Active clinical trials for "Neoplastic Cells, Circulating"

This is a prospective interventional single-site research with a collection of biological samples. The primary objective of the trial is to assess the ability of the "new technology" to isolating circulating tumor cells (CTC) in selected cancer patients. Five groups will be constitued: at first the Group 0: Healthy volunteers included for the spike-in test; and then the four groups, Group1: Metastatic HER2-positive breast cancer; Group 2: Advanced CA-125 positive ovarian cancer; Group 3: Metastatic PSA-positive castrate-resistant prostate cancer; Group 4: Healthy volunteers included as control). In each group, the percentage of cases with identified circulating tumor cells will be estimated.

Tobacco smoke is the most common source of exposure to carcinogens in humans. Indeed, the smoke contains about 1010 particles per ml and 4800 chemical compounds, at least 66 are carcinogenic. Tobacco smoke is the leading preventable cause of cancer in humans since it is responsible for lung cancer, upper aerodigestive tract (mouth, pharynx, larynx, esophagus), nasal cavity and sinuses, stomach, pancreas, liver, bladder, kidney, uterine cervix, and some myeloid leukemias. This study aims to evaluate the combined effect of the scanner and the search for circulating tumor cells (CTC) on screening for tobacco-related cancers, accompanying smokers to cessation and addressing the psychological impact this approach.

In a prospective study, the influence of adjuvant radiotherapy in patients with non-metastatic breast carcinoma on the epithelial tumor cells (CETCs) circulating in the blood and their immunohistochemical characteristics depending on age will be investigated. In addition to a histopathological assignment of the CETCs as cells of the primary tumor, major trigger points of the immune system will be exploratively analyzed. For this purpose, blood samples are taken from the patients at different time points after tumor resection and during adjuvant radiotherapy. In addition to the detection, isolation and genetic characterization of the CETCs, the determination of immunological biomarkers by immunophenotyping, among other methods, is planned. Furthermore, analyses of tissue from the primary tumor with respect to immunohistochemical features as well as tumor-infiltrating lymphocytes (TILs) are planned. The results will be classified and correlated especially with regard to patient age. As there are insufficient data available for breast carcinoma regarding radiotherapeutic effects on the immune system depending on patient age, it is of great interest to better understand these molecular biological basics in order to identify potential prognostic biomarkers.

The incidence of breast cancer in Chinese women has increased year by year, and luminal A breast cancer commonly occurs in early-stage and postmenopausal women. This type of breast cancer is not sensitive to chemotherapy, although it has a low mortality rate and distant metastasis rate. Studies have shown that luminal A breast cancer is sensitive to endocrine therapy. Patients with breast cancer who undergo excision should be followed up and their prognosis should be monitored regularly. At present, imaging detection is mainly used in the conventional follow-up of breast cancer, but the cost of many imaging examinations is high, so a cost-effective examination is urgently needed. Recent studies have found that circulating tumor cells can be used as a new type of tumor molecular marker, which can be used to diagnose tumors, judge the prognosis and monitor the efficacy by detecting the number and characteristic protein expression of circulating tumor cells. Because circulating tumor cells may develop abnormalities 4-6 months earlier than conventional imaging examination, as long as circulating tumor cells of patients are abnormal, timely PET-CT examination will neither miss diagnosis nor delay the condition. Simultaneously, the cost of hospitalization can be obviously reduced. This non-inferiority randomized controlled clinical trial is designed to compare the differences in postoperative conditions between circulating tumor cell detection and conventional imaging examination in patients with luminal A breast cancer without lymph node metastasis.

This observational study with circulating tumor cells (CTC) count, isolation and analysis at several time points during disease progression is to investigate the role and biology of CTCs and clusters of CTCs in different cancer types. It also evaluates the role of CTCs as biomarkers, and aims at the identification of key signaling networks that are active in CTCs.

The prospective observational clinical study will recruit 50 metastatic nasopharyngeal carcinoma (mNPC) patients, detecting patient's chemosensitivity with the circulating tumor cells (CTCs) from peripheral blood and prdicting patient's treatment efficacy with CTCs dynamic change.

The aim of this study is to analyze the therapeutic effect of postoperative adjuvant chemotherapy with FOLFOX4 after hepatocarcinoma resection based on folate receptor-positive circulating tumor cells. Patients receiving curative resection (R0) were randomized to postoperative FOLFOX4 group and no FOLFOX4 group. The time to recurrence, the overall survival as well as the incidence of complications after therapy was observed to confirm the role of postoperative adjuvant therapy of FOLFOX4.

This study aims to isolate CTCs in peripheral venous blood of liver cancer patients by inertial focusing principle-based microfluidic device, determine the relationship between the number of CTCs and patient prognosis and treatment response, detect mutation, copy number variation and mutation load in CTC cells and corresponding tissues using single-cell whole genome sequencing technology, and use bioinformatics analysis of CTC heterogeneity and its relationship with clinical outcome. In addition, the culture of CTCs in vitro was explored by organoid culture or sphere culture in order to obtain CTCs cell lines to reveal the metastatic mechanisms of HCC. The partner of this project is Cellomics International Limited, which could provide Cellomics CTC-100 cell sorter and related consumables for this project. Peripheral venous blood from about 300 patients with initial liver cancer will be collected, and CTCs cells will be sorted in 8ml of each patient and typed according to protein expression. Clinical data, treatment effect and survival time of patients will be collected, and finally the relationship between the number of CTCs and subgroup with treatment response and patient prognosis will be analyzed. Uncovering the genomic characteristics of CTCs of HCC provides a new basis for the precise treatment of HCC. The new diagnostic markers for Hcancer were found by miRNA expression spectrum chip and metabolomic testing.In vitro culture methods and cellular characteristics of HCC circulating tumor cells were preliminarily explored.

The goal of this observational study is to validate and evaluate the clinical feasibility of using a 3-D cell culture model for CTCs isolation/purification and their cell number expansion in cancer patient with transitional cell carcinoma and patient without cancer. This project first aims to study the clinical feasibility of utilizing a 3-D cell culture model for the isolation/purification of all possible CTCs in a blood sample in a label-free, viable, and high-purity manner. Through 3-D CTC culture, moreover, the cell number of CTCs can be adequately expanded. All these advantageous features are beyond what is currently possible by using the existing methods. In addition, the harvest of CTCs with above features is found valuable for the subsequent academic researches or clinical studies (e.g. molecular mechanisms underlying cancer metastasis, cancer-related gene mutation, biomarker discovery, and particularly CTCs-based chemotherapy drug testing). These could both facilitate and accelerate scientists to develop new therapeutic solutions for future cancer care.

ACT-MBC prospectively assesses the impact of CTCs on treatment decisions, response assessment and prognosis in MBC patients.