We stand without falling by using silent senses from muscles and the balance organs of the inner ear to unconsciously detect and control our movements. Since the leg muscles provide both the force and the sense, and critically rely on good circulation, they are vitally important. I propose to study how these sensory and muscle functions are used to control balance, posture and stepping reflexes, making it easier to identify older people who will fall and design new preventative strategies.
Pain And Trunk Muscle Control: Effects, Mechanisms And Consequences
Funder
National Health and Medical Research Council
Funding Amount
$296,452.00
Summary
Twenty-one percent of Australians report long-term back problems. This makes back pain the most common chronic pain in Australia and most prevalent disorder among the National Health Priority Areas. For the majority with recurrent and chronic problems, the cause is unknown but changes in control of the spine are thought to be important. It is well accepted that pain and injury to the low back affect the way that we control the back muscles and this leads to changes in spinal function. However, d ....Twenty-one percent of Australians report long-term back problems. This makes back pain the most common chronic pain in Australia and most prevalent disorder among the National Health Priority Areas. For the majority with recurrent and chronic problems, the cause is unknown but changes in control of the spine are thought to be important. It is well accepted that pain and injury to the low back affect the way that we control the back muscles and this leads to changes in spinal function. However, despite considerable investigation of this problem, there is a distinct lack of consensus for how the control of movement is changed during pain, why it changes, and whether these changes lead to further problems in the long term. The objective of this series of studies is to determine how the adaptation to pain changes the control of the spine. We will use a range of techniques that include tests of the strategies used by the brain to control the spine and mathematical models to estimate the effect that these changes have on the spine when people are given back pain by injecting sterile salty water into the back muscles. These studies will be backed up by measures of mechanical properties of the spine and by comparison to people with clinical pain. This combination of methods has not been used previously and is likely to help resolve the problem of how muscle control is chaged in back pain. We will also test a range of hypotheses regarding how pain has its effect on muscle activity. A final series of studies aims to determine whether the failure of these changes in muscle control to resolve after an epiosde of back pain leads to increased recurrence of pain in the long-term. The importance of this project is highlighted by the significance of back pain as a major health issue, the lack of consensus regarding the effect and mechanisms of pain on trunk muscle control (despite extensive investigation), and the potential for the findings to guide rehabilitation and management.Read moreRead less
Staying Connected: Personalising Stroke Recovery And Rehabilitation Through New Technologies For People With Stroke Living At Home.
Funder
National Health and Medical Research Council
Funding Amount
$1,730,999.00
Summary
One in 4 people experience a stroke. On return home the person with stroke is challenged to sense, move, think, and engage in valued activities with an altered brain and body. Yet the current approach to ongoing recovery is limited. We propose to: monitor for markers of recovery using personalised sensors and artificial intelligence; deliver bursts of therapy at point of need, at home; and provide feedback through new technologies and a central hub...to stay connected, and to recover at home.
Human Movement Control: Basic And Applied Neurophysiology
Funder
National Health and Medical Research Council
Funding Amount
$948,684.00
Summary
My research targets mechanisms underlying human movement, ways in which they can be deranged, and ways in which interventions can diminish impairments. It focuses on gaps in understanding and in clinical practice. Work in our broad ‘Motor Impairment’ NHMRC Program underpin my research. It is supplemented by new work on respiratory neurophysiology which has already delivered basic and clinical insight into neural control of the main breathing muscles and more recently upper airway muscles.
INVESTIGATING PROPRIOCEPTION AND SENSORIMOTOR CONTROL IN HUMANS DEVOID OF FUNCTIONAL MUSCLE SPINDLES
Funder
National Health and Medical Research Council
Funding Amount
$335,983.00
Summary
Specific genetic mutations can lead to widespread changes in the body. Here we are looking at congenital Hereditary and Sensory Autonomic Neuropathy type III (HSAN III). Affected individuals have difficulty walking, which progressively worsens over time. This series of experiments aims to increase our understanding of the underlying neurophysiological disturbances in HSAN III.
Spatial Coding In The Primate Cortex During Eye Movements.
Funder
National Health and Medical Research Council
Funding Amount
$428,720.00
Summary
Every time we move our eyes, objects in the world change their positions on the retina, yet to us, their positions remain perceptually unchanged. This project seeks to understand how neurons in the primate brain combine visual input with signals about eye position to construct this stable representation of external space. The findings will help us understand and-or rehabilitate a host of nervous system dysfunctions, including schizophrenia, stroke, and paraplegia.