143 Clinical Trials for Various Conditions
The goal of this clinical trial is to compare bone health markers over 24 months in participants 12 - 21 years of age with obesity who are starting the glucagon-like peptide-1 (GLP-1) Semaglutide as compared to those with similar weight followed by lifestyle management. Participants will: * Take Semaglutide as prescribed or continue to work on lifestyle management for weight loss * Take provided calcium and vitamin D supplements * Attend 6 study visits over 24 months with two at the beginning and then every 6 months that include: * History and Physical Exams * Lab Work * Imaging studies * Questionnaires * 24-hour dietary recalls * Mixed Meal Tolerance Test with a nutritional energy drink and six blood draws
People with Alzheimer's disease are at an increased risk of bone fracture. Some studies have shown that those taking donepezil have a lower rate of bone fractures, but the reasons for this are unknown. The purpose of this study is to measure the effect of donepezil treatment on bone metabolism factors including bone mineral density, bone turnover markers, and bone quality. Participants in this study will have a bone density test and have blood samples collected at the baseline study visit. Participants will then be randomly assigned to donepezil or matching placebo to be taken daily by mouth for 12 months. Blood samples will be collected at 6 and 12 months. A repeat bone density test will be performed at 12 months. Participants will also complete questionnaires at each study visit.
This is a randomized, double blind, placebo-controlled study of the effects of intranasal oxytocin on bone health in children with autism spectrum disorder, ages 6-18 years old. Subjects will be randomized to receive intranasal oxytocin or placebo (30 IU, 2 times daily) for 12 months in the double-blind phase, followed by a 6-month open label phase during which all study subjects will receive intranasal oxytocin (30 IU, 2 times daily). Study visits include screening to determine eligibility, followed by study visits at baseline, week 2, and months 6, 12, 18 and phone calls every two weeks for the first two months and monthly thereafter for the duration of the study. Study assessments include history and physical examinations, anthropometric measurements, electrocardiogram (EKG), adverse event monitoring, laboratory tests for chemistries, hormones and biomarkers for bone metabolism, questionnaires regarding diet and exercise, and imaging to assess body composition, bone density and structure.
The purpose of this study is to determine the effects of a single dose of non-steroidal anti-inflammatory drugs on post-exercise markers of bone and muscle metabolism.
This project will examine habitual physical activity, bone health, and insulin resistance in pediatric acute lymphocytic leukemia (ALL) and lymphoma cancer survivors at two time points: baseline and 6 months. At the two study timepoints, all study participants will be asked to wear an accelerometer, receive a DXA scan of the lumbar spine and hip, and have blood drawn for analysis. Study participants will be given a gift card stipend for each study visit attended. Study visits will coincide with regular office visits to Children's Hospital Oncology Clinic and the Children's Hospital Survivorship Clinics whenever possible. The potential mechanism by which physical activity mediates bone changes will be explored by concurrently measuring changes in lean/fat mass and metabolic status. This pilot study will provide data to inform the design of a randomized controlled trial to test the effect of a physical activity intervention on bone health in PCS.
The primary aim of this proposal is to determine the effects of soluble corn fiber (SCF) supplementation for 1 year on bone metabolism in growing adolescents compared to controls. For the proposed study, a randomized double-blinded placebo controlled clinical trial will be conducted in 236 healthy adolescents aged 10-13 years, equally randomly assigned to one of four intervention groups: SCF (12 g/d), SCF + calcium (12 g/d of SCF + 600 mg/d of elemental calcium), placebo (0 g/d of SCF or of calcium), and placebo + calcium (0 g/d of SCF + 600 mg/d of elemental calcium); all administered twice a day. Bone mass will be assessed at baseline at 6 months and at 12 months and bone related biomarkers and fecal microbiome will be assessed at baseline and at 12 months.
The overall objective of the study is to examine the changes within the gut microbiome after the supplementation of inulin and its effect on markers of mineral metabolism and bone turnover.
This study is designed to answer the question as to whether the sympathetic nervous system is an important determinant of bone metabolism in humans.
Participants will be persons with Type 2 Diabetes who are likely to have increased risk of bone fractures. The investigators believe this medication will enhance bone turnover. The investigators will use DXA measurements to evaluate bone density before and after subjects take the medication.
