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NCT07187518
Osteoporosis is a widespread medical condition among older people. It causes the bones to weaken and become more likely to break. Osteoporosis and bone fracture risk are currently evaluated by looking at clinical risk factors and measuring bone mineral density (BMD). The lower the BMD is, the higher the risk of osteoporotic fractures in the future. An X-ray device called DXA is the main tool used to diagnose osteoporosis and fracture risk clinically. DXA measures two-dimensional BMD in the hip and spine. However, DXA devices are often not readily available at the point of care. The POROUS ultrasound device offers a different approach by measuring various properties of the outer layer of the bone in the lower leg. It has several advantages over DXA: (1) higher and three-dimensional image resolution; (2) the ability to measure bone properties without radiation; (3) portability, it is a mobile medical device; 4) lower operational costs. For this clinical study, we will recruit men and women between the ages of 21 and 55. Most of these study participants will not have evident clinical risks for osteoporosis. The goal for including this age group is to estimate the range of BMD values for younger people before BMD declines with age. In a separate clinical study, we are recruiting older participants. The study is anticipated to last one year. Our major research questions are: * Can the POROUS ultrasound device estimate BMD? * How does its performance compare to DXA? * What is the safety of the new device? The participants will: * answer questions about their medical history. * be measured for height and weight. * be examined with the two devices, DXA and POROUS.
NCT00587925
Bone Mineral Density (BMD) as measured by X-ray shows the amount of calcium in the bone. Low BMD may reflect osteoporosis, a condition where there is an increased risk of fracture. Women who have gone through menopause have a higher risk of getting osteoporosis because they lose calcium from their bones much faster than younger women. Women with breast cancer may have an additional risk for getting osteoporosis because of the effects of their treatment with chemotherapy. The purpose of this study is to see what levels of BMD post-menopausal women with breast cancer have, and to see if the level of BMD changes during a women's treatment after her surgery. This trial studies changes in BMD and markers of bone activity in women receiving treatment for early stage breast cancer.
NCT01144377
The primary objectives of this study include evaluating the dose response of LY2541546 using bone mineral density (BMD) change from baseline as compared to placebo and evaluating the overall safety and tolerability of LY2541546 following multiple subcutaneous administrations in postmenopausal (PMP) women with low BMD. Following the last dose of study drug, participants will be able to participate in a 12 month extension to collect additional safety and efficacy data (no further treatment will be administered during this extension).
NCT01677637
Osteoporosis is the most common disease of bone and characterized firstly by low bone mass and secondly, impaired bone microarchitecture structure resulting in reduced strength and increased risk of fracture. Osteoporosis is divided into: primary (Postmenopausal Osteoporosis Osteoporosis \& elderly and senile osteoporosis) and secondary. The most common form is postmenopausal osteoporosis. It occurs in women after menopause and is associated with decreased estrogen production, which normally occurs at this age women Osteoporosis usually occurs after age 50, it is very common in women than in men, and its frequency increases with advancing age.
NCT05937945
Clinical trials for osteoporosis are designed to assess the safety and effectiveness of novel osteoporosis treatments. These trials play a crucial role in establishing whether these new treatments outperform existing options and provide substantial evidence to support their adoption within the wider population. The primary aim of this particular study is to investigate the experiences of individuals diagnosed with osteoporosis who participate in a distinct clinical trial involving a medical intervention. The focus will be on closely monitoring the rates of trial completion and withdrawal among these participants.
NCT00176579
RATIONALE: Measuring bone mineral density may help doctors predict whether prostate cancer will come back. It may also help the study of prostate cancer in the future. PURPOSE: This clinical trial is studying whether bone mineral density affects cancer recurrence in patients with early stage prostate cancer.
NCT06567054
Osteoporosis is a widespread medical condition among older people. It causes the bones to weaken and become more likely to break. Osteoporosis and bone fracture risk are currently evaluated by looking at clinical risk factors and measuring bone mineral density (BMD). The lower the BMD is, the higher the risk of osteoporotic fractures in the future. However, most bone fractures occur in people who do not have very low BMD values. This means that osteoporosis and fracture risk are often not diagnosed. Many of these non-diagnosed patients would benefit from treatment to reduce the probability of bone fractures. An X-ray device called DXA is the main tool used to diagnose osteoporosis and fracture risk clinically. DXA measures two-dimensional BMD in the hip and spine. The POROUS ultrasound device measures various properties of the outer layer of the bone in the lower leg. It has several advantages over DXA: (1) its image resolution is higher and three-dimensional; (2) it can detect bone changes without radiation; (3) it can detect these bone changes early and how they change over time. For this clinical study, we will recruit men and women over 55 years old. Most will have clinical risk factors, such as background diseases, for developing osteoporosis. The study is anticipated to last 4 years. Our major research questions are: * Can the POROUS ultrasound device predict fracture risk? * How does its performance compare to DXA? * What is the safety of the new device? The participants will: * answer questions about their medical history. * be measured for height and weight, and take a physical test. * be examined for the presence of 'silent' fractures in the spine. * be examined at the beginning and end of the study with the two devices, DXA and POROUS. * be called by telephone every six months and asked if they suffer from new bone fractures, take any medication that might affect their bones, or if their health status has changed. The participants will be monitored for 3 years.
NCT03901989
This study investigates the effect of zeolite on bone mineral metabolism. The clinical parameters include bone mineral density, bone remodelling markers, fractures and fallings, the subjective evaluation of the overall health status and intensity of the musculoskeletal pain measured by VAS.
