Reconsideration Of The Mechanisms Underlying Movement Changes With Pain
Funder
National Health and Medical Research Council
Funding Amount
$401,361.00
Summary
Pain changes the way we move. Although undisputed, there is a surprising lack of agreement regarding the underlying mechanisms. This project involves an innovative mix of neurophysiological methods to investigate how the drive to muscle cells from the nervous system is altered during pain. We aim to resolve the perplexing problem of how pain changes our ability to activate muscle. Our findings are likely to provide a clear understanding of the underlying mechanisms and guide rehabilitation.
The Role Of The Systemic Milieu In Preventing Motor Unit Remodelling And Loss During Ageing
Funder
National Health and Medical Research Council
Summary
Motor unit remodeling and loss contributes to the decline in muscle mass, strength and quality of life in our aging population. Recent data shows that exposing aged mice to 'blood-borne factors' from the circulation of a young mouse can reverse the age-associated deficits in motor unit structure and function. A better understanding of the factors controlling these anti-aging effects will be vital for finding new compounds to reverse the aging process and improve quality of life.
Experience drives changes in the connections between neurons in the brain. This neuroplasticity is a fundamental property of the nervous system, critical for learning and memory, but also important for recovery from injury and development of some nervous system disorders. This study will improve understanding of how, with practice, the human brain adapts to functional demands in the development of motor skill. Musicians are used as exemplars of fine motor skill who show long-term experience-driv ....Experience drives changes in the connections between neurons in the brain. This neuroplasticity is a fundamental property of the nervous system, critical for learning and memory, but also important for recovery from injury and development of some nervous system disorders. This study will improve understanding of how, with practice, the human brain adapts to functional demands in the development of motor skill. Musicians are used as exemplars of fine motor skill who show long-term experience-driven plasticity in the brain. This study will provide specific and detailed quantitative information about how motor cortex circuits important for control of the hand are altered in musicians. The study will also improve understanding of basic mechanisms involved in short-term neuroplasticity associated with motor learning in musicians and non-musicians, and hemispheric or training-related differences in these properties which may contribute to different abilities to use the hand for fine motor tasks.Read moreRead less
Motor Unit Synchronisation And Neuromuscular Performance
Funder
National Health and Medical Research Council
Funding Amount
$198,500.00
Summary
The fine control of force is important for many everyday tasks such as writing, grasping objects between index finger and thumb, and fastening buttons. Factors that influence the ability to control force include the coordinated activation of groups of muscle fibres called single motor units. This proposal focuses on the concept that the coordinated activation of motor units is influenced by muscle activity and can impair the ability to produce finely controlled muscle contractions. The goal of t ....The fine control of force is important for many everyday tasks such as writing, grasping objects between index finger and thumb, and fastening buttons. Factors that influence the ability to control force include the coordinated activation of groups of muscle fibres called single motor units. This proposal focuses on the concept that the coordinated activation of motor units is influenced by muscle activity and can impair the ability to produce finely controlled muscle contractions. The goal of these studies is to explore the boudary conditions of the adaptive nature of the nervous system to examine how coordinated motor unit activity influences these aspects of neuromuscular performance. The outcomes of these experiments will identify if altering muscle activity influences the control of movement by altering single motor unit activity. These results will have direct application to the interpretation of abnormal movement control and tremor that is observed in certain neurological diseases such as Parkinson's disease. Furthermore, new information will be gained on the adaptability of the motor system and its role in the execution of fine motor tasks that may aid in the development of rehabilitation strategies following stroke or spinal cord injury.Read moreRead less