Eldecalcitol and Calcitriol in Postmenopausal Women With Low Bone Mineral Density or Mild Osteoporosis...
Low Bone Mineral DensityPostmenopausal OsteoporosisTo investigate the efficacy and safety of eldecalcitol in postmenopausal women with low bone mineral density (BMD) or mild osteoporosis through a randomized, open-label, parallel controlled trial with calcitriol as the control.
Recombinant Human Bone Morphogenetic Protein-2(rhBMP-2) in Patients With Osteoporosis After Lumbar...
OsteoporosisSpinal FusionrhBMP-2 has been used to promote spinal fusion. Despite potential risk of complications, satisfied results could be obtained with low dose of rhBMP-2. Effect of early bone formation has been validated using rat ovariectomy osteoporosis model. However, whether it functioned in patients with osteoporosis remained unknown. In this study, the investigators intend to investigate whether rhBMP-2 promotes early bone formation in patients with osteoporosis after transforaminal lumbar interbody fusion (TLIF).
The Study of Chinese Medicine for the Treatment of Primary Osteoporosis
Primary OsteoporosisThe purpose of this study is to evaluate the efficacy and possible mechanism of traditional Chinese medicine in the treatment of primary osteoporosis (Kidney Yang Deficiency Syndrome).It is a randomized, placebo-controlled trial.
Dried Plums and Bone Health in Postmenopausal Women
Postmenopausal OsteoporosisPostmenopausal women often seek non-pharmacologic interventions for the protection of bone health. Previous research in humans and rodents has indicated that dietary dried plum consumption may be beneficial for bone health, especially in postmenopausal women. However, it is unknown in what quantity dried plums need to be consumed to be of benefit and through what mechanisms dried plums act to impact bone health. Therefore, the purpose of this study is to evaluate the impact of 52 weeks of dried plums consumption in varying quantities on bone mineral density (BMD), bone geometry, and estimated bone strength in postmenopausal women. The investigators also seek to evaluate the mechanisms underlying the effects of dried plums as a dietary supplement by assessing polyphenols and the bioavailable conjugated metabolites in the urine of postmenopausal women taking different doses of dietary dried plums. The investigators aim to further investigate the mechanisms of dried plum action on bone by measuring markers of bone metabolism in response to dried plum consumption.
Risk Factors for Fall and Fracture
Fall InjuryHip Fractures4 moreThis project aims to improve the global outcome for an aging individual after a traumatic fall, through identifying conditions contributing to a fall and promoting recovery and rehabilitation. Through better understanding 'falling phenotype', the ultimate aim is to prevent future complications, as well as new falls and fractures in the growing older population.
OSTEOMICS: Identifying Regulators of Bone Homeostasis
OsteoporosisOsteoarthritis3 moreDiseases of bone associated with ageing, including osteoporosis (OP) and osteoarthritis (OA), reduce bone mass, bone strength and joint integrity. Current non-surgical approaches are limited to pharmaceutical agents that are not disease modifying and have poor patient tolerability due to side effect profiles. Developing a fundamental understanding of cellular bone homeostasis, including how key cell types affect tissue health, and offering novel therapeutic targets for prevention of bone disease is therefore essential. This is the focus of OSTEOMICS. A number of factors have been linked to increased risk of bone disease, including genetic predisposition, diet, smoking, ageing, autoimmune disorders and endocrine disorders. In our study, we will recruit patients undergoing elective and non-elective orthopaedic surgery and obtain surgical bone waste for analysis. This will capture a cohort of patients with bone disorders like OP and OA, in addition to patients without overt clinical bone disease. We will study the relationship between the molecular biology of bone cells, bone structure, genetics (DNA) and environmental factors with the aim of identifying and validating novel therapeutic targets. We will leverage modern single cell technologies to understand the diversity of cell types found in bone. These technologies have now led to the characterisation of virtually every tissue in the body, however bone and bone-adjacent tissues are massively underrepresented due to the anatomical location and underlying technical challenges. Early protocols to demineralise bone and perform single cell profiling have now been developed. We will systematically scale up these efforts to observe how genetic variation at the population level leads to alterations in bone structure and quality. Over the next 10 years, we will generate data to comprehensively characterise bone across health and disease, use machine learning to drive analysis, and experimentally validate hypotheses - which will ultimately contribute to developing the next generation of therapeutic agents.
