View clinical trials related to Neoplastic Cells, Circulating.
Filter by:The purpose of this study is to evaluate the value of dynamic change in detecting CTCs in peripheral blood from stage III rectal cancer patients undergoing neoadjuvant Folfox treatment and chemoradiotherapy,before and after surgery.
The aim of this study is to quantify the spillage of tumor cells after biopsy in early lung cancer.
Acccording circulating tumor cells to compare the differences of different methods(routine method、no-touch principle method、laparoscopy method) to remove the ductal adenocarcinoma of pancreatic body and tail.
Head and neck squamous cell carcinomas (HNSCCs) are mainly caused by tobacco, alcohol consumption and betel nut chewing and the sixth most common cancer in the world. Despite significant advances in the treatment modalities involving surgery, radiotherapy, and concomitant chemoradiotherapy, the 5-year survival rate remained below 50% for the past 30 years. The worse prognosis of these cancers must certainly be linked to the fact that HNSCCs strongly influence the host immune system. During this process, mesenchymal tumor-like cells are highly mobile and enter quickly adjacent structure (intravasation), from where they travel through lymphatic and blood vessels as circulating tumor cells (CTC), which are single cells with malignant potential detected in the peripheral bloodstream and essential for establishing metastasis. Programmed death 1 (PD-1) and its ligand (PD-L1) play pivotal roles in regulating host immune responses. Substantial evidence has demonstrated that PD-L1 can deliver an inhibitory signal to PD-1 expressing T cells, leading to suppression of the immune response by inducing apoptosis, energy, unresponsiveness and functional exhaustion of T cells. However, the inhibitory effects of this pathway on the function of cytotoxic T lymphocytes, the main effector cells in HNSCC patients, are not well defined. In this study aims to solve two main problems: one is to improve and try to optimize current protocols of CTC isolations based on the investigator previous work, which is one of most challenging problems in CTC field to date; the other is to understand the status of immune system in HNSCC patients, especially focusing on PD-1-PD-L1 pathway and its expressions. After series basic experiments of immune cell analysis and conditional adjustment of CTC isolation protocols, the investigator are willing to isolate CTCs and immune cells at a single blood drawing at the same time. A prospective trial will be conducted to elucidate the roles of PD-1 expression lymphocytes and CTC numbers on the clinical outcomes of HNSCC patients.
Fifteen cohorts will be opened. Each cohort will explore one analysis method and/or tumoral type. Up to 50 patient can be included into each cohort.
The purpose of this study is to evaluate the number of circulating tumor cells (CTC) before and after treatment using an experimental method for detecting CTC, compared to commercial CTC assay results, in patients with prostate, breast or colorectal cancers. Experiments will be done to develop a new assay technique and also test how CTC react to commonly used drugs. This information will be analyzed to determine if the experimental assays can be helpful in the future to predict how a patient's cancer may react to certain treatments. The research experiments will also attempt to grow CTC for long-term or "immortal" cell lines that can be further studied for proteins and gene mutations related to the specific tumor (not familial), and testing for sensitivity to drugs. Blood samples will be collected at specific time points during routine medical care from patients with prostate, breast, colorectal or other solid tumor cancer. Samples will also be collected from patients with no cancer for comparison purposes. Samples for the experimental tests will be identified only by codes and results will not be shared with participants. Patients with prostate, breast or colorectal cancer will also have blood samples drawn for commercial CTC assays as part of their standard care.
In France, the incidence of head and neck squamous cell carcinomas (HNSCC) is 16 000 new cases/year. During these last years, many new chemotherapies and targeted therapies have been developed improving significantly the overall survival of patients notably anti-HER molecules. In inoperable recurrent and/or metastatic HNSCC, the best treatment is based on an anti-Human Epidermal Growth Factor Receptor (EGFR) antibody, targeting Human Epidermal Growth Factor Receptor 1 (HER1), the Cetuximab combined with platinum +/- 5 Fluoro Uracil (5FU): " Extreme protocol ". However, no clinical or biological criteria predictive of drug efficacy have been reported yet. Thus, the development of such a predictive factor is an urgent need in HNSCC at both the clinical and pharmacy-economic level, to propose the best personalized treatment. One idea would be to enumerate and characterize the circulating tumor cells (CTC) which could give us an early evaluation of the therapeutic efficiency. In this context, the investigators have developed an innovative technology, the EPISPOT assay (patent of the University Medical Center of Montpellier), that allows the detection & characterization of viable CTC in the peripheral blood. The EPISPOT technology has been already evaluated in the breast and prostate cancer.Thus, the investigators would like for the first time to perform a prospective study on a cohort of patients treated following the Extreme protocol, with this technology, to assess the predictive value of CTC count. The investigators will use the CellSearch® system as the reference test.
Histological proof is a crucial and necessary step for appropriate care in oncology. In the case of pancreatic cancer, histological proof from pathological analysis of the surgical specimen is very rare due to the limited number (15-20 %) of localized tumor accessible to surgical resection. In most cases, invasive endoscopic explorations are necessary for histological diagnosis before deciding of the most appropriate treatment (palliative chemotherapy or radiochemotherapy). The endoscopic ultrasound with fine needle aspiration (EUS-FNA) is currently considered as the first-line endoscopic procedure for the cytological diagnosis of solid pancreatic tumors. The technique is performed under general anesthesia with sensitivity for the diagnosis of adenocarcinoma of 80% in case of a single procedure and 92% in situations where three different procedures are required. EUS-FNA has to be performed by a physician properly trained for this type of interventional endoscopy. Some severe complications may occur but are relatively rare in expert centers (bleeding, perforation, complications of general anesthesia ...). Diagnostic alternative approach is biological with research in the peripheral blood of markers of tumor disease. It is possible to detect indirect markers which are molecules produced by tumor tissue (eg CA19.9) and direct markers which reflect the presence of tumor biological material (circulating tumor cells (CTCs) or circulating tumor DNA). The value of detection of CTCs is not determined for the diagnostic and therapeutic management of pancreatic cancer. Indeed, no study has evaluated the diagnosis performance of circulating markers with EUS-FNA, the reference method for the diagnosis of unresectable forms.
This study will evaluate a method to detect tumor cells that are circulating in the blood without getting a biopsy. The investigators already know from other studies that cancer tumors shed a small number of cells into the bloodstream every day. These are called circulating tumor cells (CTCs). Some early studies indicate the amount and type of CTCs in the blood can help determine the status of the tumor itself and the way it is responding to treatment. In this study, the investigators will compare the number of CTCs in the blood at different time frames before and after surgery to remove the prostate.
To explore the clinical value of circulating tumor cells (CTCs) measurement for Hepatocellular carcinoma (HCC) patients.