View clinical trials related to Bone and Bones.
Filter by:Nutrient intake of calcium and protein are known to function as regulators of bone remodeling. Specifically, a balanced rate of bone resorption and bone formation (i.e. bone remodeling process) is required to maintain bone health. However, a high remodeling rate, or an imbalance between formation and resorption, as well as suboptimal nutrient intake are known to contribute to fracture risk and bone dysfunction. Gut-derived hormones represent an important link between nutrient intake and bone remodeling (i.e. gut-bone axis). A sustainable nutritional intervention that positively modulates the postprandial responses of gut-derived hormones and the linked bone remodeling processes is an attractive option for the optimization of bone health in young adults. The proposed nutrient intervention seeks to explore the bioefficacy of a combination plant-based protein and marine-based multi-mineral supplement following oral ingestion in young, healthy men and women. A postprandial time-course study will be undertaken to examine the acute effects and/or associations between different gut-derived hormones and biomarkers of bone metabolism.
Various graft materials are used to reconstruct bone defects in the jaws due to tooth loss, trauma, advanced periodontal diseases, pathological lesions and congenital disorders. The main features of an ideal bone graft are osteogenesis, osteoinduction and osteoconduction. Autogenous bone graft is considered as the gold standard among all bone graft materials. Because it has all the features that an ideal bone graft should have. However, there are some disadvantages such as donor site morbidity, obtaining limited amounts and high rates of resorption. Because of these disadvantages, other bone graft materials such as allografts, xenografts and alloplastic bone grafts are frequently used for bone augmentation. In the light of recent studies, the limits of conventional bone graft materials such as limited osteoconduction capacity and disease transmission have been clearly demonstrated. Due to the disadvantages of these materials, studies are directed to develop alternative graft materials. Aim of this study is to analyse the effects of autogenous dentin graft and mixture of autogenous dentin graft and platelet rich fibrin (PRF) applied to the tooth extraction sockets on bone healing process. A total of 57 extraction sockets in 9 patients who were planned to be treated with dental implant after tooth extraction were evaluated in this study. Extraction sockets were divided randomly into 3 groups. In the first group, sockets were filled with autogenous dentin graft (Group D-20 sockets). In the second group, sockets were filled with the mixture of PRF and autogenous dentin graft (Group DP-21 sockets). In the third group, sockets were left empty as control group (Group C-16 sockets). After 3 months, histological and immunohistochemical evaluations were performed on the samples taken during the implant surgery. Additionally, samples obtained from each group were examined by scanning electron microscopy (SEM).
The process of bone remodeling exhibits pronounced diurnal pattern that is important for bone health. A balanced rate of bone resorption is required to maintain bone health, a balance that can be disturbed during the life-cycle to effect net rate of formation (as occurs during growth and development to adulthood) or net resorption (as occurs, for example, during the menopause). Bone turnover is a nutritionally modulated process and the investigators believe a milk-based protein supplement (MBPS) can modulate beneficially the rate of bone resorption over the time period when bone remodeling is most active i.e. late evening/overnight. In this novel approach to the timing of nutrient ingestion, the proposed nutrient intervention seeks to modify (reduce) the rate of bone resorption and promote the rate of bone formation to the benefit of bone health in this at risk population..
The purpose of this study is to evaluate the effect of dexlansoprazole modified release (MR), once daily (QD), on bone homeostasis.
Both the calcitriol and exercise interventions are aimed at reducing fracture risk by maintaining proper bone density, thereby preventing osteoporotic/osteopenic conditions and increasing muscle mass. Both calcitriol and exercise are efficacious in maintaining proper bone health and muscle mass among the general population, but little research has been done on breast cancer patients and survivors. The combination of calcitriol and exercise, which function through different but similar mechanisms, could produce interactive effects in reducing fracture risk among breast cancer survivors. Hypothesis: A combination of calcitriol along with a structured home-based walking and progressive resistance exercise program will be efficacious in preventing bone resorption and in increasing bone formation among survivors of invasive breast cancer.