View clinical trials related to Bone Diseases.
Filter by:The aim of this project is to set up a biological and clinical collection of patients with progressive bone, calcium and growth plate pathologies. This collection will provide a better understanding of the mechanisms involved in growth plate and bone damage in these diseases and identify factors predictive of progression and new therapeutic targets.
Previous studies have shown that there is a large inter-individual variability in the degree of bone loss during glucocorticoid treatment, and while some patients experience extensive bone loss other patients' bone mass remains stable. The aim of the study is to find a biomarker that can be used to identify individuals at risk of glucocorticoid-induced bone loss. The study will include 36 healthy volunteers, that will be randomized to receive either glucocorticoid treatment or placebo. During the study blood samples, bone marrow samples, bone tissue samples, and adipose tissue samples are taken and a mixed meal test is performed.
Metabolic bone disease of prematurity (MBDP) is caused by insufficient content of calcium, phosphorus, and organic protein matrix in preterm infants or bone metabolism disorder, which is one of the complications affecting the quality of life of preterm infants. The early symptoms of MBDP are insidious, and there is no unified and clear diagnostic method. The diagnosis is mostly based on typical clinical manifestations and X-ray findings, but at this time, bone mineral density has decreased significantly, so early detection and diagnosis are difficult. Studies have shown that exosomal micrornas have biological characteristics and targeting specificity, and can be used as new molecular diagnostic markers for diseases. Several studies have reported the use of plasma or serum microRNAs as molecular markers for early prediction of bone diseases. In our previous study, we extracted plasma exosomes from preterm infants for high-throughput sequencing of microRNAs, and identified differentially expressed micrornas related to bone metabolism. In this study, exosomes were used as carriers, and digital PCR was used to verify the specificity and sensitivity of plasma exosomal microRNA as biomarkers of MBDP in a large sample size. The above biomarkers were compared and verified before and after treatment in children with MBDP. Further revealing plasma exosomal microRNA as a biological indicator for evaluating the efficacy of MBDP may improve the diagnostic level of MBDP, improve the outcome and prognosis of very low birth weight preterm infants, thereby improving global health and reducing socioeconomic costs.
Background : Type 1 diabetes (T1D) is associated with an increased risk of fractures. The mechanisms accounting for this bone fragility are not yet fully understood. As T1D is often diagnosed in childhood or early adulthood, the lower bone mineral density (BMD) and deteriorated bone microarchitecture observed in T1D may reflect changes in the bone that occurred before or at the time of peak bone mass achievement. There is a lack of high-quality prospective studies to determine whether adults with T1D continue to lose BMD or deteriorate bone quality compared with controls. Moreover, while chronic hyperglycemia is a risk factor for fracture in T1D, it is unknown if better glycemic control affects bone outcomes. This prospective multicenter cohort study aims: (1) To compare the changes in the following outcomes over 4 years in adults with T1D and controls without diabetes of similar age, sex and body-mass index distribution: BMD by dual-energy X-ray absorptiometry (DXA) at the femoral neck, hip, spine, and radius, trabecular bone score (TBS) by DXA, and serum biochemical markers of bone turnover (BTMs); (2) To evaluate whether long-term glycemic control or the presence of a microvascular complication are independent predictors of the changes in BMD and TBS in people with T1D.
Explore the bone metabolism characteristics of premature ovarian insufficiency.
Introduction. Whiplash is common after road traffic accidents and affects millions of people worldwide; 50% develop chronic symptoms and 15% have their ability to work compromised. The aim of this study was to evaluate an osteopathic intervention in whiplash and determine whether pain, mobility and quality of life improve with respect to conventional treatment. Methodology. A randomised, controlled clinical trial between 13/01/2021_10/08/2022 conducted at Hospital San Juan de Dios del Aljarafe. The control group followed the hospital's protocol, and the experimental group also received an osteopathic intervention. Statistical analysis: Statistical Package for the Social Sciences (SPSS-vs27.0); intra-subject comparison: Student's t-test for dependent samples, Wilcoxon's test; inter-group comparisons: Student's t-test for independent samples, Mann-Whitney U, chi-squared.
The purpose of this study is to determine if narlumosbart is non-inferior to denosumab in the treatment of bone diseases from multiple myeloma (MM).
The De-emphasize Parathyroid Hormone (DePTH) Study is a 12-month pragmatic, randomized, parallel-group, active comparator, open-label, blinded end-point study of 90 patients with incident or prevalent secondary hyperparathyroidism and kidney failure treated with in-center hemodialysis. It tests the hypothesis that low fixed-dose oral calcitriol (intervention) will have more favorable effects on a comprehensive panel of biomarkers that assesses mineral metabolism, bone turnover, and serum calcification propensity, compared with variably-dosed intravenous activated vitamin D titrated to PTH targets (usual care).
The aim of this study will be to assess the effectiveness of monitored vit D supplementation in a population of preterm infants and to identify whether the proper vit D supplementation in preterm infants can reduce the incidence of neonatal sepsis and incidence of metabolic bone disease.
The clinical study aims to investigate the effect of the intravenously administrated amylin analogue (pramlintide) on the circulating levels of C-terminal telopeptide of type I collagen (CTX-1) (a marker of bone resorption) and N-terminal propeptide of type I procollagen (P1NP) (a marker of bone formation) in individuals with type 1 diabetes and matched healthy controls during fasting euglycemic conditions.