Reading with Sounds: Sensory Substitution Selectively Activates the Visual Word Form Area in the Blind  Ella Striem-Amit, Laurent Cohen, Stanislas Dehaene,

Slides:



Advertisements
Similar presentations
Seeing with Sounds Amir Amedi’s Lab
Advertisements

Uri Hasson, Ifat Levy, Marlene Behrmann, Talma Hendler, Rafael Malach 
Volume 63, Issue 3, Pages (August 2009)
Volume 60, Issue 4, Pages (November 2008)
Abnormal Visual Motion Processing Is Not a Cause of Dyslexia
Volume 60, Issue 5, Pages (December 2008)
Lior Shmuelof, Ehud Zohary  Neuron 
Avi Mendelsohn, Yossi Chalamish, Alexander Solomonovich, Yadin Dudai 
Rachel Ludmer, Yadin Dudai, Nava Rubin  Neuron 
Volume 88, Issue 3, Pages (November 2015)
Michael S Beauchamp, Kathryn E Lee, Brenna D Argall, Alex Martin 
Joerg F. Hipp, Andreas K. Engel, Markus Siegel  Neuron 
Volume 64, Issue 3, Pages (November 2009)
Volume 64, Issue 4, Pages (November 2009)
Volume 83, Issue 3, Pages (August 2014)
Alan N. Hampton, Ralph Adolphs, J. Michael Tyszka, John P. O'Doherty 
Volume 55, Issue 1, Pages (July 2007)
Daphna Shohamy, Anthony D. Wagner  Neuron 
Marcus Grueschow, Rafael Polania, Todd A. Hare, Christian C. Ruff 
Mismatch Receptive Fields in Mouse Visual Cortex
Disruption of Large-Scale Brain Systems in Advanced Aging
Sing-Hang Cheung, Fang Fang, Sheng He, Gordon E. Legge  Current Biology 
A Code for Cross-Modal Working Memory
Volume 35, Issue 4, Pages (August 2002)
Perirhinal-Hippocampal Connectivity during Reactivation Is a Marker for Object-Based Memory Consolidation  Kaia L. Vilberg, Lila Davachi  Neuron  Volume.
Volume 63, Issue 3, Pages (August 2009)
Sheng Li, Stephen D. Mayhew, Zoe Kourtzi  Neuron 
Scale-Invariant Movement Encoding in the Human Motor System
Sensitivity to Complex Statistical Regularities in Rat Auditory Cortex
Uri Hasson, Michal Harel, Ifat Levy, Rafael Malach  Neuron 
Dysfunction of Rapid Neural Adaptation in Dyslexia
Unreliable Evoked Responses in Autism
Volume 50, Issue 2, Pages (April 2006)
A Switching Observer for Human Perceptual Estimation
Deciphering Cortical Number Coding from Human Brain Activity Patterns
The Generality of Parietal Involvement in Visual Attention
Adaptive Training Diminishes Distractibility in Aging across Species
Visual Cortex Extrastriate Body-Selective Area Activation in Congenitally Blind People “Seeing” by Using Sounds  Ella Striem-Amit, Amir Amedi  Current.
Talia Konkle, Aude Oliva  Neuron  Volume 74, Issue 6, Pages (June 2012)
Volume 54, Issue 6, Pages (June 2007)
Volume 45, Issue 4, Pages (February 2005)
Volume 88, Issue 3, Pages (November 2015)
Michael S Beauchamp, Kathryn E Lee, Brenna D Argall, Alex Martin 
Negative BOLD Differentiates Visual Imagery and Perception
Lior Shmuelof, Ehud Zohary  Neuron 
Parietal and Frontal Cortex Encode Stimulus-Specific Mnemonic Representations during Visual Working Memory  Edward F. Ester, Thomas C. Sprague, John T.
Uri Hasson, Orit Furman, Dav Clark, Yadin Dudai, Lila Davachi  Neuron 
Volume 19, Issue 6, Pages (March 2009)
John T. Arsenault, Koen Nelissen, Bechir Jarraya, Wim Vanduffel  Neuron 
Negative BOLD Differentiates Visual Imagery and Perception
Memory: Enduring Traces of Perceptual and Reflective Attention
Volume 47, Issue 5, Pages (September 2005)
Value-Based Modulations in Human Visual Cortex
Timing, Timing, Timing: Fast Decoding of Object Information from Intracranial Field Potentials in Human Visual Cortex  Hesheng Liu, Yigal Agam, Joseph.
Volume 68, Issue 1, Pages (October 2010)
Visual Feature-Tolerance in the Reading Network
Brain Mechanisms for Extracting Spatial Information from Smell
Vahe Poghosyan, Andreas A. Ioannides  Neuron 
Sébastien Marti, Jean-Rémi King, Stanislas Dehaene  Neuron 
Arielle Tambini, Nicholas Ketz, Lila Davachi  Neuron 
John T. Serences, Geoffrey M. Boynton  Neuron 
Encoding of Stimulus Probability in Macaque Inferior Temporal Cortex
Mona Spiridon, Nancy Kanwisher  Neuron 
Neuronal Mechanisms for Illusory Brightness Perception in Humans
Laurie S. Glezer, Xiong Jiang, Maximilian Riesenhuber  Neuron 
Reading with Sounds: Sensory Substitution Selectively Activates the Visual Word Form Area in the Blind  Ella Striem-Amit, Laurent Cohen, Stanislas Dehaene,
Lior Reich, Marcin Szwed, Laurent Cohen, Amir Amedi  Current Biology 
Taosheng Liu, Franco Pestilli, Marisa Carrasco  Neuron 
Human Posterior Parietal Cortex Flexibly Determines Reference Frames for Reaching Based on Sensory Context  Pierre-Michel Bernier, Scott T. Grafton  Neuron 
Visual Feature-Tolerance in the Reading Network
Presentation transcript:

