View clinical trials related to Neoplastic Cells, Circulating.
Filter by:The purpose of this study is to isolate and measure circulating tumor cells in the blood stream to advance detection of cancer and treatment monitoring. In this study, the investigators will utilize the novel technology for circulating tumor cell detection in order to evaluate their presence in patients with lung cancer.
Very few factors may be identified as prognostic for patients with bladder cancer undergoing radical cystectomy. Recently, detection of circulating tumor cells has shown to be very promising in anticipating both the likelyhood of distant metastases and survival in patients with breast cancer, melanoma, prostate cancer and other malignancies. In the present study we both tested the detection rate of circulating tumor cells using a PCR based methodology in the peripheral blood of patients undergoing radical cystectomy, and we further correlated our results with their clinical outcome.
Proportion of circulating tumor cells (CTC) in the postoperative phase after curative tumor removal of pancreatic cancer will be determined and correlated to the accordance of anesthesia (desflurane versus propofol)
Purposes are to determine whether various cohorts of bladder cancer patients have detectable tCTC's, determine it tCTC levels vary with the natural history of bladder cancer and to see if tCTC's provide novel information.Study population are various cohorts of patients diangosed with urothelial carcinoma of the bladder.Procedures include a venous blood draw, up to two times, over a 6 month period for collection of tCTC's. Up to 15 mL's of blood will be collected at each blood draw.
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.
It is hypothesized that circulating tumor cells (CTCs) from pancreatic adenocarcinoma are released into the peritoneal cavity through blood lost during the surgical resection of these tumors resulting in peritoneal recurrence despite appropriate surgical resection. Targeting the mechanisms responsible for CTC adhesion to the peritoneum may result in inhibition of implantation and growth, thus preventing this mode of pancreatic cancer recurrence postoperatively.
CTC levels collected pre-surgery will be correlated with pathological samples.
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.
This pilot study will aim to determine whether circulating tumor cells (CTCs) can be captured using the novel cMET based ferrofluid. The primary objective of this pilot study will be to describe the numbers of c-MET expressing cells that can be detected by the c-MET CTC capture technique. These data will be separated by disease site. The investigator will also describe the detection rates of both the c-MET CTC capture and the EpCAM CTC capture techniques in each patient, also separated by disease site.