Novel Approaches To Understanding Peripheral Vision In Patients With Central Vision Loss
Funder
National Health and Medical Research Council
Funding Amount
$367,101.00
Summary
The aim of my research is to develop novel interventions that enhance the peripheral vision of patients with central vision loss, and to investigate the neural correlates of visual perception in peripheral vision in typical adults. My research will inform rehabilitation strategies that optimise the visual function of patients with partial blindness, and provide a more thorough understanding of the underlying neural mechanisms that reduce the quality of peripheral vision.
Neural Basis Of The Functions Of The Primary Visual Cortex: Roles Of Feedforward And Intracortical Inputs
Funder
National Health and Medical Research Council
Funding Amount
$486,280.00
Summary
Signals from the eyes undergo extensive processing at the level of the primary visual cortex so that basic features in the scene such as lines, edges, colours and movement are coded in the activity of individual neurones. This project aims to further our understanding of this process at the basic cellular level. This will not only enable interventions that would help those with poor sight but also give us an insight into basic brain circuitry and its derangement in many neurological disorders.
The superior colliculus is a brain centre which uses visual information from the eyes and other sensory information, such as sound, to direct the head and eyes towards objects of interest. This project will use current advancements in optogenetics to activate connections to this brain region in order to understand its role in coordinating head and eye movements. This will advance our understanding of how the brain collects and processes visual information to subserve behavioural functions.
Reverse Engineering The Mammalian Retinal Microcircuits Using Biological And Computational Approaches
Funder
National Health and Medical Research Council
Funding Amount
$385,814.00
Summary
This research aims to understand how the mammalian retina achieves its sophisticated sensory processing capabilities, using a collection of cutting-edge techniques. The research will: (1) improve our understanding of the operational principles of the brain; (2) link functional properties of retinal neurons to genetic expressions associated with diseases; and (3) refine bioelectronics that could be translated to clinical applications.
Neuroimaging Of Human Visual Cortex Using Functional Magnetic Resonance Imaging: Improving Multivariate Techniques For Decoding Brain Activity
Funder
National Health and Medical Research Council
Funding Amount
$316,449.00
Summary
This research will investigate how the brain processes visual information using non-invasive functional magnetic resonance imaging (fMRI). The aims of this project are to advance techniques for "decoding" human brain activity from fMRI and to increase our understanding of how the brain uses visual information. Improvements in fMRI analysis will allow this cutting-edge technique to be applied more readily in clinical settings for improved treatment and diagnosis of neurological disorders.
Neuronal Activity And Functional Magnetic Resonance Imaging (fMRI)
Funder
National Health and Medical Research Council
Funding Amount
$367,561.00
Summary
How does brain activity relate to perception and behaviour? How does functional magnetic resonance imaging (fMRI) of the brain, which measures changes in blood oxygen, relate to the activity of single cells? I will address these questions, comparing electrical measurements of single cells and functional images, and advance our understanding of the brain in health and disease.