View clinical trials related to Bone Density, Low.
Filter by:studying the relationship between Bone Mineral Density, Gross Motor Function and, Quality of Life with CP can provide valuable insights into the musculoskeletal consequences of motor impairments and guide interventions to improve bone health. Statement of the problem Is there a relation between Bone Mineral Density, Gross Motor Function and Quality of Life in children with CP ? Purpose of the study To study the relationship between: 1. Bone Mineral Density and Gross Motor Function in ambulant and non-ambulant CP children. 2. Bone Mineral Density and Quality of Life in ambulant and non-ambulant CP children. 3. Gross Motor Function and Quality of Life in ambulant and non-ambulant CP children.
The goal of this clinical trial is to investigate the new bone formation around a metal device in the femoral head in patients with osteoporotic hip fractures undergoing surgical treatment with nails. These surgeries have a high risk of fixation failure in patients with osteoporosis due to low bone quality. The main question we aim to answer are whether promoting new bone formation around the implant is possible with a bone graft substitute (CERAMENTâ„¢ Bone Void Filler) and systemic osteoporosis drug (zoledronic acid) combination, which can strengthen the surgical fixation of the fracture. Participants will consist of patients suffering hip fracture and already scheduled for surgical treatment with a nail. One group will undergo conventional surgery. While the other group will also undergo the same surgery, they will receive CERAMENTâ„¢ Bone Void Filler around the implant as a short, extra step during surgery. This will allow the researchers to see whether new bone is formed during a 6-month follow-up.
This study aims to understand how vitamin D (VD) affects human health. Typically, prisoners are low on vitamin D, as it is difficult to receive through diet, and is mostly obtained via exposure to the sun. The investigators predict that VD supplements could help improve overall mental well-being, as well as improve bone health. The investigators aim to recruit two groups of participants from a United Kingdom (UK) Prison, all of whom will participate via an informed consent process. The first group of prisoners will have chosen to take VD supplements, the second group will have chosen not to take VD supplements. At the start of the study, prisoners will have their bone density and blood VD levels tested. The investigators will also ask participants to complete a series of questionnaires to understand the state of mental well-being at the start of the study. Participants will be asked to complete a food diary to track dietary intake over the following week. Additionally, the investigators are interested in identifying what proportion of participants have a specific genetic makeup relating to their ability to metabolise VD, and participants will be asked to provide a saliva sample to test this. Every month following the start of the study, participants will be asked to complete the same questionnaires and food diary again. On the 3rd month, the investigators will again test the participants' bone density and blood levels of VD, to see whether supplementation has improved participant VD status. This study will run for a minimum of 3 months, up to a maximum of 6.
Objective: To verify the efficacy and safety of denosumab in the prevention and treatment of CKD-MBD in CKD patients with high risk of fracture. Methods: A cohort of CKD patients with high risk of fracture was established and followed up for long periods (≥24 months). Patients with CKD3b-5D stage and fracture risk assessment tool (FRAX) scores at high risk or very high risk of fracture were enrolled. A multicenter, prospective, open-label, randomised controlled, interventional study was conducted. The patients were divided into two groups. The patients in the denosumab group received subcutaneous injection of denosumab 60mg once every 6 months, and the patients in the non-denosumab group received conventional treatment. Bone metabolic markers (serum calcium, phosphorus, vitamin D, parathyroid hormone, alkaline phosphatase, tartrate-resistant acid phosphatase 5b, osteocalcin, total N-terminal propeptide of type I collagen, etc.), bone mineral density (dual-energy X-ray, quantitative CT), and vascular calcification score were regularly monitored. All adverse events (all-cause death, cardiovascular death, cardiac events, fracture, hospitalization, emergency department visits, etc.) were recorded during the follow-up period. Bone mineral density and clinical parameters were compared between the two groups.
Cystic fibrosis (CF) is an autosomal recessive disease caused by alterations in the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) gene, characterized by multisystemic alterations, mainly in the lung, intestine, sweat, and bile ducts. In addition to pulmonary involvement, the presence of exocrine pancreatic insufficiency also increases the risk of survival, as it is associated with malnutrition and deficiency of fat-soluble vitamins, such as vitamin D. Vitamin D, in addition to its role in bone health, in the case of CF patients with chronic inflammation, it has been suggested that many of the cytokines that regulate the inflammatory response contain elements that respond to vitamin D, so vitamin D could play an essential role in the regulation of the inflammatory response in CF, which could favor lung function. However, more than 50% of CF patients present vitamin D insufficiency or deficiency, despite the different schemes suggested for supplementation in different age groups, which suggests that new strategies are needed to normalize vitamin D levels, which will allow us to see its clinical effect on the inflammatory response, by decreasing the number of exacerbations and thus perpetuating or improving lung function, as well as on bone mineral health.
The goal of this study is to assess the feasibility of emerging CT-based tools to measure changes in central and peripheral bone density, micro-structure, and marrow adipose tissue (MAT) among patients treated with oral steroids.