Understanding The Human Hand In Grasping And How This Changes After Stroke
Funder
National Health and Medical Research Council
Funding Amount
$227,855.00
Summary
The hand allows remarkable feats of dexterity. But, paralysis of the hand severely limits daily activities and is common after stroke. We will determine key mechanisms that control the hand at the level of the brain and spinal cord. We will assess some limits that develop in the muscle itself. Stroke patients will be tested so that we can better understand the brain�s control of the hand and use this to enhance recovery of hand performance in those with impaired function.
Is Sympathetic Activation Beneficial Or Detrimental In Septic Shock?
Funder
National Health and Medical Research Council
Funding Amount
$458,755.00
Summary
Septic shock is a major cause of death in intensive care units. It is associated with large increases in sympathetic nerve activity to the heart and kidneys, which have both beneficial and harmful effects. This project will determine the responses to the increased sympathetic activity in septic shock, the causes of it and whether blocking this activation has an overall beneficial effect. This knowledge is essential before drugs that block sympathetic activation are examined in clinical studies.
Investigation Of The Influence Preterm Birth On Lung Structure And Function In School Age Children.
Funder
National Health and Medical Research Council
Funding Amount
$204,482.00
Summary
Bronchopulmonary dysplasia (BPD) remains the most significant chronic lung complication of premature birth. While some information on the long term respiratory outcomes in BPD exist there are no comprehensive studies linking lung structure, function and respiratory symptoms and relating these changes to neonatal history. Studies of this kind are essential to ensure future healthcare for these children can be planned accordingly.
The Role Of The Intestinal Epithelium In Gliadin Peptide Influx In Coeliac Disease
Funder
National Health and Medical Research Council
Funding Amount
$503,566.00
Summary
Food products made from cereals such as wheat are part of the staple diet for much of the world but unfortunately they trigger coeliac disease in 1:100 individuals including more than 100,000 Australians. This project aims to determine where the disease inducing proteins cross the cells that line the intestine to enter the body. It also aims at increasing the health of these cells to produce a barrier that can prevent the disease inducing proteins from entering the body.
Cognitive Function And Fatigue In Cancer Patients After Chemotherapy
Funder
National Health and Medical Research Council
Funding Amount
$246,412.00
Summary
Many patients complain of tiredness after chemotherapy and some experience problems with memory, concentration, thinking and other aspects of mental function. Studies have confirmed that some women with breast cancer suffer these effects after chemotherapy and that they can last a long time. Although generally subtle they can affect quality of life and ability to function. Little is known about the causes of these side-effects. Possible causes include blood clotting in small vessels of the brain ....Many patients complain of tiredness after chemotherapy and some experience problems with memory, concentration, thinking and other aspects of mental function. Studies have confirmed that some women with breast cancer suffer these effects after chemotherapy and that they can last a long time. Although generally subtle they can affect quality of life and ability to function. Little is known about the causes of these side-effects. Possible causes include blood clotting in small vessels of the brain and release of molecules called cytokines, as a result of chemotherapy. Hormonal changes and induced menopause might also contribute to these effects in women. Here we propose to evaluate men and women who either receive chemotherapy to prevent recurrence of colorectal cancer, or who are followed without such treatment after surgery. Patients will complete a questionnaire that assesses their level of fatigue and participate in tests of mental functioning, before, during and at intervals after treatment. Possible causes of fatigue and cognitive problems will be studied by measuring products in the blod that indicate blood clotting, levels of cytokine molecules that might cause these symptoms and levels of sex hormones in both men and women. This may lead to further studies to help reduce the burden of fatigue and cognitive impairment from chemotherapy. The goals of our study are to provide comphrehensive information about important side-effects of cancer treatment and to examine the mechanisms that may cause them. This information is important for supporting people living with cancer and for subsequent research to develop interventions that will promote healthy lifestyles during and after treatment for cancer.Read moreRead less
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
The broad aim of this project is to understand how the eye receives visual signals and sends them to the brain. Our experimental goal is to study the structure of neural connections in a poorly understood division of the visual system, called the koniocellular pathway. The cells of the koniocellular pathway make up close to 10 percent of all projections from the eye to the brain, but their functions are almost completely unknown. The fovea is a specialised region of the retina (the nerve cells w ....The broad aim of this project is to understand how the eye receives visual signals and sends them to the brain. Our experimental goal is to study the structure of neural connections in a poorly understood division of the visual system, called the koniocellular pathway. The cells of the koniocellular pathway make up close to 10 percent of all projections from the eye to the brain, but their functions are almost completely unknown. The fovea is a specialised region of the retina (the nerve cells which line the back of the eye). It is characterised by a very high density of cone photoreceptors, and is essential for high-acuity vision. This makes the fovea the most important part of the primate retina, but the high density of nerve cells there is thought to be the reason why the fovea is especially vulnerable to disease and age-related degeneration. Our aim is to analyse, using high-resolution microscopic techniques, the connections of koniocellular-pathway cells within the retina. We specifically aim to discover whether the koniocellular pathway contributes to foveal vision. Recent work from our and other laboratories has shown that many koniocellular-pathway cells receive functional connections from short-wavelength sensitive (blue) cone photoreceptors. Thus, our study will provide new insights into the connectivity of blue-cone pathways in the fovea. Although these experiments address basic scientific questions, they can lead to improved clinical practice. Understanding the wiring diagram of the retina can inform clinical studies of conditions such as glaucoma, and helps to give a rational basis for development of treatments. For example, dysfunction in blue-cone pathways is an early sign of glaucoma, so understanding the connections of blue-cone pathways in the fovea can lead to improved methods for early detection of this leading cause of blindness.Read moreRead less
Using Contextual Effects To Test Theories Of Coding In Visual Cortex
Funder
National Health and Medical Research Council
Funding Amount
$200,500.00
Summary
The visual cortex is the main structure in the brain that processes the visual scene. Cells in the cortex respond selectively to features of the scene such as the orientation of objects, the direction they move and their brightness relative to the background. Cortical cells are arranged in a topographic map of visual space, so that nearby cells respond to light from nearby parts of the image. Recent advances have shown that cells talk to each other so a stimulus in one part of the visual field c ....The visual cortex is the main structure in the brain that processes the visual scene. Cells in the cortex respond selectively to features of the scene such as the orientation of objects, the direction they move and their brightness relative to the background. Cortical cells are arranged in a topographic map of visual space, so that nearby cells respond to light from nearby parts of the image. Recent advances have shown that cells talk to each other so a stimulus in one part of the visual field can influence the responses of cells looking at other regions. This communication between cells is important in guiding the brain to focus on areas of the visual scene that are most important, a process known as attention. An example would be that a mouse moving through the periphery of someone's vision would attract their attention away from objects elsewhere in the scene. This project is designed to study the way that cells in the visual cortex cooperate to guide attention. Attention is important because it reduces the need to process all the detail in the visual scene with the same level of accuracy, leaving more resources free to process what is important. Attention deficits are a problem for people with dyslexia, so understanding the physiological basis of attention is an important goal. As well as attention, the visual system has a range of other mechanisms to select important information from the visual scene. For example, visual adaptation tends to improve the ability to code changes in the visual scene at the expense of reducing the sensitivity of the system overall. This project will investigate the relationship between attentional and adaptive mechanisms in the visual cortex. We expect to establish the precise physiological mechanisms that drive adaptive and attentional mechanisms in the mammalian brain.Read moreRead less