88 Clinical Trials for Various Conditions
The purpose of this study is to find out if one year of romosozumab (Evenity®), a monthly injection given in the arm under the skin, prior to an infusion of zoledronic acid Reclast®, works to treat bone loss and prevent it from worsening in older women (ages 65 and older) who have osteoporosis and reside in long-term care (LTC) facilities.
The objective of this study is to measure the early effects of abaloparatide on tissue-based bone formation using samples obtained by transiliac crest bone biopsy after quadruple fluorochrome labeling.
The aim of this clinical study using Bone UltraSonic Scanner (BUSS) is to obtain clinical data which will help to optimize the BUSS examination procedure and its diagnostic algorithms for assessment of bone conditions.
RATIONALE: Zoledronate may prevent bone loss in patients with prostate cancer undergoing radiation therapy and hormone therapy. It is not yet known whether zoledronate is more effective than calcium and vitamin D alone in preventing osteoporosis and bone fractures in patients with prostate cancer. PURPOSE: This randomized phase III trial is studying zoledronate to see how well it works compared to calcium and vitamin D alone in preventing osteoporosis and bone fractures in patients with locally advanced nonmetastatic prostate cancer undergoing radiation therapy and hormone therapy.
Dose and duration of bisphosphonate therapy will increase the likelihood that patients experience delayed healing of non-union fractures.
Osteoporotic fractures of the hip are a major cause of admission to long-term care facilities. Such fractures put patients at high risk for further fractures, pain and disability. Current data show that many patients in long-term care facilities do not receive FDA medications for their osteoporosis. This trial will test whether a multi-model intervention (which provides feedback about provider use of osteoporosis medications, information about osteoporosis, and currently approved osteoporosis medications)directed at physicians, other health care providers, and nurses will improve the number of prescriptions written for FDA approved medications for osteoporosis treatment.
This post-market surveillance research project consists of data collection at specified time points using standard questionnaire instruments to compare pain level, mobility and function pre and post procedure using the D-Fine StabiliT® Vertebral Augmentation System and StabiliT® Bone Cement, an FDA approved product used in the standard treatment of vertebral compression fractures.
The purpose of this study is to determine the effectiveness and safety of tapentadol immediate release (IR) as compared with placebo and oxycodone IR in patients with acute pain caused by vertebral compression fractures (VCF) associated with assumed osteoporosis for whom treatment with oral opioid analgesics is appropriate.
The purpose of the study is to determine if daily teriparatide reduces back pain more effectively than weekly risedronate in women with osteoporosis who have chronic back pain due to a spinal bone fracture.
Doctors are studying an investigational treatment to be used during the vertebroplasty procedure when treating vertebral compression fractures (spine fractures) that may help to reduce pain and restore mobility. If one has experienced back pain for at least 4 weeks but not longer than 1 year, he/she may be eligible to participate. The purpose of this protocol is to describe the methods for the clinical evaluation of Cortoss for vertebroplasty in patients with painful osteoporotic compression fractures. Eligible patients with painful osteoporotic compression fractures of the spine are divided into two groups. Each enrolled patient will have the vertebroplasty procedure; however one group of patients will have the vertebroplasty procedure using polymethylmethacrylate \[PMMA\] (a Food and Drug Administration \[FDA\]-approved bone cement) and the other group of patients will have the vertebroplasty procedure using a relatively new (investigational) biomaterial called Cortoss.
Vertebroplasty is a procedure used to stabilize broken vertebrae, the bones that form the spine. This study will evaluate the effectiveness of vertebroplasty for the treatment of fractures due to osteoporosis.
Osteoporosis has been called a "silent epidemic" whose prevalence is increasing. It often presents as a fragility fracture, with hospitalizations resulting from minimally traumatic hip fractures. While the fractures are treated appropriately, the underlying pathology is often ignored. Numerous studies have shown that prior fracture increases the risk for further fracture. In 2004 the Surgeon General released a report on osteoporosis, the details of which include multi-disciplinary treatment of osteoporotic fractures. Treatment of osteoporosis after hip fracture is also being targeted as a future hospital quality assessment measure. Hospitals which have no plan in place to address osteoporosis treatment after hip fracture may be cited, and may have medicare money withheld. The goal of the study is to create an automated in-patient endocrinology consultation for osteoporotic hip fractures. We plan to gather patient data in a prospective manner including the endocrinologist recommendations, adherence to medical therapy after discharge, and future fracture rates. Possible planned interventions include only appropriate medical therapy for osteoporosis, DEXA bone scanning, and regularly scheduled telephone follow-up.
