In a memory-guided drawing task under blindfolded conditions, we have recently used functional Magnetic Resonance Imaging (fMRI) to demonstrate that the primary visual cortex (V1) may operate as the visuo-spatial buffer, or “sketchpad,” for working memory. The results implied, however, a modality-independent or amodal form of its operation. In the present study, to validate the role of V1 in non-visual memory, we eliminated not only the visual input but all levels of visual processing by replicating the paradigm in a congenitally blind individual. Our novel Cognitive-Kinesthetic method was used to train this totally blind subject to draw complex images guided solely by tactile memory. Control tasks of tactile exploration and memorization of the image to be drawn, and memory-free scribbling were also included. FMRI was run before training and after training. Remarkably, V1 of this congenitally blind individual, which before training exhibited noisy, immature, and non-specific responses, after training produced full-fledged response time-courses specific to the tactile-memory drawing task. The results reveal the operation of a rapid training-based plasticity mechanism that recruits the resources of V1 in the process of learning to draw. The learning paradigm allowed us to investigate for the first time the evolution of plastic re-assignment in V1 in a congenitally blind subject. These findings are consistent with a non-visual memory involvement of V1, and specifically imply that the observed cortical reorganization can be empowered by the process of learning to draw

Likova, Lora T.

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Lora T. Likova

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Drawing enhances cross-modal memory plasticity in the human brain: a case study in a totally blind adult

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Frontiers in Human Neuroscience

With functional Magnetic Resonance Imaging (fMRI) of a memory-guided drawing task under both visual and blindfolded conditions, we have recently demonstrated that the primary visual cortex (V1) may play a role in implementing the visuo-spatial buffer or the sketchpad idea for working memory. We further proposed that it might however operate in a modality-independent, or amodal form, not restricted to the visual modality.In the present study, to further explore the role of V1 in non-visual memory, we eliminated not only the visual input, but all levels of visual processing by training a congenitally blind novice to draw from tactile memory. The task of tactile exploration and memorization of the image to be drawn and a scribbling control task were also included. FMRI was run before training and after the consolidation of training by the novel Cognitive-Kinesthetic method. Remarkably, the primary visual cortex of this individual, which exhibited non-specific, noisy and immature transient responses before training, was massively recruited after training in the tactile-memory drawing task; moreover, after training, V1 produced normal, full-fledged response time-courses. The results reveal the operation of a rapid learning-based plasticity recruiting the visual cortex resources in the process of learning to draw. The learning paradigm allowed us to investigate for the first time the evolution of plastic re-assignment of the visual cortex. The fact that this re-assignment occurred in a congenitally blind subject, is consistent with an amodal nature of memory involvement of V1. The results specifically imply that such key mechanism can be empowered by the process of learning to draw

Lora T Likova

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Drawing Enhances Cross-Modal Memory Plasticity in the Human Brain:A Case Study in a Totally Blind Adult

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Drawing enhances cross-modal memory plasticity in the human brain: a case study in a totally blind adult

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