32 Clinical Trials for Various Conditions
The purpose of this research study is to find out how bones are affected in children and adolescents with type 1 diabetes (T1D) as compared to children and adolescents without type 1 diabetes.
Bone responds according to the load placed on it. In this study, investigators want to know if exercise that loads the body in exercises, like walking or jogging (Ground Reaction Forces: GRF), affects bone differently than exercises that load the joints, like weight lifting (Joint Reaction Forces: JRF). Participants will exercise at least 3 times a week for 6 months. Measures of bone strength and mass, muscular strength, and aerobic fitness will be taken at the beginning and the end of the 6 month program. Period blood samples will be taken for future analysis of blood markers.
The NCIC CTG was conducting an international breast cancer prevention trial (MAP.3) examining the effects of a new therapy (exemestane) for breast cancer prevention in postmenopausal women at increased risk of developing this disease. Results showed that after a median follow up of 35 months, exemestane was superior to placebo in breast cancer prevention. Exemestane blocks estrogen production, which may be beneficial for preventing breast cancer, but may have negative effects on bone. As postmenopausal women are at risk for developing osteoporosis, determining whether exemestane causes bones to weaken is crucial for women considering it for long-term use. Dr. Cheung's team followed the bone health of 354 women in MAP.3 in detail over 2 years and found that volumetric bone mineral density (by high resolution peripheral quantitative computer tomography (HR-pQCT) at the radius and tibia as well as areal bone mineral density by dual energy x-ray absorptiometry (DXA) at the hip and spine decreased significantly with the use of exemestane. The long term effects of exemestane on bone will be examined up to 5 years of therapy and then 2 years post therapy to delineate the effects of exemestane on bone strength. This research will inform us on the safety of exemestane for breast cancer prevention.
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
Treatment for childhood cancer interferes with normal bone maturation such that maximal peak bone mass may never be attained by some survivors of childhood cancer. In childhood cancer survivors, a randomized trial evaluating the effectiveness of vitamin D and calcium supplementation among ALL survivors is currently underway; however, few other interventions have been offered for this at risk population. Recent evidence demonstrates that low magnitude; high frequency mechanical stimulation can improve bone quantity and quality, perhaps providing an alternative or adjunct to pharmacologic intervention in populations where additional medications are either contraindicated or not acceptable to the individuals at risk. This application proposes a prospective double blind randomized clinical trial of low magnitude, high frequency mechanical (LMHF) stimulation for childhood cancer survivors whose bone mineral density is one or more standard deviations below the mean for their age and gender.
Stress fractures are a common and debilitating injury for a variety of athletes however current evidence does not clearly allow easy prediction of athletes at risk for a first fracture. Animal and some preliminary human evidence suggest that assessment of bone strength, muscle size and running mechanics may be primary risk factors for stress fractures. The investigators study will help determine which, if any, of these modifiable risk factors could help identify athletes at risk for stress fracture. Competitive female distance runners will be recruited for this study. Participants will placed into a stress fracture or control group based on stress fracture history. Dual energy x-ray absorptiometry (DXA) and peripheral Quantitative Computed Tomography (pQCT) will be used to assess bone structure and strength. Running mechanics will be assessed during a 30-40 minute fatiguing run. A treadmill with an embedded force plate and high speed video will be used to assess changes in running mechanics throughout the run. The purpose of this project will be to 1. explore differences in volumetric bone mineral density (vBMD), bone geometry, and muscle cross sectional area (MCSA) using pQCT 2. explore changes in load (GRFs) and running mechanics that occur during a fatiguing run in runners with and without a history of stress fracture.
The goal of this clinical trial is to test whether potassium citrate improves skeletal health in adults and children with chronic kidney disease. The main questions it aims to answer are: * To evaluate effects of potassium citrate treatment on bone quality and strength. * To evaluate mechanism(s) underlying the effects of potassium citrate on skeletal health. Participants will be asked to: * provide blood, urine and answer questions about health and diet three times during an 8 months period * undergo advanced bone imaging with high resolution-peripheral quantitative CT scan twice during 8 months * take study pills for 4-6 weeks at the beginning of the study to ensure safety * take either potassium citrate or placebo for 6 months during the blinded portion of the study As part of the study, there will be a run-in period followed by the placebo-controlled randomized clinical trial. Researchers will compare the bone imaging between the potassium citrate and the placebo groups at the end of the study.