This is an 18-month, double-blind, placebo-controlled, Phase III trial with a 12-month interim analysis of the effect of ALX1-11, recombinant human parathyroid hormone (1-84) (rhPTH \[1-84\]), on fracture incidence in women with postmenopausal osteoporosis, the TOP study.
The clinical trial is being conducted to evaluate the performance of the Crosstrees System in reducing pain and decreasing the risk of cement leakage associated with vertebroplasty and kyphoplasty.
Osteoporosis is a disease that weakens bones so the bones may break easily. The risk for osteoporosis increases with age in both women and men. Osteoporosis affects 10 million older adults in the US. Osteoporosis is a common cause of broken bones in the hips and legs. Broken bones can lead to disability, nursing home placement, and death. Because of the dire consequences, a broken hip or leg is one of the most dreaded injuries for older adults. Many studies confirm that a simple regimen of exercise, healthy diet and bone-strengthening medications can improve overall recovery after a broken hip or leg. This regimen can prevent a person from becoming disabled, having future fractures, and even prevent death. Many older adults have surgery in a hospital after breaking a hip or leg. Then older adults go to a skilled nursing facility (SNF) for rehabilitation. Care in SNFs varies greatly. Some patients do not receive the regimen that the investigators know is most beneficial to improve bone health and recovery. Even patients who get exercise, healthy diet, and bone-strengthening medication in the SNF, may not continue with the regimen once patients go home. Therefore, the investigators want to implement and test OsteoPorotic fracTure preventION System (OPTIONS). OPTIONS is a program that will integrate the regimen into the care that is provided in SNFs and after discharge to the community. OPTONS will provide information about exercise, diet, and bone-strengthening medication. OPTIONS will provide doctors, clinical staff, patients, and care partners with the information these stakeholders need to carry out the best-practice regimen. The investigators are partnering with PointClickCare, a large cloud-based healthcare software provider, with SNFs and community care sites across the US. The investigators will include 32 SNFs from different US areas. The investigators will flip a coin to assign SNFs to the intervention (OPTIONS) or the control arm (enhanced usual care) of the study. Enhanced usual care is the care that is typically provided in SNFs after a fracture and adding information about a publicly available fall prevention toolkit. The investigators are using an "implementation science" approach that requires the investigators to get input from the OPTIONS study's vast stakeholder community throughout the study. The OPTIONS study's stakeholders include patients, care partners, clinicians, and professional organizations. The research question is, can using OPTIONS in SNFs and in the community after discharge improve physical function and quality of life in older people in the year after a hip or leg fracture? The investigators are measuring patient-reported outcomes. The investigators will include 1553 patients across the 32 facilities. The investigators have selected outcomes that are important to patients. Specifically, the investigators are measuring patient-reported function and quality of life. The investigators are also measuring patient-reported falls and fractures. The investigators will track the number of patients who die during the study. This study's hypothesis is that patients who receive OPTIONS will report better physical function (i.e., can walk and take better care of themselves) than those who receive enhanced usual care. The investigators also hypothesize that patients that receive OPTIONS will report a better quality of life than those who receive enhanced usual care. This study will provide sound data about the effectiveness of OPTIONS. OPTIONS could then be spread to other SNFs and community-based programs. This would ensure that all older people receive the right care after a hip or leg fracture.
RESTORE tests whether Augmented-FLS, where patients are contacted by a patient navigator (serving as the liaison) and referred to a bone health provider, is better than Enhanced Usual Care, which includes patient and PCP education and activation. We also aim to determine the influence of age, race, ethnicity, sex, poverty level, geographic region, and timing of entry into the trial after a fracture on the effectiveness of the two strategies.
Lateral compression-1 (LC1) pelvic ring fragility fractures cause significant pain and morbidity. These fragility injuries are associated with prolonged immobility and long hospital stays. Currently there is no consensus on operative stabilization of LC1 pelvic fractures, nor are there evidence-based guidelines to aid in management of these injury types. Furthermore, there is variability in operative indications, improvement in pain and mobilization. The purpose of this study is to compare percutaneous screw fixation to non-operative management in symptomatic LC1 fragility fractures in elderly patients.
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.
To determine the safety and efficacy of concomitant sacral fracture fixation and sacroiliac (SI) joint fusion vs. non-surgical management for patients with debilitating sacral fragility or insufficiency fractures
Investigators are building an empirical evidence base for real world data through large-scale replication of randomized controlled trials. The investigators' goal is to understand for what types of clinical questions real world data analyses can be conducted with confidence and how to implement such studies.
