Cognitive and neural mechanisms underlying lateral biases in human vision. Under conditions of unconstrained viewing, humans show a consistent and reliable asymmetry in their perception of visual stimuli. This bias, which favours the left side, arises at a post-retinal level and is hypothesised to reflect hemispheric asymmetry in the control of visuospatial attention. This program of research investigates the mechanisms underlying lateral biases in visual perception, using the latest cognitive n ....Cognitive and neural mechanisms underlying lateral biases in human vision. Under conditions of unconstrained viewing, humans show a consistent and reliable asymmetry in their perception of visual stimuli. This bias, which favours the left side, arises at a post-retinal level and is hypothesised to reflect hemispheric asymmetry in the control of visuospatial attention. This program of research investigates the mechanisms underlying lateral biases in visual perception, using the latest cognitive neuroscience techniques. The findings will provide important new information about the neural and cognitive bases for normal and disordered visuospatial perception. The goal is to develop a novel test of perceptual asymmetries for use in normal participants and neurological patients.Read moreRead less
Attentional biases that underlie free-viewing perceptual asymmetries: Endogenous and exogenous effects in a behavioural/imaging study. As we move our eyes and attention around us, we are capable of interacting with any part of our immediate environment. It is intriguing, therefore, to discover that the upper and leftward features of an object are more salient than those on the bottom or right. By investigating the nature of these attentional biases in normal individuals, this research will impro ....Attentional biases that underlie free-viewing perceptual asymmetries: Endogenous and exogenous effects in a behavioural/imaging study. As we move our eyes and attention around us, we are capable of interacting with any part of our immediate environment. It is intriguing, therefore, to discover that the upper and leftward features of an object are more salient than those on the bottom or right. By investigating the nature of these attentional biases in normal individuals, this research will improve our understanding of the thought processes and brain structures that control spatial attention. This research has important implications for the development of remedial programs for patients with attentional disorders. The test we use to measure attentional asymmetries has the potential to become an important tool for the early detection of clinical abnormalities in attention.
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Left of centre: Attentional distortions in the mental representation of space in healthy and clinical populations. Stroke patients cost the Australian economy $1.3bn pa in addition to their social burden, but effective diagnosis and rehabilitation is impeded by a lack of fundamental research into the cognitive and neural mechanisms that underlie attentional disorders. Our research will provide significant new insights into how the brain deploys attention in external and imagined space and will l ....Left of centre: Attentional distortions in the mental representation of space in healthy and clinical populations. Stroke patients cost the Australian economy $1.3bn pa in addition to their social burden, but effective diagnosis and rehabilitation is impeded by a lack of fundamental research into the cognitive and neural mechanisms that underlie attentional disorders. Our research will provide significant new insights into how the brain deploys attention in external and imagined space and will lead to more effective management and treatment of stroke victims. Our new test of attentional disorders is independent of a patient's inability to see or move and will enable more effective diagnosis. Our research provides the fundamental knowledge base for our discipline and is vital for developing the next generation of Australia's cognitive neuroscientists. Read moreRead less
Special Research Initiatives - Grant ID: SR0354793
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
A Neural Network: Understanding Brain Function. This proposal focuses on the mechanisms that regulate brain function, particularly those underpinning the changes in circuitry (plasticity) caused by altered inputs. As such, its core goal is to create an interface between researchers in the neurosciences, computational modelling, robotics and cognitive sciences in order to facilitate optimum collaborative interactions, identify key research questions and promote training opportunities across a mul ....A Neural Network: Understanding Brain Function. This proposal focuses on the mechanisms that regulate brain function, particularly those underpinning the changes in circuitry (plasticity) caused by altered inputs. As such, its core goal is to create an interface between researchers in the neurosciences, computational modelling, robotics and cognitive sciences in order to facilitate optimum collaborative interactions, identify key research questions and promote training opportunities across a multidisciplinary spectrum. This will drive an integrated and accelerated program of discovery and technological development, enhancing Australia's leadership in this crucial field and helping to highlight new biotechnology opportunities and capture social and economic benefits for the nation. Read moreRead less
Phenotypic differences in behaviour, brain function and structure of genetically dissimilar forms of intellectual disability. How is the brain of someone with intellectual disability different from that of a normal person? Are behavioural phenotypes such as intellectual disability more related to similarities in brain structure and function than to the genotypic anomaly? This project will use neuroscience techniques of psychophysics, electrophysiology and fMRI to probe these questions. The ben ....Phenotypic differences in behaviour, brain function and structure of genetically dissimilar forms of intellectual disability. How is the brain of someone with intellectual disability different from that of a normal person? Are behavioural phenotypes such as intellectual disability more related to similarities in brain structure and function than to the genotypic anomaly? This project will use neuroscience techniques of psychophysics, electrophysiology and fMRI to probe these questions. The benefit of this project is that cortical flattening fMRI techniques together with new and efficient stimulus paradigms will result in a functional landmark mapping tool capable of application to many other brain genotype-phenotype questions. Also, the functional brain basis of intellectual disability will be further revealed.Read moreRead less
Using musical training to examine brain plasticity and cognitive skill development. Until recently, the brain was likened to a computer - hard-wired with minimal response to injury. Research is beginning to alter this view, suggesting that the brain can change its structure and functioning in response to the environment. To explore this new and exciting issue, this study will use sophisticated brain scanning techniques with musicians who have been exposed to early training during a critical peri ....Using musical training to examine brain plasticity and cognitive skill development. Until recently, the brain was likened to a computer - hard-wired with minimal response to injury. Research is beginning to alter this view, suggesting that the brain can change its structure and functioning in response to the environment. To explore this new and exciting issue, this study will use sophisticated brain scanning techniques with musicians who have been exposed to early training during a critical period of development. It will examine the relationship between this exposure and changes in brain size and function thought to underlie a specialised ability, known as perfect pitch. The findings will have important implications about the way normal development can be enhanced by early experience and practice.Read moreRead less