Reading with Sounds: Sensory Substitution Selectively Activates the Visual Word Form Area in the Blind  Ella Striem-Amit, Laurent Cohen, Stanislas Dehaene, Amir Amedi  Neuron  Volume 76, Issue 3, Pages 640-652 (November 2012) DOI: 10.1016/j.neuron.2012.08.026 Copyright © 2012 Elsevier Inc. Terms and Conditions

Figure 1 “Visual” Performance in Blind Users of “The vOICe” Sensory Substitution Device after Training (A) Visual-to-auditory sensory substitution is used to convey visual information to the blind using their intact auditory modality. (B) The transformation algorithm of the vOICe (Meijer, 1992): each image is scanned from left to right, such that time and stereo panning constitute the horizontal axis in its sound representation, tone frequency makes up the vertical axis, and loudness corresponds to pixel brightness (see also http://www.seeingwithsound.com). (C) The mobile kit for SSD usage includes a lightweight inexpensive webcam worn on eyeglasses, a computing device (such as a netbook computer or smartphone), and earphones. (D) Tangible image feedback (bottom), identical to that presented using the vOICe (top), was provided to the blind participants to help them further understand the images during training. (E) The structured two-dimensional training program consisted of hundreds of stimuli organized in order of complexity and grouped into structured categories: Hebrew letters, textures, faces, houses, tools and everyday objects, body postures, and geometric shapes. (F) Success in discriminating between object categories was assessed upon completion of the structured two-dimensional training (n = 6). Object discrimination differed significantly from chance (mean percent correct 78.1% ± 8.8% SD, p < 0.00005, Student’s t test), and no difference was observed between performance in the letter category and any of the other object categories (p > 0.05, corrected for multiple comparisons). Error bars denote SD. Significance refers to difference from chance level: ∗p < 0.05, ∗∗p < 0.005, ∗∗∗p < 0.0005. Neuron 2012 76, 640-652DOI: (10.1016/j.neuron.2012.08.026) Copyright © 2012 Elsevier Inc. Terms and Conditions

Figure 2 Comparable Selectivity in the VWFA of the Blind and Sighted (A and B) Activation for letters versus baseline is shown in comparable experiments in the sighted controls (A; using vision) and in the congenitally blind (B; using SSD soundscapes), showing extensive bilateral ventral visual cortex activation, including at the location of the canonical peak of the VWFA in the sighted, which is marked by cross-hairs on the slice views. (C) The reproducibility of the VWFA activation for letters in the blind is emphasized by the probability map showing overlap of activation for this contrast across the blind subjects. (D–F) Letter selectivity (versus all other categories grouped together) in both groups (D and E), for sighted and blind groups, respectively, and across all (100%) single subjects in the blind (F) is focused to comparable locations in the approximate location of the VWFA (marked by cross-hairs). Neuron 2012 76, 640-652DOI: (10.1016/j.neuron.2012.08.026) Copyright © 2012 Elsevier Inc. Terms and Conditions

Figure 3 Selectivity to Soundscape Letters in the VWFA of the Blind (A) The robust letter selectivity is unique to the left ventral occipito-temporal cortex across the entire brain: the left vOT is the only region showing full selectivity for letters over all other categories in a location close to the sighted VWFA (Talairach coordinates −51, −58, −9). Each map is a random-effect GLM contrast between letters and one of the other visual categories at p < 0.05, corrected for multiple comparisons. Also shown (see inflated cortical surface and magnification of slice views) is the probability map of the overlap between these contrast maps, which peaks in the vicinity of the sighted VWFA. (B) Parameter estimate values (GLM-beta) sampled from the canonical peak of the VWFA in the sighted (used as an independent region of interest) show remarkable selectivity for soundscape letters in the blind as compared to multiple other categories of “visual objects” translated by the visual-to-auditory sensory substitution device. Error bars denote SE. ∗p < 0.05, ∗∗p < 0.005, ∗∗∗p < 0.0005 (corrected for multiple comparisons). (C) The canonical sighted VWFA is significantly more activated by vOICe letter perception than by imagining the same letters in Braille or vOICe scripts, or hearing the letter names, suggesting bottom-up rather than top-down activation. Neuron 2012 76, 640-652DOI: (10.1016/j.neuron.2012.08.026) Copyright © 2012 Elsevier Inc. Terms and Conditions

Figure 4 Rapid Adult Plasticity in the VWFA in a Single Case Study of Learning to Read Using Sounds (A) Activation of the ventral visual cortex, particularly in the vOT/VWFA, is evident in subject T.B. for Braille reading (contrasted with a same-modality control, Braille control; homogenous Braille dots) in both scans (cyan and blue for pre- and posttraining contrasts) and in the vOICe reading condition (contrasted with a same-modality control, vOICe control; untrained soundscape representations of letters) only after a 2 hr session in which she learned to read the sighted script using soundscapes (marked in purple). (B) ROI analysis of the selectivity cluster for Braille reading (versus Braille control) in the ventral stream (aka functional VWFA) in the first scan shows that this area is also selective for reading using sensory substitution but only after training in extracting the phonological values of the vOICe letters. Error bars denote SE. ∗p < 0.05, ∗∗p < 0.005, ∗∗∗p < 0.0005. Neuron 2012 76, 640-652DOI: (10.1016/j.neuron.2012.08.026) Copyright © 2012 Elsevier Inc. Terms and Conditions