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Learning to see (better): improving visual deficits with perceptual learning

Author: Gianluca Campana

Publisher: Frontiers Media SA

Published: 2015-07-09

Total Pages: 97

ISBN-13: 2889196038

Perceptual learning can be defined as a long lasting improvement in a perceptual skill following a systematic training, due to changes in brain plasticity at the level of sensory or perceptual areas. Its efficacy has been reported for a number of visual tasks, such as detection or discrimination of visual gratings (De Valois, 1977; Fiorentini & Berardi, 1980, 1981; Mayer, 1983), motion direction discrimination (Ball & Sekuler, 1982, 1987; Ball, Sekuler, & Machamer, 1983), orientation judgments (Fahle, 1997; Shiu & Pashler, 1992; Vogels & Orban, 1985), hyperacuity (Beard, Levi, & Reich, 1995; Bennett & Westheimer, 1991; Fahle, 1997; Fahle & Edelman, 1993; Kumar & Glaser, 1993; McKee & Westheimer, 1978; Saarinen & Levi, 1995), visual search tasks (Ahissar & Hochstein, 1996; Casco, Campana, & Gidiuli, 2001; Campana & Casco, 2003; Ellison & Walsh, 1998; Sireteanu & Rettenbach, 1995) or texture discrimination (Casco et al., 2004; Karni & Sagi, 1991, 1993). Perceptual learning is long-lasting and specific for basic stimulus features (orientation, retinal position, eye of presentation) suggesting a long-term modification at early stages of visual analysis, such as in the striate (Karni & Sagi, 1991; 1993; Saarinen & Levi, 1995; Pourtois et al., 2008) and extrastriate (Ahissar & Hochstein, 1996) visual cortex. Not confined to a basic research paradigm, perceptual learning has recently found application outside the laboratory environment, being used for clinical treatment of a series of visually impairing conditions such as amblyopia (Levi & Polat, 1996; Levi, 2005; Levi & Li, 2009, Polat et al., 2004; Zhou et al., 2006), myopia (Tan & Fong, 2008) or presbyopia (Polat, 2009). Different authors adopted different paradigms and stimuli in order to improve malfunctioning visual abilities, such as Vernier Acuity (Levi, Polat & Hu, 1997), Gratings detection (Zhou et al., 2006), oculomotor training (Rosengarth et al., 2013) and lateral interactions (Polat et al., 2004). The common result of these studies is that a specific training produces not only improvements in trained functions, but also in other, untrained and higher-level visual functions, such as visual acuity, contrast sensitivity and reading speed (Levi et al, 1997a, 1997b; Polat et al., 2004; Polat, 2009; Tan & Fong, 2008). More recently (Maniglia et al. 2011), perceptual learning with the lateral interactions paradigm has been successfully used for improving peripheral vision in normal people (by improving contrast sensitivity and reducing crowding, the interference in target discrimination due to the presence of close elements), offering fascinating new perspectives in the rehabilitation of people who suffer of central vision loss, such as maculopathy patients, partially overcoming the structural differences between fovea and periphery that limit the vision outside the fovea. One of the strongest point, and a distinguishing feature of perceptual learning, is that it does not just improve the subject’s performance, but produces changes in brain’s connectivity and efficiency, resulting in long-lasting, enduring neural changes. By tailoring the paradigms on each subject’s needs, perceptual learning could become the treatment of choice for the rehabilitation of visual functions, emerging as a simple procedure that doesn’t need expensive equipment.

Learning to See (better): Improving Visual Deficits with Perceptual Learning

Author:

Publisher:

Published: 2015

Total Pages: 0

ISBN-13:

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Perceptual learning can be defined as a long lasting improvement in a perceptual skill following a systematic training, due to changes in brain plasticity at the level of sensory or perceptual areas. Its efficacy has been reported for a number of visual tasks, such as detection or discrimination of visual gratings (De Valois, 1977; Fiorentini & Berardi, 1980, 1981; Mayer, 1983), motion direction discrimination (Ball & Sekuler, 1982, 1987; Ball, Sekuler, & Machamer, 1983), orientation judgments (Fahle, 1997; Shiu & Pashler, 1992; Vogels & Orban, 1985), hyperacuity (Beard, Levi, & Reich, 1995; Bennett & Westheimer, 1991; Fahle, 1997; Fahle & Edelman, 1993; Kumar & Glaser, 1993; McKee & Westheimer, 1978; Saarinen & Levi, 1995), visual search tasks (Ahissar & Hochstein, 1996; Casco, Campana, & Gidiuli, 2001; Campana & Casco, 2003; Ellison & Walsh, 1998; Sireteanu & Rettenbach, 1995) or texture discrimination (Casco et al., 2004; Karni & Sagi, 1991, 1993). Perceptual learning is long-lasting and specific for basic stimulus features (orientation, retinal position, eye of presentation) suggesting a long-term modification at early stages of visual analysis, such as in the striate (Karni & Sagi, 1991; 1993; Saarinen & Levi, 1995; Pourtois et al., 2008) and extrastriate (Ahissar & Hochstein, 1996) visual cortex. Not confined to a basic research paradigm, perceptual learning has recently found application outside the laboratory environment, being used for clinical treatment of a series of visually impairing conditions such as amblyopia (Levi & Polat, 1996; Levi, 2005; Levi & Li, 2009, Polat et al., 2004; Zhou et al., 2006), myopia (Tan & Fong, 2008) or presbyopia (Polat, 2009). Different authors adopted different paradigms and stimuli in order to improve malfunctioning visual abilities, such as Vernier Acuity (Levi, Polat & Hu, 1997), Gratings detection (Zhou et al., 2006), oculomotor training (Rosengarth et al., 2013) and lateral interactions (Polat et al., 2004). The common result of these studies is that a specific training produces not only improvements in trained functions, but also in other, untrained and higher-level visual functions, such as visual acuity, contrast sensitivity and reading speed (Levi et al, 1997a, 1997b; Polat et al., 2004; Polat, 2009; Tan & Fong, 2008). More recently (Maniglia et al. 2011), perceptual learning with the lateral interactions paradigm has been successfully used for improving peripheral vision in normal people (by improving contrast sensitivity and reducing crowding, the interference in target discrimination due to the presence of close elements), offering fascinating new perspectives in the rehabilitation of people who suffer of central vision loss, such as maculopathy patients, partially overcoming the structural differences between fovea and periphery that limit the vision outside the fovea. One of the strongest point, and a distinguishing feature of perceptual learning, is that it does not just improve the subject's performance, but produces changes in brain's connectivity and efficiency, resulting in long-lasting, enduring neural changes. By tailoring the paradigms on each subject's needs, perceptual learning could become the treatment of choice for the rehabilitation of visual functions, emerging as a simple procedure that doesn't need expensive equipment.

