Apportioning Deficits In Bone Size And Density In Women With Fractures To Growth Or Ageing By Studies In Their Daughters
Funder
National Health and Medical Research Council
Funding Amount
$196,018.00
Summary
Women fracture their bones because the bones are small and break easily and because the bones are thin or low in denseness (very porous like a honey comb). This study is aimed at identifying why women with fractures have small bones and why the bones are so porous. They may have these problems because they lost a lot of bone as they get older or because growth was abnormal so the size of the bone didn't reach its potential size or because the denseness of the bones didn't develop properly. The s ....Women fracture their bones because the bones are small and break easily and because the bones are thin or low in denseness (very porous like a honey comb). This study is aimed at identifying why women with fractures have small bones and why the bones are so porous. They may have these problems because they lost a lot of bone as they get older or because growth was abnormal so the size of the bone didn't reach its potential size or because the denseness of the bones didn't develop properly. The study will be carried out in women with spine or hip fractures and their daughters. All participants will have bone densitometry, provide a 24 hour urine sample and a fasting blood sample of 20 ml whole blood. Informed consent will be obtained from all participants. The bone density scan is associated with radiation exposure of about 4 mSv, about one tenth of a chest x ray, temporary bruising may follow taking blood. If we can understand the different ways osteoporosis can occur we can then start to devise specific treatments tailored to the individual. Also if we can identify the causes of small bones and bone thinness during growth it may be possible to correct some of these causes before the reduced growth and reduced building of bone occurs. We might also prevent the thinning of bone by identifying and removing causes of bone thinning.Read moreRead less
A Longitudinal Study Of Bone Development In Children
Funder
National Health and Medical Research Council
Funding Amount
$144,750.00
Summary
Osteoporosis is a major public health problem resulting in 50-75,000 fractures each year in Australia costing the community about 800 million dollars per annum. Bone strength is a risk factor for fractures in both childhood and in later life. Relatively little is known about bone development with the exception of calcium intake and physical activity. This study will follow 500 children from birth in 1988 to 2004 with the aim of understanding the contribution of lifestyle factors to bone developm ....Osteoporosis is a major public health problem resulting in 50-75,000 fractures each year in Australia costing the community about 800 million dollars per annum. Bone strength is a risk factor for fractures in both childhood and in later life. Relatively little is known about bone development with the exception of calcium intake and physical activity. This study will follow 500 children from birth in 1988 to 2004 with the aim of understanding the contribution of lifestyle factors to bone development in this time period.Read moreRead less
The Effect Of Loading On The Size, Shape And Strength Of Cortical Bone During Different Stages Of Maturation
Funder
National Health and Medical Research Council
Funding Amount
$180,000.00
Summary
Osteoporosis is a condition in which the skeleton becomes fragile and susceptible to fractures. It is a public health problem that affects both men and women over the age of sixty. Although osteoporosis affects the elderly, the most opportune time to prevent osteoporosis may be during childhood. Physical activity is a lifestyle factor known to affect the strength of the skeleton. Bone density is commonly used as a measure of bone strength because it is easily measured and is related to the break ....Osteoporosis is a condition in which the skeleton becomes fragile and susceptible to fractures. It is a public health problem that affects both men and women over the age of sixty. Although osteoporosis affects the elderly, the most opportune time to prevent osteoporosis may be during childhood. Physical activity is a lifestyle factor known to affect the strength of the skeleton. Bone density is commonly used as a measure of bone strength because it is easily measured and is related to the breaking strength of bones. However changes in the shape of bones can also affect bone strength with or without an increase in bone density. Changes in bone shape in response to exercise in children or adults have rarely been investigated, and little is known about the effects of exercise on bone shape during different stages of growth. This study is the first to investigate how exercise during childhood may affect bone strength by changing bone shape. 45 elite female tennis players aged between 6 to 18 years have completed two years of this study. 90 novice and competitive male tennis players aged between 6 to 20 years and 60 healthy age matched controls will be asked to participate in this study. Measurements will be made annually for three years. The bone shape and density of the dominant and non-dominant arms of the players will be compared with the children who don't play tennis - comparisons will also be made between i) different stages of puberty and ii) girls and boys. The findings of this study are important because the lifestyle of children today may predispose them to a greater risk of osteoporosis late in life. Physical activity may be the most important modifiable protective factor against fragile bones in old age. The findings of this study will be the first to provide insight into whether there is a unique time during growth when exercise will result in the greatest increase in bone strength by changing bone shape.Read moreRead less
Monitoring Bone Loss And Response To Therapy Through Bone Material And Structural Composition
Funder
National Health and Medical Research Council
Funding Amount
$696,111.00
Summary
Millions of scripts are filled for treatment of osteoporosis. However, there is no way of knowing if these drugs are right for these individuals, if it improves bone strength or are actually doing harm. Bone density measurement is of limited value. We have developed a new analysis method that measures changes in bone structure that tell us if the treatment is or is not working so alternative treatment can be used. The aim of this study is to test this new method.
The Central Role Of The Osteocyte In Skeletal Pathophysiology
Funder
National Health and Medical Research Council
Funding Amount
$638,517.00
Summary
Bone diseases affect more people than any other group, carry a huge and growing socioeconomic cost, yet their aetiologies are not fully determined. This study will elucidate the role of the resident bone cell, the osteocyte, in prevalent bone diseases such as osteoporosis, osteoarthritis and related orthopaedic conditions, rheumatoid arthritis, bone cancer, and in systemic metabolism. The goal is to provide the knowledge and mechanisms for developing improved treatments and patient outcomes.
Prediction Of Adverse Outcomes Following A Fragility Fracture
Funder
National Health and Medical Research Council
Funding Amount
$148,426.00
Summary
Individuals with an existing fracture are at increased risk of adverse outcomes such as re-fracture and premature mortality, but it is not clear why. We propose to evaluate risk factors, and prognostic models, for predicting the risk of adverse outcomes. We also propose to develop a quantitative risk-benefit framework for evaluating the clinical utility of such prognostic models and help ensure that therapies appropriately address real-life experience of osteoporotic patients.