NCT01935232
Osteoporosis is a disease that leads to impaired skeletal strength and increased fracture risk. Among 200 million osteoporotic patients (Tarantino, Cannata et al. 2007) most are diagnosed only after a fracture. We expect with our aging population to see a significant increase in the prevalence of osteoporosis. It is estimated that over 75% of osteoporotic patients are not diagnosed and do not receive treatment for their condition. This research plan describes a study for clinical validation of the novel ultrasound device (Bindex®, Bone Index Finland Ltd.). In a preliminary study, the technique has been validated in a Finnish postmenopausal woman population of 285 healthy and 56 osteoporotic subjects (n = 341 in total). Significant and good correlation was observed between Density Index (DI) determined with Bindex and femoral neck bone mineral density determined with DXA (r = 0.65 - 0.70). In addition, with determination of 90% sensitivity and specificity thresholds, significant number (65-75%) of patients could be diagnosed without additional verification with DXA. For validation of the technique in US population, our study plan is presented for determination of diagnostic thresholds for osteoporosis. Taken together, DI with Bindex, lumbar spine and femoral bone BMD with DXA are obtained from 500 postmenopausal women and 140 men. The study will be carried out at the HealthEast Osteoporosis Care service in Woodbury, MN. 1. To investigate the capability of DI for prediction of proximal femur and lumbar spine BMD; 2. To develop national diagnostic thresholds for DI in prediction of osteoporosis status with a reference population (American-Caucasian) of 500 (if prevalence of osteoporosis is 20%) post-menopausal females (50-90 years); 3. To investigate ability of Density Index + FRAX with BMI in fracture risk prediction; 4. To investigate correlation between lumbar spine or proximal femur BMD and Density Index in 140 men at wide age range (20-90 years), 70 with osteoporosis and 70 with normal or low bone mass. Determine diagnostic thresholds for DI in men.
NCT00533650
A study to asses the safety and efficacy of MK0429 in postmenopausal women with osteoporosis.
NCT03292146
This protocol is a randomized, double-blind, placebo-controlled clinical trial which aims to investigate the effect of denosumab on BMD in women with anorexia nervosa. The investigators hypothesize that 12 months of denosumab administration will result in an increase in bone mineral density, decrease in markers of bone resorption and improvement in bone microarchitecture in osteopenic women with anorexia nervosa compared with placebo. An optional extension study will offer subjects 12-month administration of open-label alendronate (an oral bisphosphonate) after the initial 12 month administration of denosumab or placebo. We hypothesize that 12 months of denosumab followed by 12 months of open-label alendronate will result in a greater increase in BMD compared to 12 months of placebo followed by 12 months of open-label alendronate. Within the group of women who receive sequential therapy with 12 months of denosumab followed by 12 months of alendronate, we hypothesize that BMD will be maintained between 12 and 24 months while on alendronate.
NCT02566655
The purpose of this study is to evaluate the safety of intravenous infusion of fucosylated autologous bone marrow cells as a new therapy in patients with established osteoporosis by a prospective, single-center, open, non-randomized and unblinded clinical trial.
NCT05387200
This study aims to prove non-inferiority of the efficacy of Masibone S (alendronate sodium trihydrate 70mg, oral solution) on the treatment of postmenopausal osteoporosis compared to the efficacy of Fosamax (alendronate sodium 70mg, oral tablet). The effect of Masibone S and Fosamax on bone mineral density in postmenopausal women with osteoporosis will be compared and analyzed. This study included a total 170 patients (85 per subgroup) for multi-center, randomized, open-label, parallel clinical trial. The drugs will be maintained for a total of 48 weeks. The primary endpoint is the difference of bone mineral density change at lumbar spine measured by DEXA between two groups.
NCT05151484
Osteoporosis affects 24.5% of women over 65 and results in fracture-related hospital admissions exceeding those of heart attacks, strokes and breast cancer combined. Current treatment options do not account for differences between age-related and estrogen deficiency related osteoporosis, because of the need for bone biopsies for determination. This study will establish a paradigm-shifting individualized treatment protocol for age-related osteoporosis and a non-invasive method for its determination, thereby reducing the major health problems and enormous burden on society and the elderly related to this disease.
NCT00277251
This trial will test the hypothesis that among 20 children and adolescents from Children's Hospital, Boston with Crohn's disease, ulcerative colitis, systemic-onset juvenile rheumatoid arthritis, juvenile dermatomyositis, systemic lupus erythematosus, mixed connective tissue disease and vasculitis, treatment of glucocorticoid-associated osteopenia and osteoporosis with 18 months of alendronate (FOSAMAX®, Merck \& Co., Inc.) will result in greater improvement in the mean change of individual AP spine bone mineral density (BMD) (gm/cm2) determined by dual energy X-ray absorptiometry (DXA) than treatment with 18 months of standard of care therapy.
NCT00433160
To evaluate the efficacy of teriparatide based on measurements of bone mineral density at lumbar spine
NCT02655055
A longitudinal, randomized, controlled, single-center Phase IV clinical trial will be performed to assess changes in bone mineral density (BMD) among voluntary apheresis blood donors. The primary outcome measure will be clinically significant decline in BMD at the lumbar spine assessed by dual-energy x-ray absorptiometry (DXA).
NCT05721898
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.
NCT02130973
This is a three-year study to evaluate the effect of sequential therapy of Forteo (teriparatide) and denosumab on bone density at the spine, hip, leg and forearm.
NCT00542425
The purpose of this study is to determine whether BA058 is effective in building bone in postmenopausal women with osteoporosis.