Models of Osteoporosis Screening in Male Veterans aims to test 1 distinct care model of primary osteoporosis screening in men within the VA healthcare setting. All care models deliver VA recommended osteoporosis screening and treatment to high-risk Veterans by appropriate Durham VA clinical staff. The MOPS project will evaluate patient, provider and facility outcomes to determine the effectiveness of each intervention.
A 12-month study to compare the efficacy and safety of abaloparatide-solid microstructured transdermal system (sMTS) with abaloparatide-subcutaneous (SC).
The researchers are trying to compare the effectiveness of Vertebral Fracture Assessment (VFA) in addition to the current standard of care spine x-ray in evaluation pre-liver transplant patients.
The goal of this translational study is to establish a newly emerging CT-based tool for the characterization of changes in bone micro-architecture and assessment of their implications for fracture-risk in a population of COPD patients at risk for osteoporosis. The tool will be suitable and generalizable across emerging CT scanners from different vendors, and it will provide a more structurally-based assessment of osteoporosis and bone loss than is provided by simple bone density measures. The study will characterize the impact of different COPD-related factors on bone structure, and their implications for fracture-risk, leading to the development of a COPD-specific model for assessment of fracture-risk that will utilize patient-specific demographic, clinical and radiographic data, and CT BMD at the spine, as well as bone structural measures at the hip and/or ankle.
A 12-month study to measure the efficacy and safety of abaloparatide in men with osteoporosis.
Osteoporosis is a common disease among elderly people, which leads to an increased bone fracture risk. Bone fractures can greatly reduce quality of life and increase age-related problems including reduced life expectancy. In clinical practice, a bone mineral density (BMD) scan using dual-energy X-ray absorptiometry (DEXA) is used for diagnosing osteoporosis. However, DEXA does not always accurately predict who will develop fractures and who will not. This is because bone mineral density alone does not capture all of the factors that contribute to bone strength. One factor bone mineral density does not measure is trabecular microarchitecture of bone (structure of bone). Our goal in this study is to use a specialized CT scan called Dual-Energy CT (DECT) to capture information about the trabecular (spongy) bone in the vertebra of the lower (lumbar) spine. Research has shown that this kind of information helps in predicting bone strength in bone specimens. The investigator will use this information to develop a method to more accurately predict which patients are likely to experience fractures of the lumbar vertebra. These are the most common type of fractures associated with osteoporosis. The participant is being asked to participate in this research study because a physician is treating the participant for osteoporosis and the participant has met the initial criteria to participate in the study. Participation in this study involves having a DECT scan, as well as a DEXA scan if the participant has not had one recently (within two months). Research studies include only those individuals who choose to take part. Please take time to make a decision. Please ask the study doctor or the study staff to explain any words or information that are not understood. The participant may also want to discuss it with family members, friends or other health care providers.
The objective of this study is to determine whether a new minimally invasive method for in vivo measurement of cortical bone tissue properties can identify those who are at risk for fragility fractures of the hip and radius. The investigators hypothesis is that women with fragility fractures of the hip and radius have altered cortical bone tissue properties compared to non-fracture controls independent of standard clinical tests, such as bone mineral density (BMD) by dual-energy x-ray absorptiometry (DXA).
The purpose of this research study is to find out if denosumab (Prolia®), an injection given in the arm under the skin every 6 months, works to treat bone loss and prevent it from worsening in older men and women (ages 65 and older) who have osteoporosis and reside in long-term care (LTC) facilities.
The goal of this study is to perform the first fracture reduction clinical trial with a potent antiresorptive agent (intravenous zoledronic acid) in the most vulnerable long-term care population.
The goal of this study is to determine whether two new, non-X-ray techniques can discriminate between high-energy fractures of normal bone (trauma) and low-energy fractures (fragility) of osteoporotic bone. The current gold-standard for assessing fracture risk areal bone mineral density (aBMD) by dual energy X-ray absorptiometry (DXA) is not particularly effective at identifying individuals who are at risk of suffering a fracture. Yet, there is a growing population of diabetics and elderly individuals prone to fractures. In effect, the age-related and diabetes-related increase in fracture risk is independent of a person's aBMD. These findings stress the urgency in developing diagnostic tools that can improve fracture risk prediction so that patients can be treated with the appropriate anti-fracture therapies.