View clinical trials related to Neoplasm Metastasis.
Filter by:RATIONALE: Radiation therapy uses high-energy x-rays to damage tumor cells. AGuIX particles may increase the effectiveness of radiation therapy by making tumor cells more sensitive to radiation. PURPOSE: This first-in-man Phase I trial will study the side effects and best dose of AGuIX when injected together with whole brain radiation therapy in treating patients with multiple brain metastases. The effectiveness of the combination of AGuIX and radiation therapy will be also assessed.
Sarcoma which has spread to the lungs is most often treated with surgery. Even with surgery, most patients will not be cured and will die from their disease, probably because of small cancer cells that are present in the lungs at the time of surgery, but cannot be seen or detected. It is for this reason that we are looking for a better treatment. Giving chemotherapy after surgery is generally not recommended because it has significant side effects and no benefit has been proven. This study is investigating a new technique for delivering chemotherapy directly into the lungs at the time of surgery. Delivering chemotherapy directly to the lungs could potentially kill any microscopic cancer cells that are present in the lungs at the time of surgery, while sparing other major organs in the body from the side effects of chemotherapy. This technique is called In Vivo Lung Perfusion (IVLP). This is a Phase I, non-randomized, dose escalation study that will act as a pilot study for a larger prospective, multicenter, controlled clinical trial. Patients who have bilateral disease will have one lung undergo IVLP and the other lung will remain untreated with the IVLP (the other lung will be treated as current standard of care - either surgery or radiation) as a control lung. The patients will undergo a posterolateral thoracotomy. Lung metastases will be identified by visualization or palpation. After surgical isolation of the lung by proximal control of pulmonary artery and veins, IVLP will be initiated. After 3 hours of IVLP, the lung metastases will be removed in the usual fashion. Patients will be cared for post-surgery according to institutional standards. The patients will be followed for up to 2 years. The primary endpoint is safety. Secondary endpoints include additional safety endpoints and efficacy.
Mortality due to non small cell lung cancers is the first cause of cancer death in men around the world. Lung adenocarcinoma regularly induces bone metastases responsible for high morbidity and impaired life quality. Overall survival of these patients is poor. Thus the investigators aimed to identify if some bone and metabolic parameters were associated with overall survival. Patients and Methods POUMOS is a prospective cohort of patients suffering from adenocarcinoma lung cancers with a first bone metastasis (stage IV). All patients have a bone biopsy with molecular status characterization of the tumor for EGFR, KRAS, BRAF and ALK. Bone metastasis localizations are obtained by bone scintigraphy or FDG-PET/CT. Whole body composition is obtained by DEXA scan (Hologic®). The investigators assessed also fasting blood levels of bone and metabolic biomarkers. Survival analyses will be performed using a proportional hazard regression model.
Cancer patients with brain metastases (BM) have poor prognosis. Current treatments produce limited efficacy. Recent advance in cancer immunotherapy has provided important new means to treat cancer patients at advanced stages. This study is designed to perform a clinical trial to treat advanced caner patients with brain metastases with personalized dendritic cell-based cellular vaccines. The patients will receive vaccines consisting of mRNA tumor antigen pulsed DCs. Immune response to the immunized tumor antigens will be monitored. Safety and efficacy will be observed in this study.
Leptomeningeal metastasis (LM) is one of the disastrous events when managing advanced Non-small cell lung cancer (NSCLC) due to a grave prognosis. Although intrathecal (IT) chemotherapy and brain and/or spinal axis irradiation show some effects for LM in advanced NSCLC, the prognosis is still poor with median survival less than 12-14 weeks. Epidermal growth factor (EGFR) tyrosine kinase inhibitors (TKIs) showed to be effective for LM in selected NSCLC patients in some retrospective research. Our single-center prospective research indicated that the incidence of EGFR sensitive mutations (EGFRm+) in NSCLC-LM patients was high and EGFR-TKIs showed a survival benefit for LM in EGFRm+ NSCLC patients. A multi-center prospective observational biomarker study will be started in 11 lung cancer center based on our single-center prospective research result. The aims of the study are to find predictive biomarkers for LM in advanced NSCLC, to establish EGFR-TKIs based comprehensive treatment for appropriate EGFRm+ LM cases, and to establish effective clinical assessment criteria for NSCLC-LM EGFR-TKIs treatment.
Lymph node metastasis is one of the most common sites to develop disease recurrence or progression after initial local treatment for primary solid malignancies or systemic treatment for advanced metastases. No specific treatment modality has been established as the standard therapy. Systemic therapy is usually considered since lymphadenopathy is considered as a sign of disease dissemination though aggressive local treatment, including surgical lymphoadenectomy or radical radiotherapy might result in long-term survival in selected patients. The concept of stereotactic ablative radiotherapy (SABR), a high dose of radiation targeted to a pathological entity and delivered in a few fractions, has proven so successful at treating both benign and malignant lesions that it changed the paradigm for radiation therapy. The radiobiology of SABR has been shown to be very favorable for tumor control. Clinical experiences suggested that SABR might offer excellent in-field tumor control with low toxicity profile in selected patients, although the majority of reports are retrospective and include small patients series with heterogeneous tumor sites and dose-fractionation schedules. At present, there is lack of validated prognostic factors to identify the patients who might benefit most from ablative local therapy for metastatic lymph node(s). The mechanism of effect of SABR on the cancer lesions is not yet clear. Apart from its direct effect on clonogenic cancer cells, an immune-mediated process was also hypothesized. Therefore, the present study is aimed to provide a better understanding about utilization of SABR for metastatic lymph node(s). The associated translational researches will also advance our knowledge in the immune system reactions to SABR.
Available studies suggest that regional anesthesia-analgesia may decrease the occurrence of recurrence/metastasis in patients after cancer surgery. However, evidences from prospective studies are still lacking. The purpose of this randomized controlled trial is to investigate the effect of epidural anesthesia-analgesia on recurrence-free survival in patients undergoing lung cancer surgery.
This study will compare pain (primary end-point) and local metastatic tumor control (secondary end-point) after dose-intensified image-guided fractionated stereotactic body radiation therapy (SBRT) for painful mass-type spinal metastases versus conventional radiation therapy.
This phase 1 study was developed to identify recommended phase 2 doses (RP2Ds) of AR-42 and pazopanib when given in combination for subsequent clinical trials and may have potentially identified candidate pharmacodynamic and predictive biomarkers.
This first-in-human open-label, multicenter, dose-escalation and expansion study is designed to evaluate the safety, tolerability, and PK of tiragolumab alone or in combination with atezolizumab and/or other anti-cancer therapies in participants with locally advanced, recurrent, or metastatic incurable tumors for whom standard therapy does not exist, has proven to be ineffective or intolerable, or is considered inappropriate, or for whom a clinical trial of an investigational agent is a recognized standard of care.