View clinical trials related to Bone Neoplasms.
Filter by:This study will explore the biologic activity of guanabenz in reducing bone turn over in solid tumor patients with bone metastasis. If successful, this repurposing of an already, generic drug could benefit patients faster than manufacturing a novel expensive compound.
This pilot clinical trial studies combined fluorine F 18 sodium fluoride (NaF)/ fludeoxyglucose F 18 (FDG) positron emission tomography (PET) and magnetic resonance imaging (MRI) in measuring response to a drug, radium Ra 223 dichloride (Ra-223), in treating patients with prostate cancer that has not responded to hormone therapy and has spread to other parts of the body. Combining NaF/FDG in a simultaneous PET/MRI scan may help doctors accurately measure how well patients respond to treatment with radium Ra 223 dichloride.
The clinical trial is a stage 3 study to determine the role of fentanyl transmucosal in the prevention of pain induced by mobilization in patients receiving a bone metastasis radiation for bone metastasis irradiations
Evaluation of patient reported outcomes (PRO) / QoL regarding typical ailments in real-life patients with bone metastases treated with osteoprotective agents.
This is a Phase 1b, multi-site, open-label, non-randomized clinical trial evaluating the safety, tolerability, and pharmacokinetics of escalating doses of olaparib and trabectedin in patients with unresectable advanced/metastatic sarcomas. Patients will continue to be treated on this combination regimen in the absence of disease progression, intolerable toxicity or patient's decision.
Literature has shown that hypofractionated radiotherapy regimens are efficacious in patients with complicated bone metastases and have a low potential for severe treatment-related toxicities. There is a clear need for hypofractionated schedules in the complicated bone metastases population, especially when considering the overarching aim of palliative radiotherapy and the clinical features of this patient population. As well, current research examining hypofractionated approaches in bone metastases patients with impending or pathologic fractures, neuropathic pain or accompanying soft tissue masses has been markedly scarce.
The purpose of the study is to investigate effectiveness of stereotactic body radiotherapy in patients with bone metastatic disease.
Bone metastases are frequent distant manifestations of cancer, with pain as a common and devastating consequence. The primary treatment for painful bone metastases, external beam radiation therapy, is moderately effective: about 60% of patients who undergo conventional radiotherapy experience (partial) pain relief. Several factors associated with treatment failure have been identified, but no attempts have been made to collapse these factors into a clinically useful prediction tool to predict treatment response. In addition, to aid in therapy selection based on expected survival time, development of survival models is essential. Finally, we need innovative treatments as alternatives or additive to standard treatment options to improve quality of life (QoL). For these reasons, we set up the PRESENT cohort study, recruiting patients at the departments of radiation oncology and orthopedic surgery. We aim to provide detailed information about clinical data, create an infrastructure for efficient, fast and pragmatic evaluation and implementation of innovative interventions, as well as development of accurate new prediction tools.
This clinical trial studies dual energy computed tomography (CT) in finding cancer that has spread from the original (primary) tumor to the bone (bone metastases) in patients with cancer. Diagnostic procedures, such as dual energy CT, may help find and diagnose bone metastases and may be more accurate compared to single energy CT alone.
This study is designed to characterize the effects of high energy radiation on bone breakdown, with a specific interest in reducing the rate of sacral fractures. Although radiation is very important in managing tumors, it is related to complications such as bone fractures. In this research study, the investigators are looking to determine changes in blood markers, bone density, and bone structure following radiation and to better understand the reason for these changes.