View clinical trials related to Bone Metastases.
Filter by:Radium-223 is the 5th treatment for metastasized castration resistant prostate cancer with a proven overall survival benefit. The improved survival of Radium-223 over placebo was demonstrated in the ALSYMPCA trial, which included a miscellaneous patient population both docetaxel pretreated and non-pretreated. This registry aims to describe non-study patients treated with Radium-223 and prospectively evaluate treatment outcomes of patients with and without docetaxel pretreatment. Analgesic use and patient reported pain scores, efficacy of the subsequent therapy and overall survival will be evaluated. Moreover, clinical and explorative serum and blood biomarkers of Radium-223 efficacy will be explored.
To provide treatment guidelines for patients with long bone metastatic disease based on observational study and to propose an algorithm to guide orthopedic surgeons in decision-making for these patient.
The number of metastases in a patient with primary or recurrent prostate cancer has major prognostic implication. The purpose is to compare, in a pilot study, the diagnostic performance of 18F-NaF-PET/MR with respect to the results of the scintigraphy 99mTc-MDP-SPECT/CT (routine exam) for determining the presence or absence of bone lesions in prostate cancer patient, with up to five metastases (oligo-bone metastatic) based on scintigraphy 99mTc-MDP-SPECT/CT. The gold standard will be a combination of clinical follow-up, additional imaging and biopsy, as indicated by the multidisciplinary discussion at the tumor board. The findings from whole-body 99mTc-MDP-SPECT/CT, 18F-NaF-PET/MR, and the combination of the 2 modalities will be categorized by 2 teams of 2 readers as benign or probably benign, equivocal, or malignant or probably malignant and compared with the results of follow-up for JAFROC and ROC analysis.
A phase1 study to demonstrate [68Ga]P15-041 binding to bone metastases in prostate cancer and determination of human dosimetry.
Patients having radiotherapy to their head and neck wear an immobilisation shell to prevent patient movement and improve treatment accuracy. These shells tend to cover the face and have the potential to cause anxiety and distress in patients, particularly if they suffer with claustrophobia or a similar fear. The study will use an 'open-face' shell that does not cover the face and compare this with the investigators' current 'closed-face' shell. The investigators will obtain treatment verification x-ray images to assess the daily set-up errors and compare these between the two shell type, and ask both patients and radiographers of their experiences from using the shells. Hypothesis: Open-face immobilisation shells offer equivalent accuracy and efficiency of radiotherapy delivery and are better accepted by patients and radiographers as compared to closed-face immobilisation shells for cranial radiotherapy.
This study will evaluate the efficacy of cryoablation for palliation of painful metastases in participants with metastatic lesions involving bone who have failed, are not candidates for, or are not experiencing adequate pain relief from current pain therapies (for example, radiation, analgesics).
Evaluation of patient reported outcomes (PRO) / QoL regarding typical ailments in real-life patients with bone metastases treated with osteoprotective agents.
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.
This study will examine biomarkers involved in osteomimicry in bone metastases and circulating tumor cells (CTCs) of men with mCRPC before and during therapy with the bone-targeting radiopharmaceutical radium-223. This study will also examine the bio-distribution of radium-223 in bone and bone metastases of men with mCRPC. The investigators hypothesize that bone metastases and CTCs in men with mCRPC will commonly express markers of EMT/plasticity and osteomimicry, not just in the normal surrounding osteoblastic stroma but in the epithelial tumor cells themselves and that radium-223 will target both of these compartments including the more mesenchymal/osteoblastic tumor cells and the surrounding osteoblasts in the active bone microenvironment, with a relative sparing of normal bone and bone marrow.