Background: - Canagliflozin (sold as InvokanaTM) is a new medicine for diabetes. But it might increase the bone fracture risk in people with diabetes. Objective: - To see if Invokana has negative side effects on bone health. Eligibility: - Healthy men ages 18 45. Design: * Participants will be screened with a medical history, physical exam, and blood tests. A nutritionist will discuss their dietary history and the study dietary requirements. Participants will get a food diary to record what they eat and drink on 3 separate days. * Participants will have a DEXA scan x-ray test of bone health. Participants will lie still on a table while a small camera passes over the body. * Participants will have 2 stays in the clinic. They will be 1 week apart and each last 6 overnights starting on a Sunday. * Before each stay, participants will: * Pick up food each day for 7 days. They will get breakfast, lunch, dinner, and snacks. They must eat only the food provided during these times. * Collect their urine twice. * During the stays, participants will: * Be evaluated by a doctor and have blood drawn. * On each Monday, participants will: * Skip breakfast * At about 8 a.m. take a placebo pill in one stay, the study drug in the other stay. * Drink 6 ounces of water every 2 hours for 4 hours. * An intravenous (IV) catheter will be inserted into an arm. Blood will be drawn every 2 hours from 8 a.m. until noon. * Get lunch. * Have blood testing again at 8pm and midnight. * Repeat the testing days 2 5. * Have urine collected.
One of the major shortcomings in studying bone disease in hemophilia is the lack of fracture outcome data demonstrating the clinical significance of decreased BMD and altered bone biomarkers in the hemophilia population. This study demonstrates that PwH have an increased risk of fracture compared to the general population and that the issue of bone health will increase in importance as the PwH population ages.
This study examined the effects of 8 months of Yoga training on bone density and bone turnover markers in premenopausal women, ages 35-50 years. The style of Yoga used was power Yoga that involved postures with a jumping component. The investigators hypothesized that the Yoga intervention would result in beneficial improvements in bone turnover markers, by increasing the bone formation marker and decreasing the bone resorption marker.
The purpose and objective of this study is to determine the changes in bone metabolism after bariatric surgery in postmenopausal women. This is a prospective cohort study that will enroll up to 40 postmenopausal female subjects with class II and III obesity from the Duke Center for Metabolic and Weight Loss Surgery. The study team will enroll subjects that are already being scheduled for either sleeve gastrectomy or Roux-en-Y gastric bypass. The osteoclast activity, the osteoblast activity, and the bone mineral density will be measured in all subjects preoperatively and 12 months postoperatively through research specific blood tests and Dual energy x-ray Absorptiometry (DEXA) scans. The primary endpoints are change in osteoclast activity as measured by C-terminal telopeptide of type I collagen and change in bone density as measured by DEXA scan. These are continuous variable and given the small sample size the investigators will use a nonparametric Wilcoxon rank-sum test to compare the difference in one year change in these variables. There is a slight risk of loss of confidentiality. Every effort will be made to protect all PHI. There is also the risk of increased exposure to radiation from the DEXA scans performed twice with each subjects participating in the study.
Our primary hypothesis is that Roflumilast (500 μcg, once daily) will significantly decrease surrogate markers of bone metabolism and early cardiovascular disease in individuals with moderate to severe airflow obstruction and a chronic bronchitis phenotype.
Bone loss is not only a well-documented effect of spaceflight on astronauts, but also a condition that affects millions of men and women on Earth each year. Many countermeasures to bone loss have been proposed, and many have been evaluated to some degree. To date, those showing potential have focused on either exercise or pharmacological interventions, but none have targeted dietary intake alone as a factor to predict or minimize bone loss during spaceflight. The investigators proposed to document how the ratio of acid precursors to base precursors in the diet is related to directional changes in markers of bone resorption and formation during flight and recovery from flight. There is a high likelihood for success in predicting the extent of bone loss from dietary intake patterns of astronauts during spaceflight, given that this concept is strongly anchored in data obtained from ground-based experiments in our laboratory and others. The notion of manipulating diet to minimize bone loss could also have significant social and economic impacts for NASA and for the general public - especially given the increasing trends for diets that are high in animal protein and low in fruits and vegetables. The results of the proposed experiments will lead to development of a dietary countermeasure for bone loss consisting of a balanced diet with no associated risks for side effects that might be present with pharmaceuticals or supplements, no requirement for payload mass, and no additional crew time necessary during flight.
We plan to analyze the data to meet the primary objective of the study: To characterize the change in bone mineral density (BMD), as measured by lumbar spine DEXA, during and following treatment with tenofovir DF-containing antiretroviral therapy in HIV-infected children. In addition, we plan to analyze the data to meet 2 secondary objectives of the study: 1. To study and monitor markers of bone metabolism - calcium, phosphorus, parathyroid hormone (PTH), vitamin D levels, bone resorption markers (urinary collagen cross-linked N-telopeptide and free deoxypyridinoline), bone formation markers (bone specific alkaline phosphatase and osteocalcin) - in HIV-infected children treated with tenofovir DF-containing antiretroviral therapy. 2. To study immunologic, virologic and clinical effects of tenofovir DF administered to HIV-infected children in combination with other antiretroviral therapies.
