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.
This clinical trial is for men with advanced prostate cancer that may have spread to other parts of the body. Currently, once prostate cancer cells have spread from the prostate to other organs it is not treatable by surgery. The purpose of this study is to treat patients with an experimental antibody (i.e. that has not been FDA approved) called J591 that attaches itself to a special protein on cancer cells called PSMA to try to eliminate these cancer cells (called circulating tumor cells) from the circulation. In the initial phase of the study, 6 participants will receive the experimental J591 treatment. Routine blood tests, research blood tests, physical exam will be performed at each visit. Participants will also be asked to complete a questionnaire about how they are feeling. Participants will have a radiographic scan every 3 months to check the status of their disease. Participants who tolerate the treatment well may be re-treated at the same level every 3 months, and may continue on treatment as long as they are responding to therapy and not experiencing unacceptable side effects.
This pilot clinical trial studies the impact of radical cystectomy (surgery) on the expulsion (release) of circulating tumor cells into the blood stream in patients with bladder cancer. Significant surgery such as radical cystectomy may cause the expulsion of tumor cells. Studying the release of tumor cells into the circulation may help doctors understand the impact that radical cystectomy has on tumor metastasis and/or tumor recurrence.
The aim of this study is to quantify the spillage of tumor cells after biopsy in early lung cancer.
A circulating tumor cell (CTC) count is an established prognostic factor in some malignancies such as metastatic breast cancer. However, the value of CTC in diagnosis and outcome prediction of metastatic nasopharyngeal carcinoma (mNPC) patients is not unknown. Through the observational prospective clinical trial, sensitivity, specificity, positive and negative predictive values of CTC in diagnosis of mNPC patients will be gained. Further, the value of CTC in outcome prediction of mNPC patients will be uncovered.
This trial is intended to evaluate the value of circulating tumor cells (CTC), in combination with unenhanced (without injection of contrast media) low dose (to limit the effective radiation dose below 1,5 mSv) chest computed tomography (LDCT) in the screening of Lung cancer (LC). LDCT screening was shown to reduce LC mortality in smokers and ex-smokers, older than 55 years, with a history of more than 30 pack-years. LDCT however shows a close to 30% rate of false positive that require repeat follow-up and also invasive investigations, but also false negatives with metastatic LC being discovered between screening rounds. Migration of circulating tumor cells (CTC) is an early event of carcinogenesis and characterizes aggressive cancers. We recently showed that CTC can be detected with the ISET technique in a population at high risk for LC, i.e. COPD patients before LC was detectable on LDCT. The study will focus on patients at very high risk for lung cancer i.e. smokers and ex-smokers suffering Chronic Obstructive Pulmonary Disease (COPD). The study will enroll 600 participants who will undergo three rounds of screening at one year intervals, each round combining search for CTC on a blood sample and LDCT. Each participant will be followed for at least one year after the last screening round
Circulating tumor cells (CTCs) have prognostic value in several tumor types, and increasing evidence suggests that molecular characterization of CTCs can serve as a "liquid biopsy" to understand and address treatment resistance. The goal of this proposal is to demonstrate that CTCs can be accurately enumerated and characterized in metastatic clear cell renal cancer (CCRC) and can serve as prognostic/predictive biomarkers to improve treatment. The challenge surrounding CTC analysis in CCRC is that most CTC technologies (including the clinical gold-standard CellSearch®) depend in epithelial markers such as EpCAM that are expressed at low or heterogeneous levels in CCRC. Members of the research team have developed a novel CTC microfluidic technology that can effectively detect CTCs that are completely undetectable by CellSearch® because of very low EpCAM expression, as well as allowing for CTC recovery for downstream molecular characterization. The goal of this proposal is therefore to test the hypotheses that (1) The microfluidics CTC technology will have better sensitivity/specificity relative to the CellSearch in metastatic CCRC; and (2) Enumeration of CTCs in metastatic CCRC patients (n=66) will have prognostic value, while molecular characterization of CTCs for expression of biomarkers (VHL, VEGF, mTOR, HIF1/HIF2, AKT) related to CCRC etiology will be predictive of response/resistance to targeted therapies. Although CCRC is relatively uncommon, the lack of established adjuvant treatments and high cost of targeted therapies in the palliative setting makes the search for new prognostic/predictive biomarkers an important clinical goal.
Obesity, known to be associated with a pro-inflammatory, pro-thrombotic humoral milieu, confers a worse prognosis in prostate cancer (PrCa). Circulating tumour cells (CTCs) are identified in the blood in advanced cancer. Their quantitation provides prognostic information. "Cloaking" of CTCs by adherent platelets impedes natural killer (NK)-cell clearance of CTCs from the circulation, enhancing metastatic spread. NK-cell function in blood and in solid organs is quantitatively and qualitatively reduced in obesity. Platelet cloaking may be enhanced in obesity due to the pro-inflammatory, pro-thrombotic state, and may be a mechanism for worse cancer-specific outcomes in this group. Obesity and its biochemical effects may be influenced by lifestyle changes such as exercise. Physical activity reduces levels of systemic inflammatory mediators and so an aerobic exercise intervention may represent an accessible and cost-effective means of ameliorating the pro-inflammatory effects of obesity. The ExPeCT trial will determine if a prescribed exercise intervention can ameliorate the degree of platelet cloaking in obese and non-obese men with advanced prostate 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.
Circulating tumor cells (CTCs) have the potential to provide a surrogate for'real-time biopsy' of tumor biological activity. Enumeration and molecular characterization of CTCs in renal cancer could play an important role in diagnosis, predicting the risk for tumor recurrence, and providing novel target therapy biomarkers. In view of these facts, the investigators wanted to demonstrate the value of multiparameter flow cytometry in detecting human tumor cells of renal cancer in normal peripheral blood after cryosurgery with or without dendritic cell(DC)-cytokine-induced killers(CIK) treatment, and the investigators also compared the specificity with reverse transcriptase polymerase chain reaction (RT-PCR) method.