Biological, Functional And Radiographic Evaluation Of Autologous Chondrocyte Implantation
Funder
National Health and Medical Research Council
Funding Amount
$307,400.00
Summary
We will test the hypothesis that autologous chondrocyte implantation (ACI) and extensor realignment produces superior clinical, biological and radiographic results when compared with conventional treatment of realignment and debridement. We will specifically address the following aims: 1. Quantify the clinical outcome of ACI compared to the traditionally used treatment of debridement through the use of functional evaluation in a blinded randomised controlled clinical trial; 2. Evaluate the radio ....We will test the hypothesis that autologous chondrocyte implantation (ACI) and extensor realignment produces superior clinical, biological and radiographic results when compared with conventional treatment of realignment and debridement. We will specifically address the following aims: 1. Quantify the clinical outcome of ACI compared to the traditionally used treatment of debridement through the use of functional evaluation in a blinded randomised controlled clinical trial; 2. Evaluate the radiographic changes in the patellofemoral joint that occur as a result of ACI, using high resolution magnetic resonance imaging (MRI) to quantify the regeneration of hyaline articular cartilage; 3. Using the new technique of confocal arthroscopy, we will compare the histologic appearances of the ACI graft and its interface with adjacent articular cartilage; 4. Evaluate patient, surgical and explant chondrocyte characteristics in relation to functional, radiographic and biological outcomes. With respect to the matrix-induced autologous chondrocyte implantation (MACI) technique, we wish to clarify the clinical practice as a definitive treatment for articular cartilage defects. This will be the first randomised, controlled clinical trial of the MACI technique compared to that used by other groups. A positive clinical outcome from this trial will help promote the three cornerstones of this procedure – successful cell culture, efficient surgical procedures, and complimentary postoperative rehabilitation. Furthermore, this research will: a) Enhance the expansion of the MACI technique; b) Encourage development of endoscopic techniques of implantation using a combination of – • Preoperative defect registration with MRI • pre-cut custom patches, implanted with • Computer-assisted navigation techniques: c) Increase the potential to cater for a larger number of patients requiring articular cartilage repair; d) Confirm the long-term durability of regenerated cartilage in the 4th year and beyond; e) Add further commercial value by demonstrating MACI may prevent the onset of osteoarthritis.Read moreRead less
NaviGAIT: New Software To Simplify Interpretation Of Gait Analysis Data
Funder
National Health and Medical Research Council
Funding Amount
$179,905.00
Summary
NaviGAIT is a new software package to support interpretation of gait analysis data. It is based upon Gait Profiling, a new technique to reduce the complexity of such data. At present data intepretation is restricted to a few expert clinicians. The new software will allow non-expert clinicians to interpret data and hence make gait analysis more accessible, cheaper and more clincally useful. A module of NaviGAIT specifically for children with cerebral palsy will be the first to be developed.
The Next Generation Of Biomaterials; In Vivo Assessment Of Lumbar Spinal Fusion Biodegradable Interbody Cages
Funder
National Health and Medical Research Council
Funding Amount
$85,932.00
Summary
Back pain represents one of the major health and economic problems facing the western world. Surgery is an inevitable outcome for many sufferers and involves the implantation of metallic rods screws, plates or cages. Biodegradable implants have theoretical advantages, but until now no material has existed that can sustain he rigours of implantation into a load bearing site. We have developed such a material which will lead to improvements in the treatment of many orthopaedic conditions.