Investigations Of Mechanisms Underlying Autonomic Cardiovascular Regulation In Medial Temporal Lobe Epilepsy.
Funder
National Health and Medical Research Council
Funding Amount
$311,860.00
Summary
People with epilepsy often show disturbed cardiovascular function which may increase mortality risk. This may reflect seizure related disturbances in the autonomic circuitry regulation of the cardiovascular system. We apply advanced brain imaging analysis of altered neural structure, circuit connectivity and function within medial temporal lobe and mid brain, combined with clinical assessment of autonomic function to provide important new insights into cardiac disturbances in epilepsy.
A novel sensory neural circuit has been identified innervating the airways and lungs. The anatomical organisation of this circuit has been described to some extent in previous studies, however there is a significant gap in knowledge with respect to its functional importance. This project will develop methods to address this knowledge gap and in doing so the project will firstly describe how this circuit controls breathing under normal conditions and secondly how this becomes dysregulated during
How Does Chronic Epilepsy Result In Cardiac Electrophysiological Dysfunction?
Funder
National Health and Medical Research Council
Funding Amount
$737,112.00
Summary
Cardiac dysfunction is common in epilepsy, and could be an important contributor to the increased risk of sudden death in people with epilepsy (SUDEP). In this grant we will investigate: when changes in the cardiac function develop in relation to the epilepsy; if people with chronic epilepsy have similar changes; and what effect seizures and epilepsy has on the nerves innervating the heart. The outcomes have the potential to motivate new treatments and prevention for this important problem.
Changes In Pelvic Autonomic Neurons After Spinal Nerve Injury
Funder
National Health and Medical Research Council
Funding Amount
$176,734.00
Summary
This project is about the effects of spinal injury on autonomic neurons that control the bladder, lower bowel and reproductive organs. One of the consequences of some types of spinal injury is that there are no signals being sent from the spinal cord to the nerve cells outside the cord, and this leads to poor bladder control, impotence, etc. We are mimicking this problem experimentally by damaging the spinal nerves that carry these signals. We have found that after this type of damage the pelvic ....This project is about the effects of spinal injury on autonomic neurons that control the bladder, lower bowel and reproductive organs. One of the consequences of some types of spinal injury is that there are no signals being sent from the spinal cord to the nerve cells outside the cord, and this leads to poor bladder control, impotence, etc. We are mimicking this problem experimentally by damaging the spinal nerves that carry these signals. We have found that after this type of damage the pelvic autonomic neurons make many new connections between each other, and the types of new connections depend on which spinal nerves have been injured. This leads to the question: are these new connections good or bad? ie are they helpful in trying to get organ control back to normal or will they stop the correct connections from the spinal cord from being made in the future? This project addresses these questions by using sophisticated techniques for staining and visualising individual nerve fibres growing out from the spinal cord. We will track how well these fibres grow back and connect with the pelvic autonomic neurons. In particular, we will see whether they make correct connections, and if these connections are influenced by the new fibres that have grown between the autonomic neurons in the interim period. We will also do physiological tests to see if the new connections have the correct function. The ultimate aim of these studies is not only to understand more about regeneration, but to see what determines whether the correct connections have been made - and ideally, to give us insight into how we can make regeneration work more quickly and accurately. We believe that this work is an important adjunct to other studies on spinal injury, which mostly focuses on regaining voluntary motor control (e.g. walking); however loss of bladder, bowel and reproductive function is another important quality of life issue for spinal injury patients.Read moreRead less
Regeneration Of Pelvic Autonomic Axons After Injury
Funder
National Health and Medical Research Council
Funding Amount
$457,267.00
Summary
This project is focused on the problem of erectile dysfunction, especially the common situation where this is caused by injury to the penile nerves. These nerves are part of the parasympathetic nervous system . Nerve injury-induced erectile dysfunction is a common problem for prostatectomy patients, with recovery of normal erections occurring slowly, partially or not at all. There is currently no therapy to improve regeneration of these nerves, and this is partly because very little is known abo ....This project is focused on the problem of erectile dysfunction, especially the common situation where this is caused by injury to the penile nerves. These nerves are part of the parasympathetic nervous system . Nerve injury-induced erectile dysfunction is a common problem for prostatectomy patients, with recovery of normal erections occurring slowly, partially or not at all. There is currently no therapy to improve regeneration of these nerves, and this is partly because very little is known about effects of injury on any parasympathetic neurons, and especially for those that are essential for erection. The first aim of this study is to define the key structural and functional changes occurring in penile parasympathetic neurons during regeneration after injury. This fundamental neurobiological knowledge is essential to develop and optimise an future growth treatments. The second aim of the study is to define the effects of a protein, neurturin, on axonal regeneration of penile pro-erectile neurons. Our evidence so far strongly suggests that it is necessary for the early stages of injury responses. Our studies will be performed in mice, where we also have colonies of knockout animals to study the effect of removing neurturin from the regeneration process. Our experiments will include neuroanatomical studies of injured and growing nerves, pharmacology studies on penile smooth muscle (corpus cavernosum) innervation and responsiveness, and tissue culture studies. We will investigate not only the changes that occur following injury to penile nerves, but also the way in which undamaged nerves may assist in returning erectile function.Read moreRead less
Unravelling The Neuropathological Basis Of The Gastrointestinal Manifestations Of Parkinson’s Disease
Funder
National Health and Medical Research Council
Funding Amount
$822,957.00
Summary
Parkinson’s Disease occurs in about 1% of the population. It is a distressing, progressive disease that places a severe burden on patients, families and carers. 80-90% of Parkinson’s Disease patients have constipation which causes substantial distress to patients, their families and carers. We have a rational path to therapy for constipation of Parkinson’s Disease that will be pursued in this project
Investigating The Mechanisms That Increase Nerve-evoked Vasoconstriction Following Spinal Cord Injury
Funder
National Health and Medical Research Council
Funding Amount
$372,547.00
Summary
People with spinal cord injury not only lose control of their arms and legs but also lose control of their bladder and bowel. They also have poor control of blood pressure and an overfull bladder or bowel can lead to dangerously high blood pressure. In this project, we are investigating how this abnormal high blood pressure is generated. The aim is to develop treatments which target the mechanisms which increase the blood pressure responses elicited by the bladder and bowel.
Stress and obesity can lead to high blood pressure and greatly increase the risk of life threatening cardiovascular events. This application seeks to determine which chemicals and parts of the brain are responsible for amplifying the responses to repeated stress and during obesity in animal models leading to hypertension.
Strategies To Restore Bladder Control After Peripheral Nerve Injury
Funder
National Health and Medical Research Council
Funding Amount
$519,967.00
Summary
A major complication of pelvic surgery is loss of bladder control, mainly due to nerve injury at the time of removing cancerous tissue. This has a big effect on quality of life. Very little research has been conducted on injured bladder nerves. In this project we will investigate what happens to bladder nerves after injury and how we can make them regrow. We will also investigate if undamaged bladder nerves can be made to compensate for the lost function.