Developmental Plasticity In The Nonhuman Primate Visual Cortex
Funder
National Health and Medical Research Council
Funding Amount
$464,417.00
Summary
A phenomenon that has puzzled many for a number of years is why damage to the visual brain during infancy has far less of an impact on visual capacity than the same lesion suffered later in life. This project hopes to uncover this mystery and see how brain 'wiring' is altered to compensate.
Does IRAP Contribute To Alzheimer's Disease Pathology?
Funder
National Health and Medical Research Council
Funding Amount
$743,042.00
Summary
Alzheimer’s disease is a progressive brain disease which is results in memory loss and cell death. All currently prescribed drugs treat the memory loss but are unable to stop the deterioration of brain cells. We have developed a class of drugs that reverse memory loss. These drugs target a protein called insulin-regulated aminopeptidase, IRAP. We recently found that these drugs also reduce the disease pathology. This research proposal aims to investigate the role of IRAP in the initiation or pro ....Alzheimer’s disease is a progressive brain disease which is results in memory loss and cell death. All currently prescribed drugs treat the memory loss but are unable to stop the deterioration of brain cells. We have developed a class of drugs that reverse memory loss. These drugs target a protein called insulin-regulated aminopeptidase, IRAP. We recently found that these drugs also reduce the disease pathology. This research proposal aims to investigate the role of IRAP in the initiation or progression of Alzheimer’s disease pathology.Read moreRead less
Associate Professor Bourne’s research will involve learning how the infant brain has an enhanced capacity to repair its own neocortex following an injury and to translate these findings into the development of brain regenerative therapies.
Thalamic inputs and cortical microcircuitry underlying the functional architecture of the visual cortex. This project seeks to reveal the fundamental circuitry of the visual cortex that enables visual perception. Such understanding is essential not only for explaining many perceptual disturbances, but also for providing a neuronal basis for developing functionally useful prostheses for the blind.
Histamine and non-visual regulation of retinal signalling. This project is internationally competitive, asking basic biological questions about the brain and vision. Of direct national benefit, the new knowledge generated may alter the way we understand how vision works. Ultimately this knowledge may give insight into particular health issues, such as the persistence of visual memory in Post Traumatic Stress Disorder, and age related diseases such as Alzheimer's disease. Further this new kno ....Histamine and non-visual regulation of retinal signalling. This project is internationally competitive, asking basic biological questions about the brain and vision. Of direct national benefit, the new knowledge generated may alter the way we understand how vision works. Ultimately this knowledge may give insight into particular health issues, such as the persistence of visual memory in Post Traumatic Stress Disorder, and age related diseases such as Alzheimer's disease. Further this new knowledge will flow directly into the reputation of our major institutes of higher education and strengthen their place on the world stage. Through both CIs, this research will contribute to the education of both undergraduate and postgraduate science students at The University of Melbourne. Read moreRead less
Humans, like all animals, receive similar, although not identical, visual input via the eyes. This information is combined in the brain to form a single view of the outside world. In this proposal we aim to understand how single neurons in the brain process the combined information received from both eyes. This work will increase our understanding of the underlying cellular mechanisms responsible for sight, and determine what changes occur when visual input is impaired through blindness.
Functional pathways in primate retina. When light enters the eye, specialised nerve cells called photoreceptors transform the light signal into nerve signals. These signals are processed in the retina by two groups of neurones, bipolar and ganglion cells before being sent to higher brain centres. Bipolar and ganglion cells can be subdivided into several types. We will measure which types communicate with each other and which proteins (neurotransmitter receptors) are involved at the site of commu ....Functional pathways in primate retina. When light enters the eye, specialised nerve cells called photoreceptors transform the light signal into nerve signals. These signals are processed in the retina by two groups of neurones, bipolar and ganglion cells before being sent to higher brain centres. Bipolar and ganglion cells can be subdivided into several types. We will measure which types communicate with each other and which proteins (neurotransmitter receptors) are involved at the site of communication between these nerve cells. This study will improve our knowledge of the basis of functional subspecialisation at the earliest stages of the visual process.Read moreRead less
Functional imaging of colour pathways in the living eye. In order to repair or regenerate a diseased eye, we require knowledge of the normal pattern or nerve cell connections, and knowing how biology solves the problem of colour vision can be used to improve the design of artificial vision systems. The adaptive optics machine we will build in this project can be used to image nerve cells, fine blood vessels, and nerve fibre bundles in the normal and diseased eye. This will improve Australia's re ....Functional imaging of colour pathways in the living eye. In order to repair or regenerate a diseased eye, we require knowledge of the normal pattern or nerve cell connections, and knowing how biology solves the problem of colour vision can be used to improve the design of artificial vision systems. The adaptive optics machine we will build in this project can be used to image nerve cells, fine blood vessels, and nerve fibre bundles in the normal and diseased eye. This will improve Australia's research and development capacity in this new area of medical diagnostics. Our machine will be made available to other Australian laboratories and will improve the national capacity for making further scientific discoveries about how the visual system works.Read moreRead less
Listen and learn - statistical learning and the adapting auditory brain. This project aims to explore the link between rapid neural adaptation - a form of learning referred to as statistical learning - and human listening performance in noisy environments. The project aims to generate a new understanding of mechanisms that contribute to listeners' abilities to understand speech in noise, and to complex communication disorders such as dyslexia. Expected outcomes will include increased capacity to ....Listen and learn - statistical learning and the adapting auditory brain. This project aims to explore the link between rapid neural adaptation - a form of learning referred to as statistical learning - and human listening performance in noisy environments. The project aims to generate a new understanding of mechanisms that contribute to listeners' abilities to understand speech in noise, and to complex communication disorders such as dyslexia. Expected outcomes will include increased capacity to investigate a broad range of cognitive and communication functions. Benefits will include potential technologies and algorithms to assist listening (in devices such as hearing aids), language development and reading.Read moreRead less
Relationship of the functional architecture of the mammalian brain to its microcircuitry. The project seeks to understand a very fundamental issue in neuroscience: how the connectivity and architecture of the cortex are related to the functions of neurones in that area? This will be investigated by imaging the surface of the visual cortex of anaesthetised cats and monkeys as special visual patterns are shown to the eye/s. The overall picture gained of the active and inactive cortical areas will ....Relationship of the functional architecture of the mammalian brain to its microcircuitry. The project seeks to understand a very fundamental issue in neuroscience: how the connectivity and architecture of the cortex are related to the functions of neurones in that area? This will be investigated by imaging the surface of the visual cortex of anaesthetised cats and monkeys as special visual patterns are shown to the eye/s. The overall picture gained of the active and inactive cortical areas will be related to the properties of neurones in those areas and to those of individual input and output fibres. An optical imaging equipment will be acquired in 2004 using a recently awarded LIEF grant to the CI.Read moreRead less