Clinical Outcomes Following Lumbar Spine Surgery Using The DIAM Non-fusion Interspinous Implant
Funder
National Health and Medical Research Council
Funding Amount
$72,343.00
Summary
This investigation will focus on a single minimally-invasive surgical intervention used in the treatment of disorders of the lumbar spine. The Device for Intervertebral Assisted Motion (DIAM) is a novel system for stabilizing the disc and joints of the low back which is promoted over fusion for improving stability while restoring normal vertebral alignment. This new device has limited research evaluation of efficacy and will be examined with the aim of providing clinical guidelines for its use.
Cell-based Neurotrophin Delivery With Cochlear Implantation For Long-term Rescue Of Auditory Neurones Following Deafness
Funder
National Health and Medical Research Council
Funding Amount
$437,212.00
Summary
This project aims to develop safe and effective techniques for long-term delivery of drugs to the ear by genetically modifying cells so they release the theraputic agents over extended periods of time, and then to use encapsulation techniques to safely deliver these cells to the inner ear in combination with a cochlear implant.
Artificial joint implants are widely used to replace diseased or damaged joints. Despite the impressive success of joint replacement many artificial joints do not last indefinitely. In many patients joints last for 25 years or more but in about 15% the artificial joints will fail prematurely. Artificial joints need to be replaced because of loosening resulting from the loss of bone from around the artificial joint. The bone loss is caused by large numbers of small particles generated by excessiv ....Artificial joint implants are widely used to replace diseased or damaged joints. Despite the impressive success of joint replacement many artificial joints do not last indefinitely. In many patients joints last for 25 years or more but in about 15% the artificial joints will fail prematurely. Artificial joints need to be replaced because of loosening resulting from the loss of bone from around the artificial joint. The bone loss is caused by large numbers of small particles generated by excessive wear of the artificial joint. We now know that specialised cells in the body react to the wear particles and try to destroy them. During this process they produce molecules which lead to bone destruction. This project seeks to investigate the way particles cause bone loss and to develop drug treatments that will either prevent the loss of bone or promote new bone to replace that which has been lost. The increasing use of joint replacement and an aging population means that the number of patients with artificial joint failure will increase. This will mean that an increasing amount of medical recourses will be needed to replace failed and painful artificial joints. It is planned that the findings obtained from this project will eventually result in drug treatments which can reduce the need for the replacement of artificial joints.Read moreRead less
Evaluating Perceptual Benefits Of Bilateral Cochlear Implants For Young Children And Infants
Funder
National Health and Medical Research Council
Funding Amount
$452,843.00
Summary
The cochlear implant (bionic ear) has revolutionised communication for children with profound hearing loss. Nevertheless, children with the standard single implant still face huge challenges in educational and social settings. Difficulties include understanding speech that is soft, or speech in noisy environments, such as the classroom. Also, with one implant, children cannot locate the source of sound, such as the speaker in a group conversation, team-mates during sport, or an oncoming car. Res ....The cochlear implant (bionic ear) has revolutionised communication for children with profound hearing loss. Nevertheless, children with the standard single implant still face huge challenges in educational and social settings. Difficulties include understanding speech that is soft, or speech in noisy environments, such as the classroom. Also, with one implant, children cannot locate the source of sound, such as the speaker in a group conversation, team-mates during sport, or an oncoming car. Research with other normal hearing and hearing impaired groups suggests that two (bilateral) implants may possibly improve performance in these conditions. Although hundreds of children worldwide have received bilateral implants, very limited evidence is available to indicate whether two implants are significantly better than one, especially for young children. The main aim of the research is to evaluate the improvement in listening performance when young children and infants use two implants as compared with one. An additional aim is to gain clinical knowledge of bilateral implant use in order to develop selection criteria and management protocols for young bilateral candidates in the future. Results of this research will determine if bilateral implants should become a standard option for young children at the RVEEH-University of Melbourne Implant Clinic. The results will be published and presented internationally to influence clinical practice worldwide. All children using a cochlear implant, or in need of one in the future, will benefit as the study outcomes will indicate the best choice of hearing devices for individual children, and help to determine best-practice management if bilateral implants become an option for all children.Read moreRead less
Enhanced Deep Brain Stimulation Electrodes For Improved Efficacy In Parkinson’s Disease Therapy
Funder
National Health and Medical Research Council
Funding Amount
$809,940.00
Summary
We are developing an advanced Deep Brain Stimulation system to improve the treatment for Parkinson’s disease. Current devices benefit only half of the patients, due to imprecision in directing the electrical current to the ideal brain targets. Our system aims to deliver the current more selectively. Our implant will contain more and smaller electrodes. We will also use a state-of-the-art stimulator, implantable on the head, with capabilities far beyond the current technology.
Delivering Advanced Electrode Materials To The Clinic
Funder
National Health and Medical Research Council
Funding Amount
$702,604.00
Summary
This research will develop improved electrodes for interfacing neural tissue by combining the expertise of materials scientists and electrophysiologists with medical bionics researchers. This work is expected to deliver improved bionic devices to the clinic in order to treat a variety of disorders from blindness to the control of motor tremor in Parkinson's disease.
Hybrid Optical-electrical Stimulation For Precise Neural Stimulation
Funder
National Health and Medical Research Council
Funding Amount
$935,579.00
Summary
In world-first research, we have evidence that combining electrical stimulation with optical stimulation significantly and safely improves precision of neural activation for devices such as cochlear and retinal implants. In this proposal we will use gene therapy to make nerves responsive to light in pre-clinical animal models to establish proof of concept that hybrid stimulation will significantly improve outcomes for recipients of cochlear and retinal implants.
Improving Speech Perception Outcomes In Deaf Adults And Children Using Cochlear Implants
Funder
National Health and Medical Research Council
Funding Amount
$160,604.00
Summary
This project aims to further improve on speech understanding by deaf adults and children using the cochlear implant. In particular, we aim to individually modify the speech coding scheme on the basis of the basic hearing skills of the subject. In this manner, more speech information should be available and the users will likely gain more benefit from their cochlear implants. The speech processing strategy of the multiple-electrode cochlear implant, manufactured by the Australian biomedical compa ....This project aims to further improve on speech understanding by deaf adults and children using the cochlear implant. In particular, we aim to individually modify the speech coding scheme on the basis of the basic hearing skills of the subject. In this manner, more speech information should be available and the users will likely gain more benefit from their cochlear implants. The speech processing strategy of the multiple-electrode cochlear implant, manufactured by the Australian biomedical company Cochlear Limited, codes acoustic frequency information on electrodes which are located in the cochlea. The assignment of frequencies to electrodes is consistent with the ordering of pitch in the cochlea. For optimum performance, all electrodes would need to be perceptually distinct from each other. Recent research with adults and children has shown that this is not the case for a number of subjects as adjacent electrodes sound the same. Thus important speech information may not be heard by these subjects. In this project, we will determine how well adults and children are able to hear differences between the electrodes, and then provide speech processing schemes which exclude those electrodes which sound the same as others in close proximity. The project will compare these modified strategies with the standard strategy currently used by the subjects over time, so that any differences in the way adults and children are able to improve on speech understanding will be determined. As far as can be determined, this project will be the first investigation to improve on speech understanding in children using the cochlear implant.Read moreRead less