Osteoporosis is a disease characterized by low bone mass and structural deterioration of bone tissue leading to bone fragility (i.e., weakness) and an increased risk for fracture. Bone strength is a critical factor in a bone's ability to resist fracture and is clearly an important outcome in studies of osteoporosis. The current standard for assessing bone health and diagnosing osteoporosis is to use dual-energy x-ray absorptiometry (DXA) to quantify the areal bone mineral density (BMD), typically at the hip and spine. However, DXA-derived BMD has limited discriminatory accuracy for distinguishing individuals that experience fragility fracture from those who do not. One well known limitation of DXA-derived BMD is that it does not adequately assay bone strength. There is a critical unmet need to identify persons more accurately with diminished bone strength who are at high risk of experiencing a fragility fracture in order to determine an appropriate therapy. A potential new diagnostic approach to assess skeletal health and improve osteoporosis diagnosis is the use of Cortical Bone Mechanics Technology (CBMT). CBMT leverages multifrequency vibration analysis to conduct a noninvasive, dynamic 3-point bending test that makes direct, mechanical measurements of ulnar cortical bone. Data indicates that CBMT-derived ulnar flexural rigidity accurately estimates ulnar whole bone strength and provides information about cortical bone that is unique and independent of DXA-derived BMD. However, the clinical utility of CBMT-derived flexural rigidity has not yet been demonstrated. The investigators have designed a clinical study to assess the accuracy of CBMT-derived ulnar flexural rigidity in discriminating post-menopausal women who have suffered a fragility fracture from those who have not. These data will be compared to DXA-derived peripheral and central measures of BMD obtained from the same subjects.
This is a randomized clinical trial to quantify the effects of exoskeleton-assisted gait on the musculoskeletal system and health-related quality of life.
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 of this study is to determine if a specific form of Vitamin B known as Pyridoxamine helps improve bone strength over one year in women (\>65 yrs old) with Type 2 Diabetes. The investigators know that people with type 2 diabetes have the lower bone material strength and the investigators suspect this is due to high levels of circulating sugars that build up over time (known as Advanced Glycation Endproducts). The investigators will study whether using a specific form of vitamin B, known as pyridoxamine helps improve bone strength and reduce levels of circulating sugars over a one year time period.
The goal of this study is to determine whether Vitamin D supplementation improves strength and bone density, and reduces the risk of injury in collegiate athletes.
We started the Bone, Estrogen, Strength Training (BEST) study in the fall of 1995 at the University of Arizona, Tucson, Arizona. The BEST study is the largest of its kind. It looks at the effects of hormone replacement therapy and strength training exercise on bone mineral density. (Bone mineral density affects bone strength and the risk of osteoporosis.) Six groups of about 300 women each participated in this osteoporosis prevention study. In 1998, the BEST study received additional funding to examine for another 2 years the long-term effects of strength training on bone mineral density. By 2001 we will have finished analyzing the results for all study groups on the 1-year effects of exercise on bone, as well as additional analyses on the effects of 2, 3, and 4 years of strength training and weight-bearing exercise on bone.
The purpose of this study is to determine the feasibility of implementing a 24-week at-home chair-based resistance band training intervention, to determine effectiveness of a the a 24-week at-home chair-based resistance band training intervention in improving body composition and to determine the effectiveness of a 24-week at-home chair-based resistance band training intervention in improving physical performance in adults 50 years and older, receiving care at the UT Physicians Center for Healthy Aging.
The primary objectives of this study are to: (1) determine the impact of glomerular disease on bone strength and (2) investigate the pathophysiologic underpinnings of impaired bone strength in glomerular disease.
The purpose of this study is to test whether active vitamin D (calcitriol) protects bones from weakening and protects blood vessels from calcium deposits over the first year of kidney transplantation.
The purpose of this randomized, double-blind, placebo-controlled study is to estimate the effect of oral ibandronate sodium (Boniva) taken once monthly versus placebo on bone quality and strength at the proximal femur at one year.
The main goal of the proposed study is to compare the effects of weight loss (WL) alone with WL plus weighted vest use or WL plus resistance exercise training (RT) on indicators of bone health and subsequent fracture risk.
The hypothesis of this study is that participation in the Retired and Senior Volunteer Program (RSVP) Bone Builders program 1 hour, twice per week, for 12 weeks may result in significant positive changes to the health status of older adult participants as demonstrated by increased leg strength and walking speed, improved balance and balance confidence, and enhanced life satisfaction. These improvements may lead to a reduction in risk of falls.
The purpose of this study is to validate the long-term benefit of denosumab for osteoporosis treatment in a real-world clinical practice setting. We hypothesize that continued therapy (36+months) with denosumab will increase both trabecular bone score (TBS) and femur strength index (FSI) and reduce fracture and other bone health risks among post-menopausal women with osteoporosis.
A physical training program will improve quality of life, participation in physical activity, motor coordination, muscle strength, and bone and muscle strength in children with neurofibromatosis type 1.
The Sharing Our Strength study is being conducted to help us understand people's experiences with hematopoietic stem cell transplantation and to test a new program designed to help people recover physically and emotionally after transplant.
This pilot study will determine the feasibility of implementing a combinatory rehabilitation strategy involving testosterone replacement therapy (TRT) with locomotor training (LT; walking on a treadmill with assistance and overground walking) in men with testosterone deficiency and walking dysfunction after incomplete or complete spinal cord injury. The investigators hypothesize that LT+TRT treatment will improve muscle size and bone mineral density in men with low T and ambulatory dysfunction after incomplete or complete SCI, along with muscle fundtion and walking recovery in men with T low and ambulatory dysfunction ater incomplete SCI.
