View clinical trials related to Neoplasm Metastasis.
Filter by:The aim of this study is to confirm in humans the relevance and the kinetics of radio-induced bio-markers in plasma and urines, previously described at the preclinical stage.
This is an open-label, non-randomized, single-center, phase Ib/II study, evaluating efficacy and feasibility of cytoreductive surgery(CRS), extensive peritoneal lavage, hyperthermic intraperitoneal chemotherapy(HIPEC) and post-operative intraperitoneal chemotherapy combination in gastric cancer with peritoneal metastasis
Indicated for the Treatment of Secondary Lymphedema Associated with the Treatment of Breast Cancer. Primary objective is to evaluate the safety and tolerability of a single dose of Lymfactin® in patients with secondary lymphedema associated with the treatment of breast cancer.
Although it is usually described as an immunosuppressive modality and not thought of as immunotherapy, there are new preclinical evidences suggesting that high-dose ionizing irradiation (IR) results in direct tumour cell death and augments tumour-specific immunity, which enhances tumour control both locally and distantly. Importantly, IR effects exceed the classical cytocidal properties by also causing phenotypic changes in the fraction of surviving cells, markedly enhancing their susceptibility to T cell-mediated elimination. However, not all IR-induced modifications of the tumour and its microenvironment favor immune rejection. The tumour microenvironment is populated by various types of inhibitory immune cells including Tregs, alternatively activated macrophages, and myeloid-derived suppression cells (MDSCs), which suppress T cell activation and promote tumour outgrowth. Chiang et al. showed the accumulation of pro-tumourigenic M2 macrophages in areas of hypoxia present in irradiated tumours. IR then may also induced responses that are inadequate to maintain antitumour immunity. Close interaction between IR, T cells, and the PD-L1/PD-1 axis exsit and provide a basis for the rational design of combination therapy with immune modulators and radiotherapy. Deng et al. demonstrate that PD-L1 was upregulated in the tumour microenvironment after IR. Moreover, administration of anti-PD-L1 enhanced the efficacy of IR through a cytotoxic T cell-dependent mechanism. Concomitant with IR-mediated tumour regression, IR and anti-PD-L1 synergistically reduced the local accumulation of tumour-infiltrating MDSCs, which suppress T cells and alter the tumour immune microenvironment. Finally, activation of cytotoxic T cells with combination therapy mediated the reduction of MDSCs in tumours through the cytotoxic actions of TNF. Sagiv-Barfi et al, also demonstrated in 5 patients receiving atezolizumab and radiation therapy, at least stabilization of systemic progression in all patients and a RECIST partial response at systemic sites in 1 patient. Transient, grade 1-2 inflammatory adverse events (fevers, flu-like symptoms) occurred with no serious immune-related toxicities. Abscopal out-field effects of irradiation has also been described in addition to a reduction in circulating MDSCs in a melanoma patient treated with the anti CTLA-4 ipilimumab and radiotherapy. Lastly, recent evidence demonstrates that loco-regional curative treatment with stereotactic ablative radiotherapy (SABR) is a good alternative as compared with conventional 3D RT for patients with solid tumour, with durable remissions and a low toxicity profile. Many non-randomised studies have shown that SBRT for oligometastases is safe and effective, with local control rates of about 80%. Importantly, these studies also suggest that the natural history of the disease is changing, with 2-5 year progression-free survival of about 20%. For colorectal, non-small cell, and renal cell cancers, 1-year metastasis control rates ranged from 67 to 91%. Moreover, abscopal responses in the setting of immune checkpoints inhibitors and radiotherapy combinations have been made in the setting of metastatic disease event in patients with extensive tumor burden. The goal of SABR is to deliver appropriate metastasis directed radiotherapy while minimizing exposure of surrounding normal tissues. Interestingly, the dose and fractionation employed modulate RT ability to synergize with immunotherapy. Vanpouille-Box et al, showed that immune response genes were differentially expressed in irradiated tumours by 8Gyx3 but not 20Gyx1. This highlight the interest of hypofractionated SABR acting as a "in situ tumour vaccine". As hypofractionated SABR may, in addition to its good local control, increase the effectiveness of anti PD-L1, investigators aimed to investigate the efficacy and the tolerability of the combination of anti-PD-L1 antibody with SABR.
