View clinical trials related to Neoplastic Cells, Circulating.
Filter by:Local percutaneous thermal ablation is frequently proposed in the management of metastatic diseases. Radiofrequency ablation (RFA) has demonstrated good results when the metastatic disease is limited and slowly evolving. The destruction of solid metastasis by RF leads to inflammatory and immunological mechanisms that remain poorly understood. These pathological events may influence the overall and anti-tumor host immune responses. The purpose of the study is to identify and quantify some immune mechanisms triggered by RFA of pulmonary metastases from colorectal cancer origin.
Early diagnosis of malignant tumors is pivotal for improving their prognoses. Circulating tumor cells (CTC) in peripheral blood and Volatile organic compounds (VOCs) in exhaled breath are newly developed diagnosis method. Due to the low percentage of CTCs in peripheral blood of cancer patients and the surface structure of lymphocytes (especially megakaryocytes) is often confused with tumor cells, CTC has a high false positive and negative rate. In recent years, the detection of volatile organic compounds (VOCs) in exhaled breath as a simple and noninvasive method has shown broad application prospects in the diagnosis of various diseases. A series of studies of VOCs diagnosing solid tumors the investigators had conducted in the past decade show that VOCs can not only distinguish different types of tumors, but also can make a distinction between different stages. This study was to compare CTC and VOCs with clinical samples. Predictive models will be built employing discriminant factor analysis (DFA) pattern recognition method. Sensitivity and specificity will be determined using leave-one-out cross-validation or an independent blind test set.
This single arm therapeutic exploratory study of digoxin in patients with advanced or metastatic breast cancer investigates whether cardiac glycosides are able to disrupt CTC clusters in breast cancer patients.
Anti-cancer treatments have been thought to be closely related to their unique genetic alterations. In the past few years, the investigator have used cDNA microarray to delineate the transcriptome profiles of differentially-expressed genes between OSCC tumors and normal epithelium. By supervised hierarachical clustering analysis, the investigator further analyzed and validated the differentially-expressed genes for OSCC tumors. In the investigators' previous research, the investigators have used this strategy to analyze the potential tissue proteins associated with OSCC tumors, indicating the feasibility of this strategy. However, gene detection is a great limitation and challenge in CTCs researches owing to the small number of isolated cells by traditional methods. Fortunately, by means of the investigators' developing high-purity CTCs isolation techniques, some preliminary data implied that isolated CTCs by this method could achieve the criteria of Whole-genome analysis (WGA), which brings the investigators' passion for further investigation.
Subjects will receive standard chemotherapy and Tumor Treated Fields (TTFields) and will also receive Carvedilol for 4 cycles of treatment. Carvedilol will start at 6.25 mg orally twice a day and be increased to 12.5 mg orally twice daily after 1 to 2 weeks if tolerated. Peripheral glioma circulating tumor cells (CTC) and brain MRI with and without contrast will be obtained at baseline, 2 cycles, and 4 cycles to determine the efficacy and direction of change of the CTC using a new assay tool. Preliminary assessment of the tolerability of Carvedilol with standard chemotherapy will also be evaluated.
This culture system utilizes the special affinity difference of biomedical material coating for different cells to achieve the effect of isolating cancer cells from the blood sample. The coating of the system has the characteristic that to make the WBCs adhesion, but the cancer cells in the blood sample suspend in the culture medium, which achieves the effect of separating cancer cells from the blood. The supernatant with the cancer cells can further be isolated from the cultural system for related analysis and detection to achieve early diagnosis and screening.
The investigators are going to explore the diagnostic and prognostic value of circulating tumor cells and exosomes extracted from the portal venous blood obtained with endoscopic ultrasound in pancreatic cancer patients.
Colectomy is the most commonly used therapeutic approach for the treatment of non-metastatic colorectal cancer. This approach is generally very effective however the rate of recurrence and the appearance of metachronous metastasis remains a major problem in the postoperative period. One of the hypothesis that can explain this tumor progression is the dissemination of tumor cells at the time of tumor mobilization. In this work, we wish to verify this hypothesis by comparing two surgical technics used in our department for left or right colectomies: respectively either first section of the mesenteric vessels followed by the mobilization of the tumor or first mobilization of the tumor followed by the section of the mesenteric vessels. To evaluate the dissemination, we will study two disseminations markers that have shown their prognostic value: i) circulating tumor cells (which represent a direct marker of dissemination) and ii) tumor circulating DNA (which is an indirect marker) but has the advantage of being more representative of all tumor clones and therefore the tumor burden released into the blood at the time of surgery).
Several studies conducted over the past decade have shown that Circulating tumor cells (CTCs) can be used as a marker for predicting disease progression and survival in patients with early or metastatic cancer. A high number of CTCs correlate with aggressive disease, increased metastasis and decreased survival rates. Knowledge of metastasis mechanisms was mainly obtained from mouse models with CTCs after orthotopic transplants. The only possibility to study the patient's CTC subpopulations is to carry out ex-vivo expansion and develop an animal model with CTC xenograft. Because circulating blood collection is simple and non-invasive, CTCs can be used as a marker to track disease progression and survival in real time. CTCs could also guide therapeutic choice.
The primary focus in this study is to investigate and improve the surgical technique. In addition the collection of clinical data during diagnostic and follow up and the collection of tumor and blood gives us the opportunity to investigate tumor biology and its relevance in terms of determine appropriate treatment strategy both surgically and oncological and to assess and predict treatment outcome. The aim of this study is to compare short and long-term outcomes between open D3 and laparoscopic CME (complete mesocolic excision) with CVL (central vascular ligation) right colectomy for right-sided colon cancer. Our primary hypothesis is that laparoscopic surgery improves quality of life by reducing pain, postoperative complications and thereby reduces hospital stay and convalescence. On the other hand it is to prove non-inferiority of the laparoscopic group compared to the open group by means of oncological outcome (survival, recurrence). Secondary aim is to evaluate surgical quality by comparing actual vascular stump length between the two groups by postoperative CT and compare number of lymph nodes removed with the specimen. With the use of liquid biopsy we want to detect circulating tumor DNA (ctDNA) and circulating tumor cells (CTCs) and evaluate their value as tumor markers by comparing the prognostic and predictive value. The hypothesis is that ctDNA and CTCs are more sensitive than standard parameters and imaging (CT CEA).