Control Of Prosthetic Limbs From Decoded Brain Signals
Funder
National Health and Medical Research Council
Funding Amount
$895,832.00
Summary
This research will restore mobility to patients who suffer from paralysis. We aim to create a device, known as a brain-machine interface, which is an artificial communication path from the brain that bypasses an injury, such as a damaged spinal cord or stroke. The interface will decode a user’s intent and act upon it. Decoders will use physiological principals and state-of-the-art machine learning methods. We will test a user’s ability to control an artificial limb using decoded brain activity.
Dissecting Brain Network Ageing Using Whole Brain Imaging
Funder
National Health and Medical Research Council
Funding Amount
$692,964.00
Summary
In this proposal, we will make the first attempt to map the whole brain activity change during ageing using a series of state-of-the-art techniques. We will also identify genetic and pharmacological interventions that improve brain network function during ageing. Outcomes from this research will provide an unprecedented understanding of functional ageing within the brain and identify therapeutic interventions to prevent this process.
We are able to identify and discriminate objects in the world because of exquisitely detailed and rapid processing of sensory information by neurons in the cortex of the brain. In this project we will examine these operations in neurons in the cortex that receive input from the large face whiskers of the rat. These whiskers are used for fine-grain discrimination and for gauging distance. They are deflected by being actively moved, under muscle control, over objects (active touch) or by being pas ....We are able to identify and discriminate objects in the world because of exquisitely detailed and rapid processing of sensory information by neurons in the cortex of the brain. In this project we will examine these operations in neurons in the cortex that receive input from the large face whiskers of the rat. These whiskers are used for fine-grain discrimination and for gauging distance. They are deflected by being actively moved, under muscle control, over objects (active touch) or by being passively deflected by objects. Deflection results in inputs to the brain that are processed to form the neural basis for very finely detailed perceptual behaviour. In rats, with impoverished visual and auditory senses, the whiskers are the major sensory system for interacting with the world, and are used in navigating the environment and in finding and distinguishing foods. Thus they contribute strongly to the remarkable success of this species. This elegant sensory system has a number of advantages that make it a very good model for the study of brain mechanisms responsible for active fine-grain sensory function. We plan to take advantage of the unique features of this system to define the information processing that occurs in the cortex in this elegantly complex system. This will address an issue relevant to all sensory systems - namely the neural basis of complex fine grain perceptual behaviour. Understanding the mechanisms underlying active tactile perception also has relevance to clinical conditions involving deficits in active touch e.g., in diabetic polyneuropathy (which eventually affects ~50% of diabetics), in leprosy (in which an early sign is damage to active touch). Knowledge of the core brain processes in active touch gained in this study could eventually underpin the ameliorative technologies for such deficits.Read moreRead less
Identification Of Novel Regulatory Factors In Midbrain Development To Improve Cell Therapies For The Treatment Of Parkinson’s Disease
Funder
National Health and Medical Research Council
Funding Amount
$311,860.00
Summary
Cell transplantation is one of the most promising therapeutic strategies for the treatment of Parkinson’s disease. Cells are transplanted directly into the brain of the patient and can compensate for those lost to the disease. In this project we are identifying new genes that regulate the normal development of the transplanted cells in mice. We hope to use this knowledge to improve the reliability and effectiveness of the approach, bringing the therapy closer to the clinic.
Epilepsy And Stress: An Explanatory Electrophysiological Model
Funder
National Health and Medical Research Council
Funding Amount
$100,233.00
Summary
Epilepsy is one of the most common recurrent neurological disorders worldwide, affecting between 1 and 2% of the population. The cascade of events culminating in epilepsy, or the role of seizures in altering brain structures and circuits has been difficult to define. Previous work from our group has shown that stress markedly accelerates the process of epilepsy development. I am developing a model of brain functioning from observed brain cells to chart the changes associated with seizures, stres ....Epilepsy is one of the most common recurrent neurological disorders worldwide, affecting between 1 and 2% of the population. The cascade of events culminating in epilepsy, or the role of seizures in altering brain structures and circuits has been difficult to define. Previous work from our group has shown that stress markedly accelerates the process of epilepsy development. I am developing a model of brain functioning from observed brain cells to chart the changes associated with seizures, stress, and potential treatments.Read moreRead less
Robust transmission, identification and key agreement in communications networks. This project identifies significant, innovative directions to achieve robust data transmission, identification and key agreement in networks. It presents the information and communication technology industry with new and profitable markets, contributing to wealth creation, employment and exports. Immediate benefits are: 1. Contribution to the growing knowledge base and fundamental capabilities in networks; 2. Crea ....Robust transmission, identification and key agreement in communications networks. This project identifies significant, innovative directions to achieve robust data transmission, identification and key agreement in networks. It presents the information and communication technology industry with new and profitable markets, contributing to wealth creation, employment and exports. Immediate benefits are: 1. Contribution to the growing knowledge base and fundamental capabilities in networks; 2. Creation and commercialization of valuable intellectual property; 3. Education of future leading academic and industrial innovators within Australia; 4. High international profile of Australian communications and information technology research.
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