Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454081
Funder
Australian Research Council
Funding Amount
$276,317.00
Summary
Innovative Assistive Technology for Severely Disabled People. Severe disability costs Australia $1 billion a year and affects about 50,000 people. These people have few options to enhance their independence. The purpose of this grant is to purchase six equipment systems to support high quality research in this field. The new facility builds upon substantial national and international research strengths and collaborations to develop a world lead in assistive technology. This will yield a new gene ....Innovative Assistive Technology for Severely Disabled People. Severe disability costs Australia $1 billion a year and affects about 50,000 people. These people have few options to enhance their independence. The purpose of this grant is to purchase six equipment systems to support high quality research in this field. The new facility builds upon substantial national and international research strengths and collaborations to develop a world lead in assistive technology. This will yield a new generation of innovative medical devices that give the disabled people more independence, mobility and control over their lives, and form the basis of a niche export industry.Read moreRead less
Pedal and motor cycle helmet performance study. Cycling is a form of recreation and transport. Both pedal and motor cyclists are exposed to risks of head and neck injury. These injuries occur in young people and can have substantial health and economic impacts on the individuals and society. It is believed that injury rates can be reduced and an active lifestyle encouraged by improving helmet performance and understanding factors that lead to non-use. As helmet use is mandatory it is importa ....Pedal and motor cycle helmet performance study. Cycling is a form of recreation and transport. Both pedal and motor cyclists are exposed to risks of head and neck injury. These injuries occur in young people and can have substantial health and economic impacts on the individuals and society. It is believed that injury rates can be reduced and an active lifestyle encouraged by improving helmet performance and understanding factors that lead to non-use. As helmet use is mandatory it is important that Australians are provided with optimal helmets. The specification of product standards is also relevant for international trade agreements. Read moreRead less
Optimising protection for motor vehicle rear seat occupants. Road trauma is a leading cause of death and disability for Australians under 45 years of age. Recent technological advances in vehicle safety have focussed on drivers and front seat passengers, leaving the rear seat lagging behind. This project will adress gaps in protection for rear seat passengers, including increasing correct use of child restraints for young passengers from non-English speaking families, and evaluating new and exis ....Optimising protection for motor vehicle rear seat occupants. Road trauma is a leading cause of death and disability for Australians under 45 years of age. Recent technological advances in vehicle safety have focussed on drivers and front seat passengers, leaving the rear seat lagging behind. This project will adress gaps in protection for rear seat passengers, including increasing correct use of child restraints for young passengers from non-English speaking families, and evaluating new and existing technologies for older passengers.Read moreRead less
Effectiveness and appropriateness of child restraints. This project aims to provide a definitive picture of the use, misuse and inappropriate use of child restraints in motor vehicles. It will evaluate the biomechanical and size deficiencies of current child restraints for the current population of children, and the implications for increased injury associated with these factors. This will provide a solid evidence base for improved child restraint design, education, and legislative changes.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989384
Funder
Australian Research Council
Funding Amount
$233,000.00
Summary
High-speed, three-dimensional, x-ray fluoroscopy for accurate measurement of human joint motion. This proposal addresses one of the most difficult and long-standing problems in the field of biomechanics: How can human joint motion be measured accurately and non-invasively during common activities such as walking, stair ambulation and running? Low-dose, high-speed, three-dimensional, x-ray fluoroscopy provides an excellent solution to this problem and, in so doing, can play a pivotal role in heal ....High-speed, three-dimensional, x-ray fluoroscopy for accurate measurement of human joint motion. This proposal addresses one of the most difficult and long-standing problems in the field of biomechanics: How can human joint motion be measured accurately and non-invasively during common activities such as walking, stair ambulation and running? Low-dose, high-speed, three-dimensional, x-ray fluoroscopy provides an excellent solution to this problem and, in so doing, can play a pivotal role in healthcare, through clinical gait analysis and gait rehabilitation (diagnosis, prevention and treatment of movement disorders); in sports, through the development of personalized training programs for elite athletes; and in entertainment, through the creation of physics-based animations for the video/digital games industry.Read moreRead less
