Molecular Mechanisms Of Joint Degeneration In Osteoarthritis
Funder
National Health and Medical Research Council
Funding Amount
$718,273.00
Summary
Arthritis is a major clinical and socio-economic problem. Arthritis involves the destruction of cartilage in joints. However, the mechanisms of initiation and progression of cartilage destruction remain poorly understood. Our studies will for explore the role of a new regulator of gene expression, microRNA, in the initation and progression of osteoarthritis. This will provide important new information on disease mechanisms for the development of diagnostic biomarkers and therapies
Determining The Influences Of Cell Stress And Heat Shock Factor-1 Action In Osteoclast Formation And Pathological Bone Loss.
Funder
National Health and Medical Research Council
Funding Amount
$657,287.00
Summary
Cancer and rheumatoid arthritis cause painful bone destruction. This occurs due to increased numbers of bone destroying cells called osteoclasts. We found stress responses in bone cells can increase osteoclast numbers by activating proteins inside the bone cells that encourage osteoclasts to form. We will thus study whether cell stress blocking drugs might stop bone loss. As arthritis and cancer both cause stress responses, this work could identify a new way that such diseases affect bone.
Repair Of Tooth Enamel/dentine By Biomimetic Mineralisation
Funder
National Health and Medical Research Council
Funding Amount
$1,107,069.00
Summary
Dental caries (tooth decay) and erosion involve loss of tooth mineral and are major public health problems. The project will involve the proof-of-concept testing of a prototype dental professional product MI Enamel/Dentine RepairTM to repair early stages of mineral loss non-invasively. This will result in the development of a system which should revolutionize dental practice globally for the non-invasive repair of early tooth decay and erosion lesions with a surface seal of tooth-like mineral.
The Design, Development And Clinical Assessment Of A New Metacarpophalangeal Joint Prosthesis
Funder
National Health and Medical Research Council
Funding Amount
$188,450.00
Summary
Rheumatoid arthritis is a crippling form of arthritis that affects many people in the community. It commonly involves the finger joints in the hands resulting in deformity, pain and subsequent loss of function. There have been implants designed for finger joint replacement, but unfortunately these implants have had only moderate benefits and can break and lead to further joint destruction resulting in the worsening of deformity and pain. A new implant for finger joint replacement has been develo ....Rheumatoid arthritis is a crippling form of arthritis that affects many people in the community. It commonly involves the finger joints in the hands resulting in deformity, pain and subsequent loss of function. There have been implants designed for finger joint replacement, but unfortunately these implants have had only moderate benefits and can break and lead to further joint destruction resulting in the worsening of deformity and pain. A new implant for finger joint replacement has been developed. This implant has several potential advantages. Firstly the unique design acts to prevent recurring deformity in the fingers with rheumatoid disease while allowing functional motion. Secondly, it is thought that patients will return to function earlier and avoid the need for further finger surgery as this implant design relies less on the tissues around it for stability. The purpose of this study is to investigate the biomechanical and clinical benefits of this new implant for finger joint replacement. The new design will undergo specific laboratory tests and be used in a clinical trial to quantify the therapeutic benefits it provides to patients with rheumatoid arthritis.Read moreRead less
Young People With Old Knees: Knee Ligament Reconstruction And Early Joint Changes
Funder
National Health and Medical Research Council
Funding Amount
$782,727.00
Summary
Individuals who have undergone a knee reconstruction are at increased risk of knee osteoarthritis - 'younger people with older knees'. This may be partly due to increased knee load. This study aims to investigate whether muscle strength and activation as well as walking patterns influence changes in the knee joint structure as measured on magnetic resonance imaging. This may lead to rehabilitation strategies to address these factors so as to prevent the premature onset of knee osteoarthritis.
QUANTITATIVE ASSESSMENT OF LOOSENING IN HIP ARTHROPLASTIES USING MECHANICAL VIBRATION DIAGNOSTICS
Funder
National Health and Medical Research Council
Funding Amount
$185,665.00
Summary
Recent advances and improvements made to the mechanical design of artificial joints have led to greater strength, fatigue life and wear resistance. However, this extension to the working life of joint replacements has led to patients becoming increasingly vulnerable to the problem of joint loosening. There are over 500 000 hip joint replacements performed every year, on a worldwide basis. Of these 7 to 13% will require revision surgery because of loosening at some stage of their working life. Th ....Recent advances and improvements made to the mechanical design of artificial joints have led to greater strength, fatigue life and wear resistance. However, this extension to the working life of joint replacements has led to patients becoming increasingly vulnerable to the problem of joint loosening. There are over 500 000 hip joint replacements performed every year, on a worldwide basis. Of these 7 to 13% will require revision surgery because of loosening at some stage of their working life. This is becoming a major concern to health services around the world since revision surgery is associated with a higher risk to the patient and costs are far greater than for the primary operation. Current diagnostic techniques using radiographic imaging are both invasive and lack diagnostic accuracy. The ability to detect joint loosening and to discriminate between the various causes of joint loosening following arthroplasty is of great importance to the success of subsequent care plans. This study will be the first in the world to assess the validity of a new diagnostic test that uses low energy mechanical vibration to quantify the degree of loosening in both components of the implanted hip joint. Once the technique has been proven it could readily be extended to evaluate the degree of fixation of other implanted prostheses used to replace the knee, ankle or joints of the upper limbs.Read moreRead less