Differentiation Of Respiratory Behaviour In The Mammalian Fetus
Funder
National Health and Medical Research Council
Funding Amount
$434,839.00
Summary
Mammalian fetuses are highly active from early in gestation, manifesting patterns of activity that are gradually transformed throughout fetal life, ultimately producing a repertoire of behaviours essential for postnatal survival. These behaviours are of fundamental importance to animals, and none more so than breathing which must perform effectively from the moment of birth. We plan to examine neural control mechanisms that transform a primitive pattern of breathing in the early gestation fetus ....Mammalian fetuses are highly active from early in gestation, manifesting patterns of activity that are gradually transformed throughout fetal life, ultimately producing a repertoire of behaviours essential for postnatal survival. These behaviours are of fundamental importance to animals, and none more so than breathing which must perform effectively from the moment of birth. We plan to examine neural control mechanisms that transform a primitive pattern of breathing in the early gestation fetus into the functional form that effectively ventilates the lungs after birth. In addition to examining the prenatal development of breathing, our program will focus on the developmental fate of a transient behaviour restricted to early development. This early behaviour plays a fundamental role in the development of the motor system before being extinguished under the influence of supraspinal inputs. This program will therefore provide a basis for understanding the mechanisms by which the brain establishes control of the motor circuits of the spinal cord during development. Further, the program is designed to provide a basis for understanding the respiratory problems so common in the preterm human infant.Read moreRead less
Cortical Plasticity And Fine Motor Skills In Older Adults
Funder
National Health and Medical Research Council
Funding Amount
$244,255.00
Summary
Even in healthy individuals, the ageing process is usually associated with a progressive reduction in the performance of various motor skills, such as writing, placing keys in keyholes and fastening buttons. These deficits in manual performance may be due to an age-related decline in the ability of the brain to modify its connections (plasticity) when learning new motor skills. This brain plasticity is a fundamental property of the nervous system, where it is critical for learning and memory, bu ....Even in healthy individuals, the ageing process is usually associated with a progressive reduction in the performance of various motor skills, such as writing, placing keys in keyholes and fastening buttons. These deficits in manual performance may be due to an age-related decline in the ability of the brain to modify its connections (plasticity) when learning new motor skills. This brain plasticity is a fundamental property of the nervous system, where it is critical for learning and memory, but is also important for recovery from brain injury. The goal of the proposed studies is to examine the extent of brain plasticity when performing fine motor skills in older adults, and relate this to motor performance and learning in the elderly. We will use three complementary approaches that will employ novel techniques of magnetic brain stimulation to achieve this goal. These studies will be the first to ascertain a link between deficits in brain plasticity and impaired manual performance in older adults. Furthermore, these studies will be the first to examine interventions designed to promote brain plasticity and motor performance in older adults. Because the majority of patients requiring neurological rehabilitation are in an older age group, it is important to understand the extent of brain plasticity in the elderly. This new information may ultimately lead to innovative therapeutic or rehabilitation strategies to retain or improve fine motor skills in the elderly and promote functional recovery from brain injury.Read moreRead less
Through the research supported by this Australia Fellowship, Prof Goulding will recruit and establish an internationally recognized team of researchers to study how nerve cells in the spinal cord function and contribute to the sensorimotor networks that control movement, posture, balance and protective reflexes. Sensory pathways in the spinal cord are important for protecting individuals from tissue damage and noxious insults and they also play an important role in regulating locomotion and move ....Through the research supported by this Australia Fellowship, Prof Goulding will recruit and establish an internationally recognized team of researchers to study how nerve cells in the spinal cord function and contribute to the sensorimotor networks that control movement, posture, balance and protective reflexes. Sensory pathways in the spinal cord are important for protecting individuals from tissue damage and noxious insults and they also play an important role in regulating locomotion and movement. They provide sensory feedback to the motor system to modulate it or activate particular reflexes. A multidisciplinary approach will be taken to dissect these circuits, using cutting edge mouse molecular genetics that allows specialized cell types to be studied and manipulated.Read moreRead less
We have designed novel gene therapy agents to treat MND. This therapeutic approach uniquely combines gene therapy agents with antibodies which stimulate motor neuron health and connections to muscle. This project will comprehensively characterise the therapeutic effects of our novel gene therapy agents in MND mice. We predict that our gene therapy complexes will improve motor neuron survival,motor function and lifespan in MND mice.
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
Is EphA4 The Major Molecular Regulator Of Axonal Regeneration?
Funder
National Health and Medical Research Council
Funding Amount
$491,000.00
Summary
Spinal cord injury affects a substantial number of Australians each year. Around half the number of spinal cord injury cases result in quadriplegia, with loss of function to a varying degree in the upper as well as the lower limbs. The limited degree of repair of spinal axons following injury means that such paralysis is usually permanent. Although the inability to walk is a serious issue, the limited function of the arms and hands results in a loss of independence which is a major factor contri ....Spinal cord injury affects a substantial number of Australians each year. Around half the number of spinal cord injury cases result in quadriplegia, with loss of function to a varying degree in the upper as well as the lower limbs. The limited degree of repair of spinal axons following injury means that such paralysis is usually permanent. Although the inability to walk is a serious issue, the limited function of the arms and hands results in a loss of independence which is a major factor contribuing to the enormous personal, financial, and community costs of this problem, estimated to cost the Australian community $200 million a year. In recent years advanced anatomical and molecular approaches to the problem of repair of the central nervous system have provided great insights into the neuronal and glial reactions to neural damage that appear to govern the success or failure of neural regeneration. Our preliminary data indicate that a receptor tyrosine kinase, EphA4, which is important for axonal pathfinding in the developing nervous system, is a potent inhibitor of neural regeneration following spinal cord injury. In this project we will determine the mechanisms by which EphA4 exerts its inhibitory effects, and examine the effect of neutralizing EphA4 signalling on neural regeneration. Success in achieving this result will lead to the development of a therapeutic intervention that we will test in mouse models.Read moreRead less