Axillary lymph node status is a vital prognostic factors in breast cancer patients and provides crucial information for making treatment decisions.This projective observational study is planned to identify risk factors for axillary metastases in breast cancer patients with axillary ultrasound and to construct a nomogram to predict the risk of axillary metastases in these patients.
To establish a predicting system on axillary lymph node metastasis based on peripheral blood CK19mRNA and contrast-enhanced ultrasound.
Kypho-IORT is a novel approach to combine kyphoplasty, a minimally invasive procedure, with a single dose of intraoperative radiotherapy (IORT) for the treatment of unstable or potentially unstable spinal cord metastases. The primary objective is to evaluate the response rate of pain control when combining kyphoplasty, a minimally invasive procedure, with a single dose of intraoperative radio- therapy (IORT) for the treatment of spinal cord metastases. Secondary objectives are (i.) to determine feasibility for unstable or potential unstable spine metastases; (ii.) to determine tolerability/side effects of the IORT within 90 days post-procedure; (iii.) to determine which clinical factors are prognostic of vertebral compression fracture
Stereotactic radiosurgery (SRS) is increasingly administered as the sole treatment of brain metastases, in order to spare acute and long term side effects associated with whole brain radiotherapy. Local control of SRS treated lesions is good, but patients tend to develop additional brain metastases subsequently. Nivolumab is a modulator of the immune system. Treatment with Nivolumab is associated with an increase in local control and survival in patients with non-small cell lung cancer and clear cell renal cell carcinoma. In the presence of Nivolumab, treatment of brain metastases with SRS may trigger an immune reaction against cancer. Therefore, the combination of SRS with Nivolumab may reduce the development of new brain metastases and improve patient survival. The purpose of this study is to assess the effect of combining Nivolumab and SRS in controlling cancer progression. SRS will be administered to patients while they are receiving Nivolumab.
The success of anti-CTLA4 therapy has inaugurated a paradigm shift in oncology where drugs target the immune system rather than cancer cells in order to stimulate the anti-tumor immune response. In situ immunization is a strategy where immunomodulatory products such as pathogens are injected into one tumor site in order to trigger a systemic anti-tumor immune response. Of importance, pre-clinical rationale has demonstrated that combination of anti-CTLA4 therapy together with intra-tumoral (IT) oncolytic virus can overcome primary resistance to systemic anti-CTLA4 therapy. Pexastimogene Devacirepvec (Pexa-Vec) is one of the new vaccinia oncolytic viruses genetically modified to express GM-CSF. This new and innovative oncolytic virotherapy should therefore synergize with anti-CTLA4 therapy via virus-induced tumor cell death & tumor-antigen release, GM-CSF-induced recruitment/maturation/activation of antigen presenting cells, and anti-CTLA4-induced Treg blockade/depletion. Intra-tumoral delivery of immunostimulating agents should, therefore, provide lower toxicity of mAb targeting immune checkpoints. Of note, IT injections of GM-CSF-encoding oncolytic viruses have already been shown to induce immune-mediated tumor responses on local (injected) and distant (not injected) tumor sites. In solid injectable refractory/relapsing metastatic tumors, we make the hypothesis that the addition of Pexa-Vec to IT ipilimumab (anti-CTLA4 Ab) will overcome primary/secondary resistance to standard therapy and/or immunotherapy with a better in situ tumor antigen specific T-cell priming. Our proposal is to conduct a 2-part Phase I clinical trial in order to define the feasibility, the safety and the anti-tumor effects of intra-tumoral injections of ipilimumab in combination with the oncolytic virus Pexa-Vec. Dose escalation step will define the MTD and RP2D of that in situ immunization strategy. Expansion part will assess the anti-tumor effect of the combination.
Dabrafenib and trametinib are drugs that are usually given for the treatment of melanoma. Combinations of dabrafenib and trametinib have also been studied and when used together have shown to increase tumour shrinkage in animals compared to either drug alone. Dabrafenib and trametinib have also shown potential to penetrate the blood-brain-barrier when given together and have an effect on brain metastases. Giving these drugs at the same time and then giving brain stereotactic radiosurgery (SRS) may also be preferred in patients with brain metastases