Advanced Polymer Systems For The Delivery Of Anti-Epileptic Drugs To The CNS
Funder
National Health and Medical Research Council
Funding Amount
$593,375.00
Summary
The use of organic conducting polymers as novel platforms for drug delivery is expected to provide significant improvements in our ability to treat and manage illnesses and trauma. A number of novel drug-loaded platforms with the introduction of a conducting polymer component to enable electrically stimulated release, generated physiologically (by onset of an epileptic seizure) or by a bio-corrosion process (stents) provides innovative drug release systems powered autonomously.
Multimodal Woven BioPolymer Fibre Conduits For Remodelling Damaged Peripheral Nerve
Funder
National Health and Medical Research Council
Funding Amount
$686,901.00
Summary
Damage to peripheral nerve arises as a result of trauma or disease ranging in severity from mild to severe incapacitation. Currently surgeons remove healthy nerve from individuals with nerve damage to repair more important priority nerves. We aim to create an effective implant for nerve repair that totally degrades leaving behind the regenerated nerve. This will eliminate the need for nerve harvesting as well as restoring lost nerve function in individuals with nerve injury.
Peptides Bound To Commonly Used Orthopaedic And Dental Biomaterials:In Vitro And In Vivo Effect On Osteogenesis.
Funder
National Health and Medical Research Council
Funding Amount
$273,428.00
Summary
In 1992, the orthopaedics industry fitted some 300,000 prosthetic devices, artificial hips, knees, giving this industry a global market of $2.1 billion with a projected market growth exceeding 10% per annum. In (1994-5) 5,717 prosthetic hips and 4,593 knees were surgically implanted in NSW of which 14% of hips and 9.5% of knees were revisions. Considerable health funding is allocated to joint replacement for the nation, although successful, outcomes are finite. Importantly, and aside from costs, ....In 1992, the orthopaedics industry fitted some 300,000 prosthetic devices, artificial hips, knees, giving this industry a global market of $2.1 billion with a projected market growth exceeding 10% per annum. In (1994-5) 5,717 prosthetic hips and 4,593 knees were surgically implanted in NSW of which 14% of hips and 9.5% of knees were revisions. Considerable health funding is allocated to joint replacement for the nation, although successful, outcomes are finite. Importantly, and aside from costs, patients morbidity is high. The major cause of long-term failure of these prosthetic replacements is aseptic loosening, the result of bone loss at the bone-device interface. Novel approaches to development of more efficient implant materials would ultimately lead to major contributions to the mobility and and quality of life for these patients. Considerable effort has been devoted to alter surface characteristics of orthopaedic implants to improve the interlocking of device and skeleton. We were the first to demonstrate that surface chemical modification of biomaterials using selected ions resulted in an enhanced bone formation. This proposal is aimed at chemically modifying the surfaces of commonly used orthopaedic and dental materials, to improve the biocompatibility of new devices and the surface coatings for existing prostheses. Furthermore, this application will build on the in vitro data showing that particular peptides specifically bind osteoblasts and therefore have the potential to provide a surface on a prosthesis that is conducive to bone formation. To date, we have coupled these peptides to metallic surfaces and will proceed to study the osteoblastic phenotype and subsequent osteogenesis. Development of these novel biocompatible surfaces is anticipated to reduce patient morbidity and result in significant health care savings.Read moreRead less