Prune Consumption and Bone Health in Young Women Using Hormonal Contraceptives
Osteoporosis RiskThe primary objective of this study is to determine if 12 months of consuming 50 grams of dried plum daily will prevent bone loss or augment bone accrual of young adult oral contraceptive (OC) users.
Image-guided Computational and Experimental Analyses of Fractured Patient's Bone (GAP)
OsteoporosisFragility FractureDue to the increase in the average age of the population, the projections on the number of age-dependent bone fractures appear to be constantly increasing. They are mainly due to bone pathologies, including osteoporosis. The latter leads to a reduction in bone mineral density and deterioration of the micro-architecture, with a consequent increase in bone fragility. However, the mechanisms of damage at the micro-scale have not yet been elucidated and there is no universally recognized damage criterion. Recent research has evaluated the importance of implementing computational models to study the influence of bone gaps, canaliculi and microporosities on the propagation of damage. These models need to be validated through experimental tests, still lacking, in particular on human bones, in the current scientific landscape. Once the experimental validation of computational models has been developed, it will be possible to introduce new fracture indices at the micro-scale, useful for a preventive diagnosis of osteoporosis.
Determining Feasibility of a Model of Care for Secondary Fracture Prevention
OsteoporosisOsteoporosis is a disorder of low bone mass and micro-architectural deterioration resulting in decreased mechanical strength and increased susceptibility to fractures even after minimal trauma. These 'minimal trauma fractures' (also known as 'osteoporotic', 'low trauma' or 'fragility' fractures) are the hallmark of a chronic and disabling disease that affects both men and women worldwide. On statistical grounds, more than 50 % of postmenopausal women and 30 % of men over the age of 60 years will suffer at least one minimal trauma fracture during their remaining lifetime. Any osteoporotic fracture predisposes to further fractures, significant morbidity and premature death. Thus, following a first minimal trauma fracture both men and women have a two- to threefold increased risk of subsequent fracture. This study aims to determine feasibility of evaluating different models of care through a structured multidisciplinary path tailored to identify, assess and treat hip fracture patients in an effective timely manner that are at high risk of subsequent fracture (Type A model) and to compare its effectiveness and feasibility with a type B, C & D model as proposed by Ganda et al at the Aga Khan University, with collaboration of the departments of Orthopaedics, Chemical Pathology, Family Medicine and Internal Medicine.
Effects of Teriparatide (PTH) on Bone in Men and Women With Osteoporosis
OsteoporosisTeriparatide (PTH) is the only bone formation therapy that has been approved for the treatment of postmenopausal osteoporosis in Canada. Osteoporosis is currently diagnosed using a bone mineral density (BMD) scan, which measures the amount of mineral (calcium etc) in bones (the higher the amount of mineral, the lower the fracture risk). Although BMD is linked to bone strength and is used to measure fracture risk, it does not give information on bone structure (called bone geometry) which can also tell us a great deal about fracture risks. Clinical trials have shown that teriparatide increases BMD at the lumbar spine and total hip, while BMD at the forearm may decrease after 20 months of therapy. However, bone biopsies of the pelvis done on people taking teriparatide show improvement of bone geometry (ie bone thickness and increased trabeculae (small interconnecting rods of bone), suggesting that a change in bone geometry at the wrist may be occurring as well. Currently, there is a new technology, high resolution pQCT (HR-pQCT) that can assess bone geometry without a biopsy. Since bone strength is affected both by BMD and bone structure (as well as other material properties), our group is interested in examining changes in bone geometry at the radius and tibia in men and women with osteoporosis who receives 24 months of teriparatide therapy. The investigators believe that this new approach of measuring bone strength will help us better understand the mechanisms of therapeutic efficacy of teriparatide. In addition, measuring indices of bone strength such as the material composition (bone mineral content or BMD) and structural properties of bone (size and shape, and microarchitecture) may provide more data about the mechanisms of how teriparatide treatment can decrease fracture risk. In the end, this data will benefit and improve patient care by allowing us to show patients and their providers that whether BMD increases, decreases or stay the same, there are changes in their bone geometric structure with teriparatide therapy that increases bone strength.