Perceptual Learning

Author: Barbara Dosher

Publisher: MIT Press

Published: 2020-10-13

Total Pages: 521

ISBN-13: 0262044560

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A comprehensive and integrated introduction to the phenomena and theories of perceptual learning, focusing on the visual domain. Practice or training in perceptual tasks improves the quality of perceptual performance, often by a substantial amount. This improvement is called perceptual learning (in contrast to learning in the cognitive or motor domains), and it has become an active area of research of both theoretical and practical significance. This book offers a comprehensive introduction to the phenomena and theories of perceptual learning, focusing on the visual domain. Perceptual Learning explores the tradeoff between the competing goals of system stability and system adaptability, signal and noise, retuning and reweighting, and top-down versus bottom-down processes. It examines and evaluates existing research and potential future directions, including evidence from behavior, physiology, and brain imaging, and existing perceptual learning applications, with a focus on important theories and computational models. It also compares visual learning to learning in other perceptual domains, and considers the application of visual training methods in the development of perceptual expertise and education as well as in remediation for limiting visual conditions. It provides an integrated treatment of the subject for students and researchers and for practitioners who want to incorporate perceptual learning into their practice.Practice or training in perceptual tasks improves the quality of perceptual performance, often by a substantial amount. This improvement is called perceptual learning, in contrast with learning in the cognitive or motor domains. Perceptual learning has been a very active area of research of both theoretical and practical interest. Research on perceptual learning is of theoretical significance in illuminating plasticity in adult perceptual systems, and in understanding the limitations of human information processing and how to improve them. It is of practical significance as a potential method for the development of perceptual expertise in the normal population, for its potential in advancing development and supporting healthy aging, and for noninvasive amelioration of deficits in challenged populations by training. Perceptual learning has become an increasingly important topic in biomedical research. Practitioners in this area include science disciplines such as psychology, neuroscience, computer sciences, and optometry, and developers in applied areas of learning game design, cognitive development and aging, and military and biomedical applications. Commercial development of training products, protocols, and games is a multi-billion dollar industry. Perceptual learning provides the basis for many of the developments in these areas. This book is written for anyone who wants to understand the phenomena and theories of perceptual learning or to apply the technology of perceptual learning to the development of training methods and products. Our aim is to provide an introduction to those researchers and students just entering this exciting field, to provide a comprehensive and integrated treatment of the phenomena and the theories of perceptual learning for active perceptual learning researchers, and to describe and develop the basic techniques and principles for readers who want to successfully incorporate perceptual learning into applied developments. The book considers the special challenges of perceptual learning that balance the competing goals of system stability and system adaptability. It provides a systematic treatment of the major phenomena and models in perceptual learning, the determinants of successful learning and of specificity and transfer. The book provides a cohesive consideration of the broad range of perceptual learning through the theoretical framework of incremental learning of reweighting evidence that supports successful task performance. It provides a detailed analysis of the mechanisms by which perceptual learning improves perceptual limitations, the relationship of perceptual learning and the critical period of development, and the semi-supervised modes of learning that dominate perceptual learning. It considers limitations and constraints on learning multiple tasks and stimuli simultaneously, the implications of training at high or low levels of performance accuracy, and the importance of feedback to perceptual learning. The basis of perceptual learning in physiology is discussed along with the relationship of visual perceptual learning to learning in other sensory domains. The book considers the applications of perceptual learning in the development of expertise, in education and gaming, in training during development and aging, and applications to remediation of mental health and vision disorders. Finally, it applies the phenomena and models of perceptual learning to considerations of optimizing training.

Making Eye Health a Population Health Imperative

Author: National Academies of Sciences, Engineering, and Medicine

Publisher: National Academies Press

Published: 2017-01-15

Total Pages: 587

ISBN-13: 0309439981

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The ability to see deeply affects how human beings perceive and interpret the world around them. For most people, eyesight is part of everyday communication, social activities, educational and professional pursuits, the care of others, and the maintenance of personal health, independence, and mobility. Functioning eyes and vision system can reduce an adult's risk of chronic health conditions, death, falls and injuries, social isolation, depression, and other psychological problems. In children, properly maintained eye and vision health contributes to a child's social development, academic achievement, and better health across the lifespan. The public generally recognizes its reliance on sight and fears its loss, but emphasis on eye and vision health, in general, has not been integrated into daily life to the same extent as other health promotion activities, such as teeth brushing; hand washing; physical and mental exercise; and various injury prevention behaviors. A larger population health approach is needed to engage a wide range of stakeholders in coordinated efforts that can sustain the scope of behavior change. The shaping of socioeconomic environments can eventually lead to new social norms that promote eye and vision health. Making Eye Health a Population Health Imperative: Vision for Tomorrow proposes a new population-centered framework to guide action and coordination among various, and sometimes competing, stakeholders in pursuit of improved eye and vision health and health equity in the United States. Building on the momentum of previous public health efforts, this report also introduces a model for action that highlights different levels of prevention activities across a range of stakeholders and provides specific examples of how population health strategies can be translated into cohesive areas for action at federal, state, and local levels.

Crowding in Children with Visual Impairment

Author: Antonius Henricus Nicolaas Cillessen

Publisher:

Published: 2014

Total Pages: 201

ISBN-13: 9789090280899

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Developing Ocular Motor and Visual Perceptual Skills

Author: Kenneth A. Lane

Publisher: SLACK Incorporated

Published: 2005

Total Pages: 320

ISBN-13: 9781556425950

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"Developing Ocular Motor and Visual Perceptual Skills contains daily lesson plans and practical tips on how to successfully start an activities program. Other helpful features include a glossary of terms and a reference list of individuals and organizations that work with learning disabled children to develop these skills. The first of its kind, Developing Ocular Motor and Visual Perceptual Skills utilizes a learning approach by linking the theories with the remediation activities to help learning disabled children improve their perceptual and fine motor skills. All professionals looking to assess and enhance a variety of fine motor and visual perception deficiencies will welcome this workbook into their practices" -- Publisher description.

