Immediate Cooling And Emergency Decompression (ICED) For The Treatment Of Spinal Cord Injury: Pilot, Safety And Feasibility Studies
Funder
National Health and Medical Research Council
Funding Amount
$600,008.00
Summary
Victims of Spinal Cord Injury are young, have severe paralysis, complex needs and high lifetime costs. Although urgent surgery greatly improves outcome, it is difficult to achieve because of logistical difficulties. To expand the time window for early surgery, it is proposed to immediately cool patients. This project will conduct the pilot studies necessary before commencing a clinical trial of immediate cooling and emergency decompression (ICED) in patients with cervical spinal cord injuries.
Therapeutic Development Of A Novel EphA4 Antagonist For Spinal Cord Injuries
Funder
National Health and Medical Research Council
Funding Amount
$687,105.00
Summary
Spinal cord injuries impose a significant burden on patients and their carers. At present, there are no treatments for spinal cord injury that provide functional improvement. This research program will develop a novel therapeutic molecule, EphA4-Fc, which promotes axonal regeneration and delivers significant functional improvement. We will determine the most effective protocol for EphA4-Fc administration and the physiological and functional outcomes of these treatment regimes.
Connectivity Of Regenerating Axons Following Spinal Cord Injury
Funder
National Health and Medical Research Council
Funding Amount
$586,428.00
Summary
Our objective is to thoroughly investigate the connections made by regenerating nerve fibres in mice which are treated with specific compounds to inhibit scarring as well as with active exercise following spinal cord injury. This will provide evidence of the potential of these compounds as a therapeutic intervention. Understanding how the nervous system rewires following exercise intervention will provide insights as to how new connections can be shaped to ensure optimal recovery of function.
Translation Of Abdominal Functional Electrical Stimulation From A Research Tool To Clinical Practice
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
People with a spinal cord injury to the neck are often unable to move their arms and legs, a condition known as tetraplegia. Tetraplegics are also unable to use their abdominal muscles, reducing breathing and bowel function. This project will use electrical pulses to make their abdominal muscles contract, improving breathing and bowel function. The results will be used to develop a program that can be used in all hospitals, reducing illness in tetraplegia and saving the health service money.
Effectiveness Of Ghrelin Receptor Agonists To Limit The Extent Of Tissue Damage Caused By Traumatic Injury To The Central Nervous System
Funder
National Health and Medical Research Council
Funding Amount
$592,002.00
Summary
Ghrelin is a naturally occurring compound that under adverse conditions can activate specific receptors on cells around the body to enhance their survival. These receptors are also present in the spinal cord, but ghrelin doesn't enter the spinal cord. We will investigate a new group of compounds that can enter the spinal cord and activate these receptors to see if this can reduce the amount of damage that occurs after a spinal cord injury. Less tissue damage would mean less permanent disability.
Researching Functioning, Disability And Rehabilitation: Translation Into Policy And Practice
Funder
National Health and Medical Research Council
Funding Amount
$481,167.00
Summary
Appropriate support, including responsive health services, is a key to assisting people with disabilities. Disability is most common in older age but acquired disability, particularly following injury, is important in younger people. This research proposal investigates functioning, disability and rehabilitation across the adult lifespan and aims to translate research findings into policy and practice.
Unravelling The Riddle Of Spondylolysis: A Novel Biomechanical Approach Incorporating Innovative Strain Field Mapping, Acute Fracture Path Mapping And In Vivo Weightbearing Spinal Kinematics Derived From Open Magnetic Resonance Imaging.
Funder
National Health and Medical Research Council
Funding Amount
$334,673.00
Summary
Low back pain represents a significant social and economic burden in Australia and can be debilitating for individuals. This project aims to understand the biomechanical origins and consequences of spondylolysis, a common spinal stress fracture affecting both children and adults. The results of these studies will contribute to improved prevention, detection and treatment of this spinal condition, and reduce the incidence of more serious spinal problems which can occur subsequent to spondylolysis ....Low back pain represents a significant social and economic burden in Australia and can be debilitating for individuals. This project aims to understand the biomechanical origins and consequences of spondylolysis, a common spinal stress fracture affecting both children and adults. The results of these studies will contribute to improved prevention, detection and treatment of this spinal condition, and reduce the incidence of more serious spinal problems which can occur subsequent to spondylolysis.Read moreRead less
Promoting Recovery After Neurotrauma: Basic Science, Clinical Trials And Community Engagement
Funder
National Health and Medical Research Council
Funding Amount
$356,269.00
Summary
To promote recovery after neurotrauma by controlling the spread of damage and by maximising function in surviving circuits. The work involves animal models & nanotechnology as well as clinical rehabilitation trials in humans with spinal cord injury.
Inflammatory lipids are involved in neurotrauma. They are key players in regulating the brain, spinal cord and immune responses to injury and thus in modulating the outcome of central nervous system (CNS) damage. We will investigate how bioactive inflammatory lipids, released during trauma, modulate neural response to injury and regeneration, by assessing their roles on central nervous system responses to injury.
Targeting The Complement Activation Fragment C5a To Improve The Outcome From Spinal Cord Injury
Funder
National Health and Medical Research Council
Funding Amount
$406,838.00
Summary
This project will focus on the development of a new drug that is designed to attenuate the harmful inflammatory response that follows from spinal cord injury (SCI). The experiments will determine if the therapeutic targeting of an immune receptor molecule, called C5aR, can protect compromised neural tissues after injury against harmful inflammation and degeneration whilst also explore the mechanism behind the therapeutic effect.