View clinical trials related to Bone Diseases, Metabolic.
Filter by:The purpose of this study is to define the prevalence of low bone density (osteopenia/osteoporosis) in patients with chronic pancreatitis. Secondary aims include investigating the prevalence of hypogonadism (low sex hormones) in patients with chronic pancreatitis and determining if hypogonadism and/or use of narcotic pain medications are risk factors for low bone density in this patient population. 1. Hypothesis: Patients with chronic pancreatitis are at increased risk of low bone density (osteopenia/osteoporosis), and hypogonadism (low sex hormone levels) and narcotic pain medication use are independent risk factors for the development of low bone density in this patient population. 2. The outcome measures include: i) Prevalence of low bone density (osteopenia/osteoporosis) in patients with chronic pancreatitis (as determined by DXA scan and fracture history). ii) Prevalence of hypogonadism (low sex hormones) in patients with chronic pancreatitis (as determined by sex hormone levels and clinical history). iii) Identification of hypogonadism and/or opioid use as risk factors for low bone density in patients with chronic pancreatitis (as determined by univariate and multivariate analysis of multiple risk factors). 3. After obtaining written consent from potential subjects, a questionnaire will be performed outlining risk factors for low bone density. Dual X-ray absorptiometry (DXA scan) will be performed to evaluate for low bone density and a blood test will be performed to evaluate for low sex hormones, low levels of vitamin D, and other risk factors for low bone density.
This is a Phase 2, open-label, randomized, controlled clinical study of pediatric subjects treated with pamidronate with calcium and vitamin D versus calcium and vitamin D alone following hematopoietic cell transplantation (HCT). The purpose of this study is to test the hypothesis that subjects receiving pamidronate with calcium and vitamin D will have higher lumbar spine bone mineral content (LBMC) measured by dual-energy X-ray tomography (DXA) at 1 year post-HCT than subjects receiving calcium and vitamin D alone (Control Group).
Coronary artery disease (CAD) remains the leading cause of mortality in the UK with an estimated 80,000 fatalities in 2010. Coronary artery calcification (CAC) is associated with atherosclerotic plaque burden and cardiovascular mortality. Mechanisms underlying isolated CAC have not been as yet been fully explained. MicroRNAs (miRNAs), known to act as regulators of gene expression, have also emerged as powerful biomarkers in the diagnosis and prognosis of cardiovascular disorders and may be used in the detection of CAC. We aim to investigate the potential for a "microRNA-signature" in patients with CAC by performing a prospective, case-controlled study to identify pathways associated with CAC in humans. Previous research has demonstrated an inverse relationship between CAC and bone mineral density (BMD), suggesting that these processes may be linked. In a further substudy we plan to define the relationship between CAC and BMD as well as a number of markers of bone metabolism.
In order to make bone health a reality for older adults, we need to consider the prevalence of Vitamin D deficiency in relation to environment latitude as well as vitamin D supplementation. Darker skin pigmentation and aging are known factors influencing the body's ability to synthesis adequate amounts of Vitamin D. The aim of this project is to document vitamin D deficiency in elderly African American women living in a southern latitude.
The aim of this study is to investigate potential metabolic effects of whey protein high in protein and high in leucine(HPHL) compared to soy protein high in protein and low in leucine(HPLL) in osteopenic patients in a randomized controlled intervention study. The investigator hypothesize that HPHL will increase physical function and the ratio muscle mass / fat mass in this condition.
The investigators' long-term goal is to employ novel methods to improve bone formation and bone density in women (and men) with osteopenia or osteoporosis while also decreasing signs and symptoms of degenerative joint and disc disease that commonly accompany bone loss as well as improve quality of life (QOL). These conditions generally begin silently as early as the menopause transition and progress to osteopenia and osteoporosis during the post-menopausal years in aging women. The investigators also envision this will be beneficial in aging andropausal men with these conditions. The investigators postulate that melatonin in novel combination with other natural bone-protective agents may act in a "chronosynergy" manner to prevent and correct these perturbations, reducing the risk of bone fractures, and lessening the stiffness and pain associated with bone, joint and cartilage degeneration and improving quality of life (QOL). The objective here, which is the investigators' next step in pursuit of our goal, is to assess the efficacy of an alternative therapy that uses a novel combination of bone-forming agents, melatonin, strontium (citrate)/ vitamin K2 (MK7), and vitamin D3 on bone health in a postmenopausal population. Melatonin is a novel alternative to current treatment(s) because it has multiple bone-protective and sleep-promoting activities within the body, and it is relatively safe so it can be used in an aging population without untoward side effects; strontium and vitamin D3 are shown to enhance bone mineralization and improve post-menopausal osteoporosis. The project goal is to identify if this combination therapy improves bone health and QOL compared to women taking placebo. The investigators' central hypothesis is that combination therapy using melatonin, strontium, vitamin K2, and vitamin D3 will improve bone health and overall QOL in postmenopausal women not taking this regimen by reducing osteoclast activity and increasing osteoblast activity and by improving subjective measures of stress, anxiety, depression and menopause-related symptoms.
The primary objective of this study was to assess the safety, tolerability, and immunogenicity potential of romosozumab following multiple subcutaneous (SC) administrations in healthy men and postmenopausal women with low bone mass.
Randomized cross-over design with 10 male subjects and 3 campaigns to test whether the negative effects of bed rest (6º head-down tilt) on the various systems of the body and the consequences to health of simulated weightlessness can be counteracted by the use of a defined training programme.
Obesity is an important risk factor for osteoporosis and fractures. With the growing prevalence of obesity in the U.S., understanding the pathophysiology of bone loss in this population is of importance to public health. Growth hormone (GH) is a critical mediator of bone homeostasis and is markedly reduced in obesity. Our preliminary data suggest an important role for the GH/insulin-like growth factor 1 (IGF-1) system in the pathogenesis of bone loss in obesity. The development of novel imaging techniques provides an opportunity to investigate the effects of GH on skeletal structure and strength, which will provide insights into the pathogenesis of obesity related bone loss. Understanding the pathophysiology of bone loss in obesity may help identify new treatment targets for this important complication. The investigator hypothesizes that low-dose GH administration for 18 months will improve skeletal health.
This is a Monocentric, Prospective, Randomized, Open-label, Comparative, Phase IV Study, to compare the effects of Vildagliptin and Gliclazide MR on Markers of Bone Remodeling, Bone Mineral Density and Glycemic Variability in Postmenopausal Women with Type 2 Diabetes. A total of 38 women with documented Type 2 Diabetes and menopause will be enrolled. The active treatment will include a 50 mg dose of vildagliptin OD twice a day. As comparator, gliclazide MR will be administered at a dose of 60 to 120 mg OD once a day.