View clinical trials related to Oligometastatic Disease.
Filter by:The goal of this clinical trial is to evaluate single-fraction metastases-directed SBRT in the broader radiation oncology community and to compare its safety and efficacy profile with the current Standard of Care (SoC) of multiple-fraction SBRT in patients with oligometastatic disease of primary breast, prostate, NSCLC and colorectal cancer having all lesions that will be treated with radical radiotherapy amenable to single-fraction SBRT. The main question/hypothesis this clinical trial aims to answer is: - Single-fraction SBRT has comparable outcomes as those obtained with multiple fraction SBRT, both in terms of safety and efficacy. Patients from the OligoCare cohort will be randomized to receive either single-fraction SBRT or the current SoC of multiple-fraction SBRT.
PSMA-PET/CT or PSMA-PET/MRI are more accurate imaging modalities compared to CT/BS; in approximately 10-20% of high-risk patients diagnosed using conventional imaging PSMA-PET up-stages the disease. Therefore a substantial proportion of high-risk patients previously considered as non-metastatic are expected to be diagnosed with oligometastatic disease. While standard treatment pathways exist for patients with non-metastatic or oligometastatic disease confirmed using conventional imaging, less is known about the optimal management of patients with oligometastatic prostate cancer on PSMA-PET. Currently, data on the safety, effectiveness and oncologic outcomes of local therapies in oligometastatic patients diagnosed using PSMA-PET have been poorly reported so far. Thus, there is a need for a prospectively maintained database to collect real-world clinical data to produce high-quality research on the optimal management in oligometastatic prostate cancer who underwent PSMA-PET for primary staging and subsequent local therapy. This database will allow centers to retro- and prospectively collect data to facilitate analysis and assessment of the outcomes of oligometastatic patients managed with local therapy.
The prospective single-arm pilot study, ATHERO-RT: Real-Time Atherosclerosis Activity after Thoracic Radiotherapy using Sodium Fluoride Positron Emission Tomography, will aim to: 1. To deploy first-in-kind application of fluorine 18-sodium fluoride (18F-NaF) PET (Positron Emission Tomography) /MRI (Magnetic Resonance Imaging) imaging to detect real-time atherosclerosis activity at the time of cancer diagnosis and after cardiac radiation exposure 2. To detect longitudinal changes in clonal hematopoiesis (CH) genetic architecture following thoracic RT (Radiation Therapy) in patients at high risk of cardiac dysfunction, and 3. To measure perturbations in the immune-modulatory and metabolic states following thoracic RT (Radiation Therapy) exposure in patients at high risk of cardiac dysfunction. Eligible patients will be adults (≥18 years old) with Stage II-III or oligo-metastatic stage IV malignancy (any histology) at high risk for RT-associated cardiac toxicity (defined as receiving ≥30 Gy (Gray) RT where the heart is in the treatment field54). The study will enroll a total of 10 subjects, recruited from Cedars-Sinai Medical Center. The primary endpoint will be successful completion of 18F-NaF PET imaging at the baseline and 6-month post-RT time points. Blood will be collected at baseline, end of RT, and 6-months post-RT.
The ANALLISA study is a fast, proof-of-concept, phase II clinical trial which aims to assess the efficacy of niraparib rechallenge treatment after secondary cytoreductive surgery in ovarian cancer (OC) patients with oligometastatic progression (OMP) after first maintenance therapy with any PARP inhibitor. A total of 30 patients with OC and OMP will be enrolled and will receive treatment with niraparib 300 or 200 mg, according to body weight or platelet count. Patients will start treatment within 6 weeks after surgery and will receive it until progressive disease or treatment discontinuation. The main purpose of the study is to evaluate progression-free survival (PFS) of niraparib rechallenge in OC patients with OMP and no residual disease after secondary cytoreductive surgery.
This prospective observational study aims to investigate the effectiveness and safety of SBRT in the management of oligometastases from rare tumors. In addition, the study aims to identify potential differences in treatment efficacy and toxicity between different types of cancer and to provide valuable information on the use of SBRT in these contexts, potentially leading to better treatment options and outcomes for these patients.
Stereotactic Ablative Radiotherapy (SABR) is a modern RT technique that delivers high doses of radiation to small tumor targets using highly conformal techniques, while trying to avoid healthy tissues and organs. However, SABR treatment requires increased planning, treatment time, cost and potential for higher toxicity due to the higher dose. The purpose of this study is to compare single fraction (SF) SABR vs. multiple fraction (MF) SABR in regards to toxicities, progression-free survival, quality of life (QoL), and cost-effectiveness. In a subset of patients, we will also compare patient QoL, hospitalization rates, and cost-effectiveness between patients who complete QoL questionnaires, record symptoms and receive healthcare provider-guided intervention vs. patients who complete QoL questionnaires only.
A small number of colorectal cancer patients with limited oligometastases may be candidates for local treatment of metastases (e.g., resection, ablation). However, it is unclear if patients with more extensive metastatic disease benefit from local therapies to control visible metastasis. The purpose of this study is to assess the impact of stereotactic body radiation therapy (SBRT) in combination with systemic therapy compared to systemic therapy alone on safety and efficacy in patients with metastatic colorectal cancer (mCRC) and ≤10 metastases.