The aim of this research study is to determine by laboratory analyses the effects of drinking silicon-rich water on bone health. This will be determined from blood and urine samples from subjects who will be asked to drink 1 liter per day of either silicon-rich water or water without silicon for 12 weeks.
The primary aim of this study is to obtain measures of amino-terminal telopeptides of procollagen 1 (P1NP), a marker of bone formation, in lactating and non-lactating post-partum African-American women both at 6-8 and at 12-14 weeks post-partum, and to compare these values to those of normal controls. The secondary aim is to obtain at the same time points, measurements of Parathyroid Hormone-related Protein (PTHrP), additional markers of bone turnover \[e.g. N-telopeptide of collagen cross-links (NTx), C-telopeptide of collagen cross-links (Ctx),bone specific alkaline phosphatase (BSAP) and osteocalcin (OC)\], calcium and vitamin D metabolism in these subjects. These results will be compared with a non-African-American cohort of post-partum women and normal controls. The investigators hypothesize that African-American lactating women will have increased bone turnover when compared to non-lactating postpartum women and normal controls. The investigators further hypothesize that bone turnover is increased in lactating women independent of race.
Adolescents and young adults with anorexia nervosa (AN) are at high risk for low bone mineral density at a time when healthy adolescents are rapidly accruing bone, with implications for peak bone mass and fracture risk in later life. They are also deficient in insulin-like growth factor 1 (IGF-1), the bone trophic factor made in the liver in response to growth hormone (GH), despite elevated levels of growth hormone. It is possible that deficiency of insulin-like growth factor 1, a hormone very important for the maintenance of skeletal integrity, may contribute to the severe osteopenia seen in anorexia nervosa. The physiologic effects of recombinant human insulin-like growth factor 1 (rhIGF-1) treatment in adolescents and young adults with anorexia nervosa have not been studied. The goal of this proposal is to investigate the effects of recombinant human insulin-like growth factor 1 on bone density and bone microarchitecture in adolescent girls and young adult women with anorexia nervosa over a 6 month period. We hypothesize that adolescent and young adult anorexia nervosa patients, being insulin-like growth factor 1 deficient, will respond to exogenously administered recombinant human insulin-like growth factor 1 with elevations in biochemical indices of bone turnover and an increase in bone density and improvement in bone structure, or maintain bone density (in contrast to the decrease in bone density expected in adolescent girls and women with anorexia nervosa who are not treated).
The purpose of this study is to evaluate the effect of pioglitazone on bone metabolism in postmenopausal women with impaired fasting glucose.
The drug that you are taking for your cancer, imatinib (GleevecTM), has recently been shown to have some new types of side effects. In some people, imatinib can affect how bones are made. The purpose of this study is to find out if imatinib is causing these side effects in you. We can check how your bones form by testing your blood and urine. We can also check your bone strength by doing a special X-ray of your bone called bone density (or DEXA scan).
The primary aim of the study is to measure bone formation in both lactating and non-lactating post-partum women and compare these to those in healthy non-pregnant controls. The secondary aim is to obtain measurements of Parathyroid Hormone-related Protein (PTHrP), markers of bone resorption, and calcium and vitamin D metabolism in these subjects. The investigators believe that lactating women will have an increase in bone resorption but no increase in bone formation when compared to non-lactating post-partum women and normal controls.
We hypothesize that antipsychotic induced hyperprolactinemia can decrease bone mineral accrual and decrease bone mineral content (BMC) in adolescents on antipsychotic therapy. Specifics Aims 1. To determine if antipsychotic therapy leads to decreased bone mineral accrual and decreased bone mineral content in a group of adolescents on antipsychotic therapy by comparing them to an ethnicity, gender and pubertal stage matched control group. 2. To determine the relationship between serum concentrations of prolactin, sex steroids and bone turnover markers in adolescents on antipsychotic therapy and an ethnicity, gender and pubertal stage matched control group.
A study was designed with two specific aims: (1) to assess the effect of soy bread, compared with wheat bread, on markers of bone metabolism and cardiovascular health, and (2) to evaluate whether soy bread consumption affects the metabolism of phytoestrogens. To answer Aim 1, a double-blind randomized crossover trial was conducted. Individuals with an ability to metabolize a specific isoflavone, daidzein, consumed 3 slices of bread (either soy or wheat) daily over a 12-week period. After a 4-week wash-out period, subjects consumed 3 slices/day of the other type of bread. Markers of bone metabolism and cardiovascular health were evaluated before and after each time period. To answer Aim 2, individuals who did not metabolize daidzein at baseline entered a double-blind randomized trial of soy bread with or without fructooligosaccharide (a type of dietary fiber) over an 8-week period. Subjects were evaluated regarding their ability to metabolize daidzein to equol.
