Development of electrical probes and advanced classification algorithms for early detection of cancer. The curable precursor of cervical cancer is cervical intra-epithelial neoplasia (CIN). Various cancer probes will be constructed for the identification of CIN based on electrical measurements on tissue. Through studies of the cellular structure and the junction between cells, a theoretical model of the electrode/mucus/tissue system will be developed at and below the surface of the tissue under ....Development of electrical probes and advanced classification algorithms for early detection of cancer. The curable precursor of cervical cancer is cervical intra-epithelial neoplasia (CIN). Various cancer probes will be constructed for the identification of CIN based on electrical measurements on tissue. Through studies of the cellular structure and the junction between cells, a theoretical model of the electrode/mucus/tissue system will be developed at and below the surface of the tissue under examination. Theoretical modelling, probe development and detection algorithms will be used to identify CIN in real-time with concurrently high sensitivity and specificity. Effective electrical probes for early detection of cancer (cervical, lung and breast) will be of enormous national and international benefit.Read moreRead less
Dynamic magnetic resonance imaging in orthopaedics. The research in this proposal aims at developing new imaging systems that enable joints to be imaged while they are moving. This is an Australian first technology and will change the way in which diagnosis of joint diseases is done. The applications of this new technique include the diagnosis and monitoring of treatment in Osteoarthritis and related chronic joint diseases. Also, acute injuries to knees, hips, shoulders and other joints will be ....Dynamic magnetic resonance imaging in orthopaedics. The research in this proposal aims at developing new imaging systems that enable joints to be imaged while they are moving. This is an Australian first technology and will change the way in which diagnosis of joint diseases is done. The applications of this new technique include the diagnosis and monitoring of treatment in Osteoarthritis and related chronic joint diseases. Also, acute injuries to knees, hips, shoulders and other joints will be able to be better diagnosed and hence improve treatment planning as a result.Read moreRead less
New open MRI Technology for Kinematic Orthopaedic Imaging. This application intends to significantly enhance Open MRI as applied to dynamic joint imaging by technological and methodological innovation. Expected outcomes include better technology for the imaging of joints under loaded movement and consequently, improved understanding of joint function and disease. This technology will provide unique ability in Australia and brings together highly skilled groups in Biomedical Engineering, medical ....New open MRI Technology for Kinematic Orthopaedic Imaging. This application intends to significantly enhance Open MRI as applied to dynamic joint imaging by technological and methodological innovation. Expected outcomes include better technology for the imaging of joints under loaded movement and consequently, improved understanding of joint function and disease. This technology will provide unique ability in Australia and brings together highly skilled groups in Biomedical Engineering, medical equipment manufacturing and design and musculo-skeletal imaging.Read moreRead less
Intelligent training (iTraining) for the human Achilles tendon. The project aims to improve understanding of the mechanical environment of the Achilles tendon. The Achilles tendon plays a crucial role in human motor function and is also a structure that is commonly injured and notoriously difficult to treat. A major barrier to improving Achilles tendon function, preventing tendon injury and enhancing tendon repair is a poor understanding of the mechanical environment of the Achilles tendon durin ....Intelligent training (iTraining) for the human Achilles tendon. The project aims to improve understanding of the mechanical environment of the Achilles tendon. The Achilles tendon plays a crucial role in human motor function and is also a structure that is commonly injured and notoriously difficult to treat. A major barrier to improving Achilles tendon function, preventing tendon injury and enhancing tendon repair is a poor understanding of the mechanical environment of the Achilles tendon during training and rehabilitation. The project aims to develop a better understanding of the loading conditions that optimise tendon metabolism. Based on this, it then intends to develop new technologies to estimate the mechanical behaviour of the human Achilles tendon in real time based on integrated use of wearable technology, and new training guidelines that will optimise human tendon adaptation.Read moreRead less
Development of an implantable blood flow and pressure monitor for pulmonary hypertension. The aim is to develop an implantable device for continuous measurement of blood pressure and flow rate in the pulmonary artery. The device is to store data and download it on request to an external device. Development steps include design of the sensor lead incorporating impedance electrodes and a pressure transducer, numerical modelling of the electrode system, characterising pressure and flow waveforms f ....Development of an implantable blood flow and pressure monitor for pulmonary hypertension. The aim is to develop an implantable device for continuous measurement of blood pressure and flow rate in the pulmonary artery. The device is to store data and download it on request to an external device. Development steps include design of the sensor lead incorporating impedance electrodes and a pressure transducer, numerical modelling of the electrode system, characterising pressure and flow waveforms for condensed storage, establishing flow sensor and blood flow relationships and assessment of sensor stability and calibration demands. The device will facilitate research in pulmonary hypertension and may lead to clinical devices for monitoring effectiveness of treatment.Read moreRead less
Heteronuclear parallel imaging and spectroscopy for magnetic resonance. This project will develop novel imaging technology for improved interrogation of biological processes in living tissue. Successful outcomes of this project are expected to contribute significantly to biomedical research efforts, such as improved early detection and treatment of cancer and chronic disease.