Hybrid Sensor-based Physiological Control of an Implantable Rotary Blood Pump. With over 11 million people needing heart transplants worldwide and only 3000 donor hearts, an effective alternative therapy is needed. The Ventracor Ltd. rotary blood pump is one possible approach whereby a fully implantable mechanical device assists the failing heart. The innovative steps in this research proposal will be a means to robustly and safely control the speed of the pump to meet the metabolic needs of the ....Hybrid Sensor-based Physiological Control of an Implantable Rotary Blood Pump. With over 11 million people needing heart transplants worldwide and only 3000 donor hearts, an effective alternative therapy is needed. The Ventracor Ltd. rotary blood pump is one possible approach whereby a fully implantable mechanical device assists the failing heart. The innovative steps in this research proposal will be a means to robustly and safely control the speed of the pump to meet the metabolic needs of the body. Apart from the obvious health benefits for patients, this will provide the company with a huge market advantage that will also help to bolster the Australian medical device industry.Read moreRead less
Rheological and Electrical Properties of Biological Soft Tissues. Research on coupling rheological and electrical properties of biological soft tissues and their composites is fundamental to medical and sport sciences, as well as the optimal design and management of smart biomedical devices and bio-microtransducers. This project aims to develop an effective rheological and electrical constitutive law and finite element implementation together with supporting experiments to reveal the novel coupl ....Rheological and Electrical Properties of Biological Soft Tissues. Research on coupling rheological and electrical properties of biological soft tissues and their composites is fundamental to medical and sport sciences, as well as the optimal design and management of smart biomedical devices and bio-microtransducers. This project aims to develop an effective rheological and electrical constitutive law and finite element implementation together with supporting experiments to reveal the novel coupling behaviour of viscoelastic and electric fields of the innovative smart biological soft tissue. These results will provide a guideline for future research in tissue engineering and help Australian biomedical science and industries improve the modern biotransducers and smart biomicro-devices.Read moreRead less
Nonlinear viscoelastic properties of paediatric soft tissues throughout development. This project will determine how the soft tissues of the human body change during normal development, and how these changes affect their response to mechanical forces. This data will be useful for understanding childhood injury mechanisms, and how diseases affect children's soft tissues.
Measuring large deformation tissue mechanical behaviour in living humans. This project aims to develop new in vivo imaging methods to characterise the nonlinear mechanical behaviour of soft biological tissues, and use them to measure the properties of muscle, liver and adipose tissue in human subjects. Comprehensively characterising the mechanical properties of an individual person’s body tissues in vivo is a long-standing challenge in biomechanics and biomedical engineering. These new methods a ....Measuring large deformation tissue mechanical behaviour in living humans. This project aims to develop new in vivo imaging methods to characterise the nonlinear mechanical behaviour of soft biological tissues, and use them to measure the properties of muscle, liver and adipose tissue in human subjects. Comprehensively characterising the mechanical properties of an individual person’s body tissues in vivo is a long-standing challenge in biomechanics and biomedical engineering. These new methods aim to overcome major imitations of current biomechanical imaging methods, and make new measurements of the nonlinear mechanical properties of muscle, liver and adipose tissues. These techniques may be useful for future diagnostic, biomechanics and mechanobiology applications.Read moreRead less
Fundamental theoretical and experimental investigation of cartilage mechanics. Arthritis and chronic joint symptoms are one of the leading causes of disability in the community, yet a fundamental understanding of joint mechanics has yet to be realised. The aim of this project is to develop a new state-of-the-art mathematical model describing cartilage behaviour in humans. The model will explain how activities like walking maintain healthy cartilage by transferring growth factors through the tiss ....Fundamental theoretical and experimental investigation of cartilage mechanics. Arthritis and chronic joint symptoms are one of the leading causes of disability in the community, yet a fundamental understanding of joint mechanics has yet to be realised. The aim of this project is to develop a new state-of-the-art mathematical model describing cartilage behaviour in humans. The model will explain how activities like walking maintain healthy cartilage by transferring growth factors through the tissue, and quantitatively explain how wear is minimised in cartilage through weeping lubrication. This model will progress our understanding of cartilage mechanics in health and disease, and so help Australians age well and productively.Read moreRead less