Skeletal buffering of chronic acid loads may contribute to a significant amount of bone loss over time. Evidence from a few small short-term studies suggests that basic compounds, namely potassium citrate and potassium bicarbonate may reduce bone loss and improve bone density. The purpose of this study is to evaluate the effects of potassium citrate on bone metabolism. We hypothesize that administration of potassium citrate to postmenopausal women with osteopenia will reduce bone resorption and improve bone mineral density. Postmenopausal women with osteopenia (T score between -1.0 and -2.5) and no history of fracture will be randomized to either daily potassium citrate or placebo for one year. Primary outcomes will be markers of bone turnover, which will be measured over 12 months. Secondary outcomes will be bone mineral density, compliance, and adverse events.
Decreased bone strength is a serious medical problem present in many women with Anorexia Nervosa, or disordered eating. Women with weaker bones are more likely to suffer broken bones than women with normal bone strength. We are investigating whether a hormone that is naturally produced by the human body, called growth hormone, can help strengthen the bones of women with this type of disordered eating.
This study will examine the long-term effects, particularly on bone metabolism, of the drug tenofovir DF in children with HIV infection. Tenofovir DF is approved for treating HIV-infected adults, but its use in children has not yet been approved. The drug may be helpful for children who have been treated with many other drugs and still have detectable HIV in their blood despite ongoing therapy. In a previous study, many children given tenofovir DF responded well, with increases in T-cell counts and decreases in viral load. However, many children also experienced bone thinning. This study will explore the problem of bone thinning in children taking tenofovir DF in combination with highly active antiretroviral therapy (HAART). HIV-infected patients from 4 to 20 years old who are taking tenofovir DF or for whom tenofovir DF treatment has been recommended may be eligible for this 3-year study. Participants take tenofovir DF every day in addition to their antiretroviral therapy. They have frequent follow-up visits for tests and procedures as follows: * Study days 0, 2, and 4: blood tests. * Screening and every study visit starting day 6: Physical exam, medical history, blood and urine tests. * Baseline and every 48 weeks: Dental and eye examinations, kidney ultrasound, tuberculin skin testing, chest x-ray, electrocardiogram and echocardiogram, computed tomography (CT) scan, neuropsychological testing and neurologic assessment. * The bone age hand x-rays are done every 24 weeks, unless the growth plates are fused (i.e. the child has stopped growing) * DEXAs are done at 0, 12, 24 weeks and every 24 weeks thereafter. Dual energy x-ray absorptionometry (DEXA) scan is used to assess bone density. The patient lies still on a table while the spine and hip are scanned using a small amount of radiation. Only the spine and hip are scanned in the DEXA scan test. * Baseline and week 24: Optional bone biopsy. Some patients are asked to undergo a bone biopsy to better understand the effect of Tenofovir DF on bone. For the procedure, the child is given a sedative. The skin over the hipbone is numbed with a small needle, a small incision is made and a larger needle is inserted into the bone. Some of the bone tissue is withdrawn through the needle and the incision is closed. * Possible lumbar puncture (spinal tap): This optional procedure analyzes cerebrospinal fluid (CSF), the fluid that bathes the brain and spinal cord. The patient is given a local anesthetic and a needle is inserted into the space between the bones in the lower back where the CSF circulates below the spinal cord. A small amount of fluid is collected through the needle. There is no specific schedule for this procedure if the patient opts for it. Patients who are benefiting from tenofovir DF therapy but show signs of bone effects are offered treatment with pamidronate (Aredia), a drug used to treat hypercalcemia (too much calcium in the blood). Patients who stop taking tenofovir DF because of bone toxicity continue to be followed on the regular study schedule. Those who stop the drug for toxicity other than bone toxicity or for toxicity not related to tenofovir DF are followed every 4 weeks until their laboratory test results improve.
The purpose of this study is to determine whether dietary phytoestrogens are an effective alternative to postmenopausal exogenous estrogen replacement therapy in preventing bone loss.
This research will examine the effectiveness of vitamin D or placebo (the placebo is a tablet that looks like Vitamin D study drug, but has no Vitamin D study drug in it), with and without physical activity (walking and progressive resistance exercise), in treating bone loss in women who have undergone treatment for breast cancer. The investigators would also like to find out if the physical activity program improves cardiovascular fitness, energy expenditure, muscular strength, muscle mass, and balance. One hundred five (105) subjects are expected to take part in this study. The investigators don't know if bone loss in breast cancer survivors should be treated differently than bone loss in other women.
Decreased bone strength is a common and serious medical problem present in many people with anorexia nervosa. Men with anorexia nervosa have lower levels of gonadal steroids such as testosterone. Low testosterone levels have been shown to result in low bone density. We are investigating whether bone mineral density and bone microarchitecture are abnormal in males with anorexia nervosa and whether supplementation with testosterone would improve both bone mineral density and bone microarchitecture.