,Lobes, Occipital,Lobule, Cuneate,Lobules, Cuneate,Occipital Cortices,Occipital Lobes,Occipital Regions,Occipitotemporal Gyrus, Medial,Region, Occipital,Regions, Occipital,Sulcus, Calcarine,Sulcus, Lunate,Sulcus, Occipital
D010775 Photic Stimulation Investigative technique commonly used during ELECTROENCEPHALOGRAPHY in which a series of bright light flashes or visual patterns are used to elicit brain activity. Stimulation, Photic,Visual Stimulation,Photic Stimulations,Stimulation, Visual,Stimulations, Photic,Stimulations, Visual,Visual Stimulations
D011932 Reading Acquiring information from text.
D001766 Blindness The inability to see or the loss or absence of perception of visual stimuli. This condition may be the result of EYE DISEASES; OPTIC NERVE DISEASES; OPTIC CHIASM diseases; or BRAIN DISEASES affecting the VISUAL PATHWAYS or OCCIPITAL LOBE. Amaurosis,Bilateral Blindness,Blindness, Bilateral,Blindness, Legal,Blindness, Monocular,Blindness, Unilateral,Sudden Visual Loss,Unilateral Blindness,Blindness, Acquired,Blindness, Complete,Blindness, Hysterical,Blindness, Transient,Acquired Blindness,Amauroses,Bilateral Blindnesses,Complete Blindness,Hysterical Blindness,Legal Blindness,Monocular Blindness,Sudden Visual Losses,Transient Blindness,Visual Loss, Sudden

Related Publications

Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
Neural networks for Braille reading by the blind.
July 1998, Brain : a journal of neurology,
Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
"Braille" reading by a blind volunteer by visual cortex stimulation.
January 1976, Nature,
Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
Activation of the primary visual cortex by Braille reading in blind subjects.
April 1996, Nature,
Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
Correction to: Sensory modality and spoken language shape reading network in blind readers of braille.
February 2023, Cerebral cortex (New York, N.Y. : 1991),
Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
Sensory modality and spoken language shape reading network in blind readers of Braille.
March 2023, Cerebral cortex (New York, N.Y. : 1991),
Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
The Cortical Network for Braille Writing in the Blind.
January 2016, IS&T International Symposium on Electronic Imaging,
Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
Similarities and differences in the neural correlates of letter and speech sound integration in blind and sighted readers.
September 2023, NeuroImage,
Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
Convolutional Neural Network Based Real Time Arabic Speech Recognition to Arabic Braille for Hearing and Visually Impaired.
January 2022, Frontiers in public health,
Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
Reading visual braille with a retinal prosthesis.
January 2012, Frontiers in neuroscience,
Gabriela Dzięgiel-Fivet, and Joanna Plewko, and Marcin Szczerbiński, and Artur Marchewka, and Marcin Szwed, and Katarzyna Jednoróg
Specific cerebellar activation during Braille reading in blind subjects.
July 2004, Human brain mapping,
Copied contents to your clipboard!