View clinical trials related to Colorectal Cancer.
Filter by:To evaluate the normal physiological distribution of positron nuclide labeled DOTA-FAPI PET/CT in human body and its diagnostic efficiency for colorectal cancers
This project aims to enhance the support for patients with breast and bowel cancer after treatment. Current follow-up care includes either self-management with patient-initiated contacts (breast cancer) or scheduled hospital visits for scans/tests for recurrence (bowel cancer). Building on extensive experience with online patient self-reporting of symptoms during treatment, the study will develop, implement and evaluate satisfaction with an improved electronic system to engage breast and bowel cancer survivors to self-report symptoms/problems online from home and get immediate tailored advice for self-management or hospital contact. The reports are displayed real-time in the hospital records alongside scans/tests to inform clinical management.
Conduct a feasibility pilot RCT of a newly developed colorectal cancer screening (CRC) decision aid (DA) including 66 LHL adults 76-85 years recruited from community health centers. Hypotheses: Patients in the intervention group will be more likely to change their intentions to be screened with fewer patients with <10 year LE and/or those with >10 year LE and no risk factors intending to be screened and more with >10 year LE and risk factors for CRC and/or those who have never been screened intending to be screened (primary outcome). The secondary outcomes are that the patients in the intervention group will have 1. increased knowledge of CRC screening options and the benefits and risks of these options; 2. increased SDM engagement; and 3. find the DA acceptable. Investigators also anticipate that at least 50% of eligible participants will choose to participate in the study.
To explore the effect of CBT on psychological status of colorectal cancer patients undergoing chemotherapy. To explore the effect of CBT on immune function of colorectal cancer patients undergoing chemotherapy.
Near-infrared fluorescence-guided oncologic surgery (FGOS) with the use of a tumor specific tracer (SGM-101) developed by Surgimab can provide valuable intra-operative information about tumor location and extensiveness. SGM-101 already proven to be safe and valuable in colorectal cancer. This study aims to prove feasibility for colorectal lung metastases.
This is an open-label, multicenter, randomized phase 2 study evaluating the efficacy and safety of fruquintinib plus capecitabine versus bevacizumab plus capecitabine as maintenance therapy following first-line treatment for metastatic colorectal cancer. Patients who have already achieved disease control (including CR/PR and SD), without discontinuation for toxicity, and are progression free after 4-6 months of standard first-line induction treatment will be assigned to 2 maintenance treatment groups by randomization in a 1:1 ratio to receive fruquintinib + capecitabine (Arm A) or bevacizumab + capecitabine (Arm B). The study contains a safety lead-in phase in which the safety and tolerability of fruquintinib + capecitabine will be assessed prior to the phase 2 portion of the study. All patients from Arm A and Arm B will be treated until progressive disease, death from any cause, unacceptable toxicity or informed consent withdrawal (whichever occurs earlier).
The purpose of this study is to test whether the timing of meals can improve treatment adverse events, influence tumor biology and alter a person's mood and behaviors.
This prospective, multi-center, real-world study is conducted to investigate the impact of different treatment strategies (systemic chemotherapy combined with oophorectomy or with other local treatment or chemotherapy alone) on the prognosis of ovarian metastatic colorectal cancer patients.
How epigenetic deregulation affects gene expression patterns in subclones of the same tumor is poorly known. Peritoneal Carcinomatosis (PC) is a condition in which multiple metastases of the same abdominal tumor develop in the peritoneal cavity and intra-peritoneal organs, thus defining different ecosystems of the same cancer. PITCHER addresses the variations in epigenetically regulated gene expression between different subclones of PC in relation with cell mechanoresponses, providing insights on how cancer epigenetic landscapes evolve under environmental pressures and on strategies used by cancer cells to adapt to the transition from one ecosystem to the other. PITCHER is a network of 10 teams from Lyon, Grenoble and Marseille, based on data and specimen collection of patients who have undergone a surgery for a peritoneal carcinomatosis of ovarian or colorectal origin. PC lesions and eventually matched specimens of primary tumors will be collected in the same patients at the time of the surgery or eventually retrieved from already existing samples. Epigenetic landscapes will be analyzed by a bioinformatics pipeline combining exome sequencing, transcriptome and methylome to identify "epigenetic hotspots", and their variations across lesions will be evaluated. These analyses will be realized in fresh (when available) or pre-existing samples. When possible, organoid cultures and animal models will be derived from multicellular structures in peritoneal fluids and membrane, cytoskeletal and nucleoskeletal mechanoresponses will be characterized using Atomic Force Microscopy. The role of tumor axonogenesis, a process of neo-formation of axon fibers in tumors, will be addressed. Experimental studies of cell responses to therapy will be performed to derive mathematical predictive models. All components will be integrated in a systems biology map of PC.
The purpose of this Phase I, Multi-Center, Open-Label Study is to evaluate the safety, tolerability, Pharmacokinetics, Pharmacodynamics and anti-tumor activity of KF-0210 in participants with advanced solid tumors. The study will be conducted in two parts: phase Ia, and phase Ib.