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
Is Periosteal Bone Formation Responsible For Sexual Dimorphism In Bone Fragility
Funder
National Health and Medical Research Council
Funding Amount
$316,320.00
Summary
Men and women sustain fractures as they age because their bones become fragile. Women sustain fractures more often than men. Bone thinning occurs in both sexes but it is usually believed that this thinning or loss of bone is greater in women than men. We have evidence to suggest that this may not be correct. In fact, it is likely that men and women lose a similar amount of bone, about half what they started with, but during ageing, men lay down more bone on the outside surface of the bone than w ....Men and women sustain fractures as they age because their bones become fragile. Women sustain fractures more often than men. Bone thinning occurs in both sexes but it is usually believed that this thinning or loss of bone is greater in women than men. We have evidence to suggest that this may not be correct. In fact, it is likely that men and women lose a similar amount of bone, about half what they started with, but during ageing, men lay down more bone on the outside surface of the bone than women compensating for the similar amount lost on the inside of the bone. We also have evidence to suggest than men and women who get spine fractures do so because the process of laying down bone may fail to occur normally. We will study these processes of bone loss inside the bone and bone gain outside the bone to try to better understand why bones become weak. We will measure the bone size and its density in healthy men and women and patients with fractures to determine how the increasing size of the bone produced by laying down bone on its outside helps to keep it strong and to preserve the bone that would otherwise be lost if it didn't occur or if a disease developed that might reduce the compensatoryRead moreRead less
Functional Variants Of RUNX2 Related To Bone Density
Funder
National Health and Medical Research Council
Funding Amount
$451,938.00
Summary
Bone density and osteoporosis have a genetic component. Identifying genes that are involved in determining bone density may permit advances in controlling osteoporosis. We have identified a variant in a gene called RUNX2 that is related to bone density high enough to protect individuals four fold against Colle's fracture, the common wrist fracture seen in women. This variant is highly correlated with changes in the second promoter of RUNX2, such that the high bone density form appears to be the ....Bone density and osteoporosis have a genetic component. Identifying genes that are involved in determining bone density may permit advances in controlling osteoporosis. We have identified a variant in a gene called RUNX2 that is related to bone density high enough to protect individuals four fold against Colle's fracture, the common wrist fracture seen in women. This variant is highly correlated with changes in the second promoter of RUNX2, such that the high bone density form appears to be the ancestral form of this gene. We now need to know how this change in this promoter alters bone density and we are following up on observations that other important transcription factors bind to the variable site in the promoter. Furthermore, we have assembled a large collection of samples from people who have had extensive measures of bone density and arthritis in order to accurately measure the impact of this gene on bone density, osteoarthritis and bone fracture. In addition, some people with bone fracture at the hip, or low bone density, have mutations in this gene. Such mutations in a region called the Q-repeat are rather common, 1-200 people are carriers. Our data show that these mutant proteins are not as efficient at their task of regulating other genes. We now want to know how this occurs in a molecular sense, since it is known that the Runx2 protein resides in the nucleus of the cell and interacts with many other regulators. This part of the project is being done with one of the world experts on gene regulation in bone cells. Since RUNX2 is a master regulator of the cells that make bone, this gives hope that it may be possible to alter bone formation through this master regulator.Read moreRead less
An Evaluation Of Bone Density Screening In Premenopausal Women
Funder
National Health and Medical Research Council
Funding Amount
$175,046.00
Summary
Fractures due to osteoporosis are a major public health problem. Bone density is one of the major predictors of these osteoporotic fractures and is the result of the amount of bone gained in early life (i.e peak bone mass) and subsequent bone loss. Cigarette smoking, physical inactivity and inadequate calcium intake are widely regarded as risk factors for osteoporosis (as well as for other common diseases). Despite this information being widely available and actively promoted, the prevalence of ....Fractures due to osteoporosis are a major public health problem. Bone density is one of the major predictors of these osteoporotic fractures and is the result of the amount of bone gained in early life (i.e peak bone mass) and subsequent bone loss. Cigarette smoking, physical inactivity and inadequate calcium intake are widely regarded as risk factors for osteoporosis (as well as for other common diseases). Despite this information being widely available and actively promoted, the prevalence of these risk factors in the population remains unacceptably high suggesting that education alone at the public health level is not sufficient to modify these behaviours. In women (mean age 33) taking part in a study of the determinants of bone mass in children, we recently reported substantial change in these behaviours at 12 months follow-up when women received an information leaflet and individualised bone density information. These women were highly selected and it is unclear if this response is representative of all women. The aims of this study are, therefore, to test hypotheses in a random electoral roll sample of 400 women aged 25-44 from metropolitan Hobart relating to the effect of different types of educational programs and low initial bone mass on both lifestyle changes and changes in bone density over two years. This study will lead to accurate information about how best to target osteoporosis prevention programs in the younger age groups. Furthermore, as risk factors for cardiovascular and other diseases are often similar to those for osteoporosis, it is likely to provide insights into the prevention of these diseases and, as a result, have much greater potential for decreasing disease in the community.Read moreRead less