Cochlear Implants: Identifying Current Paths through Computational Modelling of MRI Data. The Cochlear implant is an Australian invention (first prototype 1978), leading to the formation of Cochlear Ltd. to commercialise it. Cochlear Ltd. has now delivered implants to over 60,000 people in 70 nations across the world. Copycat companies have arisen overseas, but Cochlear Ltd. remains the market leader, due to their commitment to ongoing R&D. The present project involves magnetic resonance imaging ....Cochlear Implants: Identifying Current Paths through Computational Modelling of MRI Data. The Cochlear implant is an Australian invention (first prototype 1978), leading to the formation of Cochlear Ltd. to commercialise it. Cochlear Ltd. has now delivered implants to over 60,000 people in 70 nations across the world. Copycat companies have arisen overseas, but Cochlear Ltd. remains the market leader, due to their commitment to ongoing R&D. The present project involves magnetic resonance imaging and finite element analysis to study the current leakage pathways in the cranial cavity for the purpose of optimizing the design and placement of the return electrode. The obvious benefit of this is longer battery life. Better understanding of current leakage over other intracranial nerves is the other anticipated benefit.Read moreRead less
Non-invasive control of an implantable rotary blood pump used as a left ventricular assist device. The Holy Grail for developers of rotary blood pumps used as left ventricular assist devices is to control the pump to meet the body's metabolic demand and to do this without the need for implanting additional sensors. The controller must also detect and avoid dangerous states associated with over and under pumping.
In this research we will derive and implement a pump control algorithm that will ....Non-invasive control of an implantable rotary blood pump used as a left ventricular assist device. The Holy Grail for developers of rotary blood pumps used as left ventricular assist devices is to control the pump to meet the body's metabolic demand and to do this without the need for implanting additional sensors. The controller must also detect and avoid dangerous states associated with over and under pumping.
In this research we will derive and implement a pump control algorithm that will allow non-invasive prediction of pump flow, automatic detection of pumping states and adjustments for the metabolic demand of the body. The algorithms will be tested on the bench and in animal and human studies.Read moreRead less
Transceive Phased Arrays for Parallel Imaging in High Field Magnetic Resonance Microscopy. This project will contribute to the development of a new generation of Magnetic Resonance Imaging systems that provide new and innovative features capable of significantly increasing the resolution and /or speed of imaging. The economic benefit of being a developer of this technology is clear and significant. These new systems will enhance the efficiency and power of clinical diagnostic testing. Specifica ....Transceive Phased Arrays for Parallel Imaging in High Field Magnetic Resonance Microscopy. This project will contribute to the development of a new generation of Magnetic Resonance Imaging systems that provide new and innovative features capable of significantly increasing the resolution and /or speed of imaging. The economic benefit of being a developer of this technology is clear and significant. These new systems will enhance the efficiency and power of clinical diagnostic testing. Specifically, the enabling of molecular imaging will enhance the study of many more disease states and rapid assessment of new in vivo therapeutic agents. The side-stream benefit to biomedical research and development in Australia is therefore substantial. Read moreRead less
Influence of electromagnetic emissions from mobile phones on nervous function in the human brain and heart. This research will investigate the influence of mobile phone electromagnetic exposures on the nervous function of the human brain and heart. Brain activity will be monitored by EEG recordings, and heart function will be measured by blood pressure and ECG. As far as possible the methodologies employed will be consistent with previous reported studies in order to allow comparisons, and use ....Influence of electromagnetic emissions from mobile phones on nervous function in the human brain and heart. This research will investigate the influence of mobile phone electromagnetic exposures on the nervous function of the human brain and heart. Brain activity will be monitored by EEG recordings, and heart function will be measured by blood pressure and ECG. As far as possible the methodologies employed will be consistent with previous reported studies in order to allow comparisons, and use standardised quantifiable metrics so that the biological significance of the data can be meaningfully interpreted. The outcomes of this project will address uncertainties in the present data which are of concern to national and international regulatory and health agencies.Read moreRead less