Williams syndrome (WS) is a rare microdeletion genetic disorder that has a broad phenotype including many endocrine and metabolic abnormalities. Dr. Pober and colleagues at MGH have reported the following findings in adults with WS: abnormal body composition (excess body fat accumulation with a lipedema phenotype), decreased bone mineral density, abnormal glucose tolerance, and reduced lean mass. Despite the high prevalence and potential effect of metabolic abnormalities on the health of persons with WS, their full phenotypic range, potential causal factors (either genetic and/or hormonal) along with their impact on other aspects of health (such as risk of falls and fractures or interaction with emotional behavioral concerns) remain incompletely characterized. The purpose of the current study in a large cohort of subjects with WS is to: collect further information to characterize the timing of onset and distribution of body fat; better characterize hormonal status of WS subjects; and screen for genetic variation using single-nucleotide-polymorphism (SNP) analysis that could elucidate genetic contributors to the lipedema phenotype as well as the other observed metabolic and bone abnormalities.
Cerebral palsy (CP) is a neuromuscular disorder that affects approximately 800,000 individuals in the U.S. An estimated 70-80% of these individuals have spasticity which affects ambulation and requires management. Therefore, the treatment of spasticity is a primary goal of interventions for children with CP. One treatment widely used to reduce spasticity is Botox because of its ability to temporarily paralyze a muscle. However, no studies have determined the effect of Botox treatment on bone in humans. Also, a low magnitude vibration treatment has been shown to improve bone structure in the lower extremity bones of children with CP. The aims of this study are: 1) to determine the effect of Botox treatment in conjunction with a daily vibration treatment on bone mass and bone structure in children with spastic CP, and 2) to identify the mechanism that underlies the effect of Botox and vibration on bone.
The purpose of this study is to examine whether muscle strength and balance will improve in women with frailty selected for dehydroepiandrosterone sulfate (DHEAS) levels below 550 ng/dl treated with DHEAS supplementation and Hatha yoga. Investigators believe the effects of both treatments will improve outcomes more than either treatment alone and may be additive; in addition, lean body mass, skeletal muscle mass, markers of bone turnover and physical performance will improve following treatment with DHEA and/or yoga.
Women aged 50 and older are disproportionately affected by breast cancer, not only in terms of new diagnoses, but also in terms of survivorship. Approximately 85% of women who receive a first diagnosis of breast cancer are aged 50 and over, thus older women constitute the largest group of breast cancer survivors. Yet, few studies have focused on evaluating whether physical activity and exercise interventions affect long-term symptoms, physical fitness and function, and body composition of older breast cancer survivors. Due to the combined effects of breast cancer, related treatments and aging it is likely that exercise is even more beneficial for older breast cancer survivors than for younger survivors. Along with the cancer-related symptom of fatigue common to cancer survivors, older survivors face age-related declines in bone and muscle mass, muscle strength, bone health and physical function (gait and balance) that are likely exacerbated by reduced physical activity in survivorship and side effects of adjuvant cancer treatment. All women, regardless of age, are at risk for breast cancer recurrence. Recent epidemiologic evidence suggests a link between exercise and reduced risk of cancer recurrence in breast cancer survivors. Strength training is specifically suited to reverse or slow age-related declines in bone, muscle, strength and function and has shown promise to reduce cancer-related fatigue. However, no controlled trials of strength training in older breast cancer survivors have been conducted.
The purpose of the study is to evaluate bone mineral density and muscle strength in survivors of bone marrow transplant. Association with age, type of transplant, steroids, years since transplant, body composition, endocrinopathies, radiation, quality of life and physical activity will be explored.
Patients with Type 1 Diabetes Mellitus (T1DM) have a higher risk of low-trauma (osteoporotic) fracture that is 7-12 times higher than non-diabetics. The bone density of people with Type 1 Diabetes is higher at the time of fracture than in non-diabetics. This suggests the presence of underlying bone tissue mechanical defects. The potential benefits to participants would be knowledge gained about their bone density and the results of laboratory tests. On a wider scale, there may be general benefits to society because the knowledge gained from this study may help better understand the effects of diabetes on bone health
The goal of this clinical trial is to investigate the effects of a prebiotic and probiotic supplement on metabolic, cognitive, and muscle health in older adults. Participants in the study will be older adults who will receive a prebiotic and probiotic supplement containing different strains of Lactobacillus acidophilus, Bifidobacterium longum, Lactobacillus rhamnosus, and Lactobacillus gasseri. The study will collect data at baseline and after 3 months of supplementation to compare the effects on metabolic, cognitive, and muscle health. Additionally, genetic variants associated with vitamin D deficiency and muscle phenotypes will be identified in this population.