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Translation Of Effective Interventions In Injury Prevention And Trauma Care To A Chinese Setting
Funder
National Health and Medical Research Council
Funding Amount
$349,407.00
Summary
Evidence informed injury policy is not currently well developed in China. This research project will provide measures of the effectiveness of both a trauma care protocol in a hospital setting, and an intervention program for novice driver education-training in China, and will therefore contribute to the building of an evidence based injury prevention capacity in China.
Mild traumatic brain injury (TBI) is a leading cause of death and disability in Australia, especially in young populations. Although many patients recover uneventfully following mild TBI, complications such as prolonged symptoms, depression and cognitive deterioration may occur. With considerable advancements in neuroimaging and cognitive assessment in recent years, newer techniques may provide a window to directly observe changes that accompany mild TBI.
In this Fellowship I will capitalise on my role as Professor of Surgery and Public Health at Monash University, Director of the National Trauma Research Institute, and a surgeon at The Alfred Hospital, to lead a program of research that improves our understanding of what works in trauma care and trauma systems, uses scientific strategies to ensure research makes a difference to practice and policy, and supports further research that seeks to understand how research can best be used to improve in ....In this Fellowship I will capitalise on my role as Professor of Surgery and Public Health at Monash University, Director of the National Trauma Research Institute, and a surgeon at The Alfred Hospital, to lead a program of research that improves our understanding of what works in trauma care and trauma systems, uses scientific strategies to ensure research makes a difference to practice and policy, and supports further research that seeks to understand how research can best be used to improve injured peoples' lives.Read moreRead less
Mild Traumatic Brain Injury And The Risk Of Long-term Neurodegenerative And Neurobehavioural Disease
Funder
National Health and Medical Research Council
Funding Amount
$585,269.00
Summary
Considerable media attention surrounds the potential for long-term problems in individuals with high exposure to head impacts such as seen in sporting, civilian and/or military contexts. This study examines the long-term effects of mild traumatic brain injury (mTBI) and helps close the current knowledge gap of the impact of this disorder on individuals. There are no long term trials to answer the critical question of whether mild TBI causes long term problems in the brain.
Hypothermia Prior To Decompression For Treatment Of Acute Spinal Cord Injury
Funder
National Health and Medical Research Council
Funding Amount
$294,163.00
Summary
In spinal cord injuries, the cord is compressed as a result of vertebral injury. Urgent relief of compression improves outcome, however, is difficult because of the complexity of pre-surgical management. Our data demonstrate that hypothermia stops compressive spinal cord injury, allowing decompression to be performed in a period that will benefit most patients. This project aims to undertake the studies necessary before beginning a human trial of hypothermia prior to decompressive surgery.
Improving Muscle Function After Injury: Novel Tissue Engineering Strategies For Exercise, Surgery And Sports Medicine
Funder
National Health and Medical Research Council
Funding Amount
$288,210.00
Summary
Muscles can be injured by excessive strains when playing sports, in road and workplace accidents, and during plastic and reconstructive surgery. Some surgeries require an unavoidable interruption to the muscle's normal blood supply (called 'ischaemia'). Subsequent return of the muscle's blood supply (reperfusion) is problematic in that a severe secondary muscle injury can ensue mediated by the influx of damaging free radicals when blood flow is restored. Tissue-engineering provides a novel thera ....Muscles can be injured by excessive strains when playing sports, in road and workplace accidents, and during plastic and reconstructive surgery. Some surgeries require an unavoidable interruption to the muscle's normal blood supply (called 'ischaemia'). Subsequent return of the muscle's blood supply (reperfusion) is problematic in that a severe secondary muscle injury can ensue mediated by the influx of damaging free radicals when blood flow is restored. Tissue-engineering provides a novel therapeutic approach to restore muscle structure and function to damaged muscles after injury or disease. Our recent research using controlled release of growth factors from biodegradable hydrogels has exciting application for muscle repairafter injury. We will utilize these cutting edge tissue engineering strategies to deliver to damaged muscles a hydrogel containing controlled delivery (slow release) microcapsules loaded with an anabolic agent (the beta-agonist, formoterol) and-or a growth factor (IL-15) designed to enhance functional muscle repair after three distinct but clinically relevant models of muscle injury: a) crush injury: A model for muscle injuries on the sports field, in the workplace, and those associated with road trauma; b) ischaemia-reperfusion injury: a model for muscle damage associated with surgical interventions, muscle transfers for functional restoration, and other injuries associated with plastic and reconstructive surgery; and c) contraction-induced injury: a model for strain injuries such as hamstring muscle tears that can occur on the sports field. After injury we will assess functional muscle repair using a comprehensive series of histological, biochemical, molecular, immunochistochemical, and physiological techniques. The research has broad application to exercise and clinical medicine; including sports, emergency and rehabilitation medicine, and plastic, reconstructive, and orthopaedic surgery.Read moreRead less
Evaluation Of A Tailored Online Hospital And Post-discharge Smoking Cessation Program For Orthopaedic Trauma Surgery Patients
Funder
National Health and Medical Research Council
Funding Amount
$370,818.00
Summary
Smoking causes serious post-surgery complications and may lengthen recovery time. Hospitalisation is an ideal opportunity to encourage quitting to patients who smoke. We have found high rates of smoking among trauma surgery patients, and high interest to quit, yet few reported receiving advice to quit. We have designed an online quit support program for patients. The program is expected to help patients to quit smoking, leading to improvements in their recovery and general health.
Post-discharge Care And Recovery Of Seriously Injured Patients In A Regionalised Trauma System
Funder
National Health and Medical Research Council
Funding Amount
$314,644.00
Summary
The establishment of hospital trauma centres has improved survival for seriously-injured patients. However, there is still potential to improve the care of trauma patients following their discharge from hospital, particularly when they live outside big cities. This research will investigate the challenges faced by trauma patients in accessing follow-up care after they leave hospital, whether this influences their long-term recovery and what can be done to improve their care.