View clinical trials related to Age Related Osteoporosis.
Filter by:Osteoporosis is an age related disease in which a person's bone slowly becomes weaker with time. The bones may become so weak that they break easily such as a fall from standing height. The most commonly broke bones in osteoporosis are those of the hip, the spine or the wrist. Osteoporosis runs in families meaning that genetic differences explain why some people break bones in old age and other do not. Genetic studies have been done that show the the genes associated with spine (vertebral) fractures (broken bones) and hip fractures are different, suggesting that osteoporosis of the spine is not the exact same disease as osteoporosis of the hip. Genetic studies tell us what part of the genome (i.e. genes) are associated with a disease, but do not tell us how these genes act biologically to cause that disease. In this study, we seek to determine how the genes uniquely associated with spine osteoporosis behave in normal and aged bone, to determine how they interact with each other as a team to impact spine bone. In this study, we will measure gene activity (so called gene expression) in bone samples taken from people undergoing major spine deformity surgery. We will using genetic data from these patients to determine how gene activity is controlled in bone and how that relates to measures of bone health such as bone mineral density data. The results of this study will provide critical data regarding how osteoporosis of the spine happens, and these data will be used to find better and safer treatments to prevent bone fractures of the spine that happen with age.
Osteoporosis affects 24.5% of women over 65 and results in fracture-related hospital admissions exceeding those of heart attacks, strokes and breast cancer combined. Current treatment options do not account for differences between age-related and estrogen deficiency related osteoporosis, because of the need for bone biopsies for determination. This study will establish a paradigm-shifting individualized treatment protocol for age-related osteoporosis and a non-invasive method for its determination, thereby reducing the major health problems and enormous burden on society and the elderly related to this disease.
Hip fragility fractures are a major threat to functional independence in older adults locally and globally. In Hong Kong, the prevalence of osteoporosis and osteopenia in people aged >50 years were reported to be as high as 37% and 52%, respectively. The major challenge in fragility fracture prevention is that fragility fracture is caused by the combination of osteoporosis and propensity to fall, and both of these conditions are multifactorial. Ample evidence shows that fall risks can be reduced by well-designed exercises, and osteoporosis can be effectively diagnosed by Dual-energy X-ray Absorptiometry imaging (DXA) and treated with anti-osteoporosis medication. Lifestyle modifications e.g. diet, optimal physical activity, environmental safety can also help to prevent falls or improve bone health. The brief Fracture Risk Assessment Tool (FRAX) and SARC-F provide a low cost of prescreening for fracture risk and sarcopenia, respectively. Using SARC-F in conjunction with FRAX has increased sensitivity for hip fracture risk prediction. FRAX+SARC-F may help increase the public awareness of osteoporosis and get the at-risk group to receive diagnostic tests and be treated. This model should fit in well with the coming District Health Centres across Hong Kong.