Perceptual Learning

Author: Manfred Fahle

Publisher: MIT Press

Published: 2002

Total Pages: 484

ISBN-13: 9780262062213

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Perceptual learning is the specific and relatively permanent modification of perception and behaviour following sensory experience. This book presents advances made during the 1990s in this rapidly growing field.

Developing Ocular Motor and Visual Perceptual Skills

Author: Kenneth Lane

Publisher: Taylor & Francis

Published: 2024-06-01

Total Pages: 315

ISBN-13: 1040143784

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With over 20 years of experience, Dr. Kenneth A. Lane has designed Developing Ocular Motor and Visual Perceptual Skills: An Activity Workbook to help occupational therapists, optometrists, and other professionals develop the ocular motor and visual perceptual skills of learning disabled children. To establish a framework for understanding, each chapter begins with the scientific theories used to develop the activity forms. Insightful suggestions are included on how to solidify the program's success. The easy-to-follow activity forms are then presented, along with numerous illustrations that help develop ocular motor and visual perceptual skills. The forms are divided into as many as five levels of difficulty so both children and teenagers can benefit from each activity. Developing Ocular Motor and Visual Perceptual Skills contains daily lesson plans and practical tips on how to successfully start an activities program. Other helpful features include a glossary of terms and a reference list of individuals and organizations that work with learning disabled children to develop these skills. The first of its kind, Developing Ocular Motor and Visual Perceptual Skills utilizes a learning approach by linking the theories with the remediation activities to help learning disabled children improve their perceptual and fine motor skills. All professionals looking to assess and enhance a variety of fine motor and visual perception deficiencies will welcome this workbook into their practices. Topics include: Complexity of reading Ocular motor Gross motor Visual-motor perception Visual memory Laterality Reversals

Exploring the Extent of Training-induced Visual Plasticity and the Potential for Use in Visual Rehabilitation

Author: Asmara Awada

Publisher:

Published: 2020

Total Pages:

ISBN-13:

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"In humans, vision represents the dominant source of sensory information about the external world, with more than half of the brain dedicated to the processing of visual information. Vision loss can thus be extremely devastating, with major impacts on quality of life. One of the most prevalent causes for visual deficit is stroke. Indeed, around 15 million people suffer a stroke every year with 30-50% of the cases associated with visual deficits. While two-thirds of stroke patients survive, the majority require months, or even years, of rehabilitation. However, to date, no clinically validated strategies exist to recover vision after stroke. However, the visual cortex remains highly plastic throughout the lifespan and can be retrained and reorganized to improve specific visual functions in a process known as visual perceptual learning. As a manifestation of pervasive plasticity occurring in the adult visual cortex, visual perceptual learning has a significant practical implication, providing high promise for use in visual rehabilitation. However, research in the field has identified a characteristic sensory specificity that limits its practical use. Recent advances have thus been devoted to exploring the neural basis of visual perceptual learning and to accordingly develop strategies that can overcome the sensory specificity. However, it remains unknown whether visual perceptual learning also exhibits effector specificity, imposing a larger limit on its practical use, and accordingly, whether non-specific recovery of visual function can be retrained in stroke patients. In Chapter 3 of this thesis, we show that while sensory specificity is prevalent in visual perceptual learning, effector specificity is not exhibited, providing increased promise for use in rehabilitation. In Chapter 4 of this thesis, we show that some visual function can be retrained in stroke patients through perceptual learning, but that a limit to recovery seems to exist. Overall, the findings of this thesis shed light on the nature of visual perceptual learning. Indeed, we provide evidence supporting the notion that perceptual learning represents a functional reorganization of visual information in parietal cortices but that the mechanism seems to be different in damaged cortices, limiting the kind of improvement that can be attained through training"--

Amblyopia

Author: Kenneth J. Ciuffreda

Publisher: Butterworth-Heinemann

Published: 1991

Total Pages: 536

ISBN-13:

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This text aims to satisfy the needs of the optometry student taking courses in amblyopia and abnormal binocular vision, update the information critical to the work of the experienced clinician, and provide the vision researcher working in this area with a comprehensive overview of the topic.