Active clinical trials for "Neoplastic Cells, Circulating"

The purpose of this pilot study is to evaluate the addition of carvedilol with standard of care treatment to determine if it will improve progression-free survival in the front line setting in patients with glioblastoma multiforme (GBM). In addition, monitoring of circulating tumor cells (CTCs) by a real-time reverse transcriptase polymerase chain reaction (qRT-PCR) assay to correlate with the clinical findings.

The investigators have developed an assay that can sensitively and specifically detect DNA mutations circulating in human plasma that may be indicators of the presence of a solid tumor. This study is a pilot study to measure positive and negative predictive values of this assay as an indicator of the presence of a tumor in normal subjects

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.

Circulating tumour cell (CTC) count could reflect the effect of postoperative transarterial chemoembolization (TACE) on hepatocellular carcinoma (HCC) recurrence.

Multiple lines of evidence have shown that perioperative opioids requirement was associated with poor outcomes in cancer patients, including increased cancer progression and metastases and reduced survival in patients with lung, breast, prostate, and bladder cancer. Circulating tumor cells (CTCs) have been validated as prognostic biomarkers of a number of cancers. The aim of this study is to investigate the effects of perioperative opioids on the number of CTCs in patients receiving robot-assisted laparoscopic radical cystectomy. The difference of the amounts of perioperative opioids is achieved by using general anesthesia combined with intravenous opioid-based analgesia intra- and post-operatively in one group and general analgesia combined with epidural ropivacaine-based analgesia in the other group.

TITLE : Circulating tumor cells identification in advanced stage non-small cell lung cancer (CIRCUBRONCH) BACKGROUND : Circulating tumor cells identification is a new field of research in oncology, and some studies have been conducted with success on breast and prostate cancer. Nearly 80% of lung cancers are diagnosed in an advanced stage (IIIB, and IV). Circulating tumor cells identification and monitoring these cells after treatment could help the clinicians to detect relapse or be a prognostic factor. PRIMARY OBJECTIVE : Circulating tumor cells identification, and monitoring in advanced stage lung cancers (IIIB and IV). SECONDARY OBJECTIVES : Predictive value of the monitoring of circulating tumor cells on the therapeutic response. Prognostic value of identification of circulating tumor cells at the time of diagnosis. STUDY DESIGN : This study is a prospective, monocentrique trial analyzing the identification of circulating tumor cells in stage IIIB, and IV non-small cell lung cancers. Duration of the inclusions: 54 months. Duration of the study: 66 months. PROCEDURES : Detection of circulating tumor cells with CellSearch system (Veridex), and a cut-off of 5 cells/7,5 ml of blood. SAMPLE SIZE : 200 patients STATISTICAL ANALYSIS : Detection of circulating tumor cells is predicted in 20% of stage IIIB, and IV non-small cell lung cancers included in this study. The cut-off is 5 circulating tumor cells per 7,5 ml of blood.

This study enrolling patients with metastatic colorectal cancer. Detecting CTC at different points in the treatment process. Descripting the molecular atlas of CTC in mCRC patients. Building and validating a response prediction system of mCTC patients.

Early non-small cell lung cancer (NSCLC), treated by surgery or radiotherapy in the case of inoperability, relapses in almost 50% of cases. Circulating tumour cells (CTCs), which can be detected before surgery, represent a promising prognostic tool, but the markers characterising their aggressiveness remain to be determined. The NSCLC microenvironment, in which purinergic signalling is a key pathway, controls tumour development. Adenosine derived from the action of CD39 and CD73 ectonucleotidases hydrolysing extracellular ATP, induces immunosuppression of NSCLC by activating A2R receptors. The expression and prognostic relevance of A2R, CD39 and CD73 on CTCs is unknown. The objectives are to (i) compare the expression of A2R and CD39 and CD73 on primary tumour cells and CTCs of patients operated on for early NSCLC, (ii) correlate these data with molecular characteristics and clinical response, (iii) determine on lung cancer lines whether irradiation impacts on the expression of A2R, CD39 and CD73. This work could contribute to the identification of new theranostic biomarkers.

Detecting circulating tumor cells from I-IV stage colorectal cancer patients pre-and post-operatively. Analyzing the morphology and biomarkers of CTCs and builting prognosis predicting model based on the morphology and biomarkers of CTCs. Verifying the prognosis model by the survival data.

Treatment of metastatic colorectal cancer needs chemotherapy in most of the cases. During these last years, many new chemotherapies and targeted therapies have been developed improving significantly the overall survival of patients. However, the choice of the therapeutic sequences becomes difficult due to the lack of validated predictive biomarkers of their efficiency. Indeed, only the mutation of the k-ras oncogene is a predictive factor of non-efficacy of the anti-EGFR antibodies. It is thus crucial to identify new biomarkers to propose the best personalized 1rst line therapeutic sequence. One idea would be to enumerate and characterize the circulating tumor cells (CTC) which, as it has been described in a recent study realized by Cohen et al. in patients with metastatic colorectal cancer, would 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 to perform a prospective study on a cohort of patients with metastatic colorectal cancer to confirm, with this technology, the predictive value of CTC count for the efficacy of the treatment.