View clinical trials related to Neoplastic Cells, Circulating.
Filter by: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 prostatic 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 prostatic 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.
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 colorectal 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 colorectal 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.
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 breast 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 breast 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.
The purpose of this study is to investigate the level of Circulating Tumor Cells (CTCs) in cancer patients before and after undergoing treatment regimens where the primary treatment modality is radiation therapy (XRT). Specifically, there is interest in the change in CTCs pre- and post- XRT, both in absolute and relative terms.
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.
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 liver 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 liver 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.
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 lung 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 lung 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.
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 pancreatic 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, We wanted to demonstrate the value of multiparameter flow cytometry in detecting human tumor cells of pancreatic cancer in normal peripheral blood after cryosurgery with or without dendritic cell(DC)-cytokine-induced killers(CIK) treatment, and we also compared the specificity with reverse transcriptase polymerase chain reaction (RT-PCR) method.
The primary objective of this study is to determine whether circulating tumor cells (CTCs) can be used as a non-invasive means of confirming pathologic diagnosis in early-stage (Stage I) non-small cell lung cancer (NSCLC). Patients scheduled to undergo surgical intervention will have blood samples obtained to test for CTCs. Presence of CTCs will be compared to final pathologic diagnosis based on surgical specimens to assess the sensitivity of using CTCs alone to make a definitive diagnosis.
Patients eligibility to targeted therapies relies on a molecular test performed on a tumor sample collected by biopsy. This invasive procedure is associated with a relative high risk of morbidity and requires the intervention of a costly and important technical platform. Thus, inoperable patients can be deprived from potentially more efficient therapies. A "liquid biopsy" of Circulating Tumor Cells (CTCs) present in the blood and their molecular characterization is an appealing alternative to meet an urgent need for these patients. Moreover no CTC-based molecular test is currently routinely available. The 5-year survival rate of patients with non-small cell lung carcinoma (NSCLC) is low. Recent reports demonstrated that the detection of an ALK rearrangement in the tumor tissue allows patients with late-stages NSCLC to benefit from crizotinib treatment. However, 1) the detection of an ALK rearrangement is currently performed on small biopsies or fine-needle aspirates and can be hindered by the limited tissue quantities available. Tumor tissue is difficult to obtain in patients with advanced/metastatic lung cancer for whom surgery is rarely a component of treatment. Finding alternative and more effective means of diagnosing an ALK rearrangement are critical issues for identifying patients who may benefit from treatment with crizotinib; 2) some patients develop resistance to crizotinib due to de novo ALK mutations. In this setting, circulating tumor cells (CTCs), which have been shown to be detectable by ISET (Isolation by Size of Epithelial Tumor Cells) method in 80% to 100 % of late stages lung cancer patients represent a non-invasive and easily accessible source of tumor material for assessing ALK rearrangement and escaping mutations in a kinetic manner. The ISET method was first published in 2000 and several independent teams have now established its high sensitivity and specificity of ISET for NSCLC. With ISET, specificity can be achieved using the same methods and criteria used by cytopathologists to diagnose solid tumors. The high sensitivity and specificity of ISET are two essential starting points for the feasibility of this present project. Low-throughput molecular characterization of CTCs isolated by ISET has also been achieved. The remaining challenge consists in developing high-throughput ISET-based molecular tests for personalized medicine that are transferable to the clinics. The Team 1 at the CHU de Nice and the Team 2 at the Gustave Roussy Institute have demonstrated that the detection of an ALK rearrangement in CTC isolated by ISET is feasible and consistent with results obtained in corresponding tumor tissues. In this context, the aim of this project is to obtain 1) a definitive prospective clinical validation of the use of CTC as an alternative to tumor tissue for ALK analysis-based patients stratification; 2) a proof that escaping mutations can be detected early by kinetic analysis of CTC in patients treated by crizotinib. ALK rearrangement will be prospectively investigated in CTCs isolated by ISET at diagnosis and during follow up from patients with stage IIIb/IV lung cancer and de novo mutations will be searched in patients with resistance to crizotinib. This study will provide both clinical and economic benefit to targeted treatment of patients with advanced lung cancer. This project is strongly original as no CTC-based ALK rearrangement test has been independently validated up to now with clinical samples. The development of non-invasive theranostic test through the genetic analysis of CTCs is a clinically relevant goal for non-invasive stratification of cancer patients, avoiding morbidity related to lung biopsy and surgery. It would allow determining patient's eligibility to targeted therapies on a blood sample analysis. CTC-based ALK test could be useful to guide the choice of ALK targeted therapy in patients with lung cancer. Furthermore, developing biomarkers based on CTCs analysis would open the way to the non-invasive follow up of aggressive cancers, early detection of mutations associated with resistance to targeted therapies and tailoring treatment to a real time analysis of the evolving tumor cell populations. This test is expected to markedly improve patients' quality of life avoiding invasive diagnostic procedures.