Menopause is one of the important risk factors for bone loss, structural decay and bone fragility. We aim to quantify the biochemical, microstructural and biomechanical basis of loss of bone strength during and after menopause. A cohort of 324 pairs of female-female twins aged 25 to 75 years old will be followed up for up to 9 years. Defining the structural basis of bone fragility provides a rational means to identifying women at risk for fracture.
The Effects Of Zoledronic Acid On Bone Architecture In Premenopausal Women With Breast Cancer Receiving Adjuvant Combined Ovarian Suppression And Aromatase Inhibitor Therapy: A Randomised Controlled Trial.
Funder
National Health and Medical Research Council
Funding Amount
$122,714.00
Summary
In premenopausal women, a new treatment method that reduces oestrogen levels to almost zero significantly reduces the risk of breast cancer recurrence. However, this is likely to cause substantial bone loss leading to fractures. Using a new imaging technique (HR-pQCT), the effects of profound oestrogen deprivation on bone structure in premenopausal women will be studied. The ability of zoledronic acid, a drug that reduces bone loss, to prevent these adverse bone effects will also be examined.
Does Teriparatide Reverse Osteonecrosis Of The Jaw In Patients With Cancer? A Randomised, Controlled Trial
Funder
National Health and Medical Research Council
Funding Amount
$137,700.00
Summary
Osteonecrosis of the jaw (ONJ) is a debilitating bone condition involving damage and suboptimal healing of bone involving the jaw. This has been associated with bisphosphonate therapy, which is commonly used for the treatment of both cancer and osteoporosis. My research aims to investigate the role of recombinant parathyroid hormone in the stimulation of bone formation and healing and, thus, its potential to reverse ONJ.
Preventing Adverse Effects Of Matrix Metalloproteinases In Diabetic Wound Healing
Funder
National Health and Medical Research Council
Funding Amount
$387,784.00
Summary
Treatment of diabetic foot ulcers presents a significant challenge to diabetic patients and the health care system. Despite concerted treatment, many ulcers do not heal and it is this failure to heal which eventually leads to deep-seated infection and amputation. For these reasons development of new therapeutic strategies to improve wound healing in diabetes is of critical importance. In this study we investigate the role of MMPs in particular MMP-9 in diabetic wounds and examine whether MMP inh ....Treatment of diabetic foot ulcers presents a significant challenge to diabetic patients and the health care system. Despite concerted treatment, many ulcers do not heal and it is this failure to heal which eventually leads to deep-seated infection and amputation. For these reasons development of new therapeutic strategies to improve wound healing in diabetes is of critical importance. In this study we investigate the role of MMPs in particular MMP-9 in diabetic wounds and examine whether MMP inhibition will improve wound healing in diabetes.Read moreRead less
Role And Mechanism Of Connective Tissue Growth Factor In Diabetic Cardiomyopathy
Funder
National Health and Medical Research Council
Funding Amount
$382,820.00
Summary
Diabetic cardiomyopathy is a condition where the heart muscle is directly damaged by diabetes. It is being recognised as a prominent cause of both acute and chronic heart failure in diabetes. It is common and occurs in up to 60% of diabetic patients . At present however, no treatments are available to directly treat the cardiomyopathy. This condition can also occur in people with diabetes who have high blood pressure and-or coronary artery disease and may combine with these problems to worsen pa ....Diabetic cardiomyopathy is a condition where the heart muscle is directly damaged by diabetes. It is being recognised as a prominent cause of both acute and chronic heart failure in diabetes. It is common and occurs in up to 60% of diabetic patients . At present however, no treatments are available to directly treat the cardiomyopathy. This condition can also occur in people with diabetes who have high blood pressure and-or coronary artery disease and may combine with these problems to worsen patient outcomes. We have generated data in experimental diabetes in rodents that strongly implicates a heart growth factor in causing diabetic cardiomyopathy. This protein, called connective tissue growth factor (CTGF), is increased in diabetic cardiomyopathy, and is elevated by high glucose and other factors in diabetes. We have published data showing that CTGF causes tissue scarring like that which occurs in cardiomyopathy, by affecting signals in cells called fibroblasts. It increases the laying down of extracellular matrix (ECM) and also inhibits the degradation of ECM by the proteins that break down matrix, known as the MMPand PAI systems. Such accumulation of ECM is thought to be a major factor leading to abnormal muscle function in cardiomyopathy. We now plan to block CTGF in this diabetic heart model to determine if we can prevent diabetic cardiomyopathy. We have generated two methods to inhibit CTGF in the animal model. Echocardiography (a heart ultrasound test), and molecular analysis of the heart tissue will determine if we can prevent the otherwise adverse functional and structural changes of diabetes in the heart. We will also study our baboon model of diabetes to determine if diabetic cardiomyopathy with increased heart CTGF is present in the primates. Cell culture studies from rat heart fibroblasts and myocytes will determine how CTGF has the effect on cells to cause cardiomyopathy and how we might further prevent this condition developing in diabetes.Read moreRead less