View clinical trials related to Bone Diseases, Metabolic.
Filter by:The purpose of this study is to assess the efficacy of combination of aerobic and resistive exercise on activities of daily living and risk of fall in osteosarcopenic patients
Blood circulation within bone is thought to have a key role in bone growth, in fracture healing and in the development of bone diseases like osteoporosis. Current medical imaging techniques such as conventional ultrasonography fail to detect blood circulation within bone. The investigators propose to develop a new type of ultrasonography called intraosseous functional ultrasonography that will enable the detection and the characterization of blood circulation in solid bone tissue, marrow and soft tissues surrounding bone (muscle for instance). Because most soft tissues are essentially made of water, the speed of sound in soft tissues is close to that in water and it varies only a little between different types of soft tissues. For this reason, clinical ultrasound scanners used for ultrasonography assume that the speed of sound in the human body is the same for all types of soft tissues. This assumption is reasonable in soft tissues, but it does not hold in bone because solid bone tissue is much stiffer than soft tissues. Seismologists have extensive experience in producing images of the structure of the Earth based on the analysis of elastic waves which follow the same laws of Physics as ultrasound waves. The subsurface of the Earth contains layers of solid materials and liquids, consequently it is very similar to a region of the human body containing bone and soft tissues. Therefore the investigators will first work on the adaption of time-tested seismic imaging methods to make ultrasonography of bone possible. Once a correct image of bone is obtained, the investigators will use an ultrasound scanner dedicated to research to repeat this image hundreds of times per second, very much like a slow motion video. Because blood is moving while bone is still, the intensity in the image is being slightly changed where blood is moving. Thus the analysis of these changes makes it possible to detect and characterize blood flow within bone. In this way the investigators expect to be able to detect blood flowing with a speed as low as a few millimeters per second. Finally the sensitivity of the technique to detect and characterize blood circulation in bone will be evaluated in patients at the hospital and in healthy volunteers. The success of this work will help gaining knowledge on the role of blood circulation within bone. In the long term, it may help in the diagnosis of bone diseases.
This was an open-label, single-center study to evaluate the usability of abaloparatide-sMTS by participants with low BMD.
To determine whether reflex locomotion therapy is effective for the prevention of osteopenia in preterm infants and compare its effectiveness over other physiotherapeutic methods like passive joint mobilizations and massage
Osteosarcopenic Obesity (OSO) is a syndrome characterized by the loss of bone and muscle in addition to increase in the fat tissue as a result of aging process. It is the latest point of impairment in the bone,muscle and adipose tissue in older adults. OSO, as the name suggests, is the combination of three syndrome frequently encountered in the elderly: osteopenia/osteoporosis, sarcopenia and obesity. The aims of study are to determine the prevalence of OSO syndrome in community-dwelling adults of Turkey and determine the possible factors regarding risk of falling in this population
The investigators propose, as part of the study, to carry out for each patient: - An analysis of monocytic populations by flow cytometry (CD14, CD16, CD45, CD68, CD115, CCR2, CX3CR1, CD163 and CD206). - A population assessment of Myeloid-Derived Suppressor Cells (MDSC). - Assays of cytokines and chemokines involved in inflammation by multiplex analyzes: Il-1 (α and β), Il-4, Il-6, Il-10, Il-13, TNF- α, TGF- β, CRP , leptin, IFN- β. - Specialized dosages of proteins involved in bone metabolism. RANKL, osteoprotegerin, M-CSF, TRAPCP5.
The management of bone disease has often been neglected post-transplantation, when the clinical focus is on allograft function and immunological sequelae. However, most renal transplant recipients (RTRs) have pre-existing CKD-MBD, which results in changes to mineral metabolism and reduced bone mineral density (BMD) and quality, which are linked to an increased incidence of fractures and cardiovascular disease. Bone loss is greatest in the first 6-12 months post-transplantation, during which period any intervention is likely to be of greatest benefit. Anti-resorptive agents all inhibit bone resorption. Since bisphosphonates and densoumab are the most widely used anti-resorptive agents for osteoporosis, we conduct this prospective interventional comparative study to compare the efficacy and tolerability of alendronate versus denosumab in de novo kidney transplant recipients with reduced bone mineral density, in the first 12 months treatment after kidney transplantation.
Syndromes such as sarcopenia, sarcopenic obesity and osteosarcopenic obesity are commonly seen in older adults. They result from the impairment of muscle, bone and adipose tissue. Thus, they lead to a decrease in quality of life and increase morbidity and mortality. The aim of this study is to report the prevalence of sarcopenia, sarcopenic obesity and osteosarcopenic obesity in community-dwelling outpatient older adults and to investigate the related factors.
Background: Osteoporotic fractures are a major public health issue. They cause substantial disability, loss of autonomy, morbidity and excess mortality. Diabetes is also associated with increased risk for falls and fractures through a direct impact of elevated blood glucose on the skeleton and on muscles. Research project overview: The investigators propose a cross-sectional study that will involve 2 research centers in the province of Quebec. The investigators will recruit 20 obese participants, without diabetes, who have not undergone bariatric surgery, for one-time measurements to be compared with baseline measurements (pre-surgery) from participants in the bariatric obese diabetic groups with type II diabetes mellitus from the ongoing study BODI study (NCT03455868). Bone Mineral Density as well as muscle quality, strength and function will be evaluated at a single study visit. Relevance: This data will permit the evaluation of the bone-muscle unit in patients with obesity with and without diabetes, and assess whether the presence and duration of diabetes impacts further on clinical and functional musculoskeletal outcomes (falls, fractures and mobility and strength) in this population. AGEs, if associated with muscle and bone deterioration, might become an easily accessible biomarker of musculoskeletal health in the clinical setting.
Osteoporosis constitutes a major public health concern. For instance, in European Union 1 in 3 women and at least 1 in 6 men will suffer an osteoporotic fracture during their lifespan. The burden of osteoporosis is estimated to raise 25% by 2025. Worldwide, by 2050, the incidence of osteoporotic fractures is expected to increase 240% in women and 310% in men compared to 1990. The aforementioned estimates might indicate the existence of some gaps related to current products on the market for prevention and treatment of osteoporosis. Actually, the use of the approved pharmacological agents for osteoporosis have been decreasing in European Union and worldwide. Patients are becoming increasingly reluctant to take medicines; even those with severe osteoporosis are refusing treatment. Recent published reports on the matter revealed that patients fear the side effects of current pharmacological agents. Actually, therapy with bisphosphonates, the most prescribed medication for the treatment of postmenopausal, glucocorticoid-induced and male osteoporosis has been associated with severe side effects as osteonecrosis of the jaw and atypical femoral fractures. Colostrum, a milky substance produced by mammals, known to be responsible for the development of the immune and skeleton systems of the offspring, has on its constituent's lactoferrin (LF). This multi-functional protein has been shown to affect both bone resorbing and bone formation pathways. The safety and tolerance on the use of bovine colostrum in humans (children and adults) have been well documented; it has a 'Generally Recognized As Safe' status from the United States Food and Drug Administration. Allergies and lactose intolerance, which are main shortcomings of milk consumption, have not been reported in relation to colostrum. Actually, human colostrum and bovine colostrum share the same bioactive components, but bovine sources are more potent than that of human. In accordance, bovine colostrum supplementation has been used in several therapeutic applications as gastrointestinal disorders, allergies and autoimmune diseases, viral and bacterial illnesses, and HIV-associated immunomodulation HIV. However, the effectiveness of bovine colostrum (as a whole and not only LF) to reduce bone losses has not been considered yet. Therefore, this study aims at analyzing the effects of bovine colostrum in diminishing bone mass losses in humans.