View clinical trials related to Osteoporosis.
Filter by:Osteoporosis is a condition that describes compromised skeletal microarchitecture in general, with clinical signs of decreased bone mineral density. Ankylosing spondylitis patients are at increased risk for developing osteoporosis. Identifying whether multiple sclerosis patients have information and awareness about this disease is crucial. This study is aimed to investigate awareness and knowledge of osteoporosis in ankylosing spondylitis patients.
Osteoporosis is a condition that describes compromised skeletal microarchitecture in general, with clinical signs of decreased bone mineral density. Rheumatoid arthritis patients are at increased risk for developing osteoporosis. It is crucial to identify whether rheumatoid arthritis patients know and know about this disease. This study investigates awareness and knowledge of osteoporosis in rheumatoid arthritis patients.
This study will assess the incidence of osteoporosis and osteoporotic fracture risk of registered home health patients in the Anatolian side of Istanbul.
In the last decade, there has been a shift towards Cone-Beam Computed Tomography (CBCT - regarding its low-dose radiation profile) in Dentistry/Implantology fields because it presents a more conclusive insight in the bone micro-architecture and cortical/trabecular bone structures assessment due to 3D acquisition higher resolution. Despite convergent and interesting preliminary results, most CBCT studies failed in highlighting a potential new osteoporosis diagnostic tool. TOMOSTEOp study aims to explore inter-relation between CBCT parameters and DXA Gold-Standard parameters in order to build resolutive explicative model of bone mineral density and test CBCT diagnostic performances.
OPTIMAL is a pilot feasibility study for a machine learning (ML) based enhanced screening software for osteoporosis. This tool has been created using machine learning, based on data from NHS Greater Glasgow and Clyde. The study will contact individuals deemed at high risk by the study (750 patients will be re-identified, and these will be contacted starting from the highest risk until 250 patients are recruited) and perform DXA scans, clinical review, and bloods tests that are relevant to osteoporosis. This data will then be compared to the predictions made by the OPTIMAL enhanced screening tool, in order to test how effective it is.
This study will provide objective evidence for the efficiency and safety of minodronate in the treatment of postmenopausal osteoporosis with low back pain protocol. Furthermore, it will be helpful to evaluate the quantitative relationship between bone metabolic markers (BTM) and bone mineral density (BMD) in patients with osteoporosis under different ages.
The PARABONE study aims to investigate the interaction between bone and parathyroid glands in patients with primary hyperparathyroidism (HPT). The study consists of a clinical part aimed at evaluating a series of circulating molecules of bone derivation (osteocalcin, molecules of the WNT pathway, RANKL, osteoprotegerin, Scelrostin, FGF23) in patients with HPT. In particular, the study has as its primary objective to identify the correlation between circulating levels of PTH and levels of GlaOC and GluOC in patients with HPT.
The high annual incidence of osteporosis and its high prevalence , means that more and more resources are being devoted to its diagnosis, prevention and treatment in primary care. This pathology is defined as a skeletal disorder characterized by an alteration in bone strength, mainly reflecting a poor integration of bone density and quality. The reduction of the mass and the alteration of the microstructure of osteoporotic bone lead to an increase in its fragility and an increase in the risk of suffering bone fractures. If we add to this the alterations in balance observed in older people, the possibility of fracture and increased fragility increases. It is estimated that every 3 seconds there is an osteoporotic fracture and it is considered that every year 8.9 million fractures of this type occur worldwide. Fragility fractures are estimated to be associated with significant morbidity and mortality. In the case of hip fracture as a consequence of osteoporosis, only 30-45% of surviving cases recover pre-fracture functional status and 32-80% suffer some form of significant dysfunction, thus representing a high economic and social cost. Associated with osteoporosis, numerous studies have also observed a decrease in strength and/or muscle mass (sarcopenia), thus increasing the fragility and deterioration of the patient suffering from osteoporosis. Tokeshi et al. observed that patients with osteoporotic fractures had less muscle mass compared to patients without osteoporosis. Hoo Lee and Sik Gong describe that lower extremity muscle mass and loss of grip are closely related to the occurrence of an osteoporotic vertebral fracture and numerous investigations show the relationship between grip strength and osteoporotic fractures in the elderly. For the diagnosis of osteoporosis, double beam X-ray densitometry (DEXA) is used and osteoporosis is considered to be present when the osteoporosis values are below 2.5 standard deviations (SD) of the peak bone mass, the maximum value reached in young women. At the therapeutic level, pharmacology is the treatment recommended in clinical practice guidelines. However, due to poor adherence and adverse effects, the recommendation of physical activity programs is becoming more and more popular to increase mineral density and bone quality, either as adjuvant treatments or as the treatment of choice. Various research and clinical guidelines recommend the use of therapeutic exercise as part of the treatment of osteoporosis. The National Osteoporosis Foundation of the United States concludes that the practice of exercise improves, among other benefits, the quality of bone mass. Likewise, different systematic reviews have shown that multicomponent training in older people is effective in preventing or maintaining bone mass, especially when such exercises are performed with high load or high impact or when performed by postmenopausal women. Along these lines, the American College of Sports Medicine and recent research demonstrates how strength work at moderate to high load intensity can not only stimulate bone metabolism, but also improve the quality of life of those who practice it. But in spite of the bone benefit observed with high loads for bone tissue, not all elderly people can do it, either because of the fragility that many of them present, or because of the mechanical stress that this type of exercise produces in their joints. For this reason, one of the possible alternatives that we have found for some decades is training through the use of global vibration (GV) or body vibration through the use of vibrating platforms. This type of vibration generally starts in the extremities and the limbs themselves are used as a sounding board for the vibrational stimulus to the rest of the body. This type of equipment has allowed a less demanding training from the articular point of view in a less demanding approach to other exercise programs in patients and has shown significant improvements in bone formation rate, bone mineral density (BMD), trabecular structural and cortical thickness in osteporotic bone tissue. But despite the wide use of vibrating platforms for training in elderly people, it is not free of contraindications such as patients with recent fracture, deep vein thrombosis, osteosynthesis of lower limbs, hip prosthesis, aortic aneurysm or diabetic foot injury, for this reason have emerged focal vibration devices (VF). This tool allows the application of the vibratory stimulus in a specific and repeated way in a part of the body; as well as the control of the amplitude that reaches a certain tissue avoiding the disadvantages of the vibratory platforms in which the region and the tissue to be treated cannot be selected.
This research programme seeks to combine the resources of NHS primary care, with the leading spectroscopic work in low-magnetic fields of the Wilson Group (Nottingham Trent University) to demonstrate the potential for benchtop Nuclear Magnetic Resonance (NMR) spectroscopy in human clinical pathology. This is an instrument assessment study for point of care viability which will also result in enhanced patient care (pending their consent) in blood screenings and metabolic health data.
This is a post-marketing drug intensive monitoring surveillance with an observational, non-interventional design. The objectives are to compare the incidence of hypercalcemia in patients with and without calcium intake (including dietary supplements, excepting calcium from meals), and to monitor the type, incidence, severity, and relevance of other adverse drug reactions,including urolithiasis.