View clinical trials related to Liver Metastasis Colon Cancer.
Filter by:The goal of this pilot clinical trial is to learn about the combination of immune boosting drugs and irreversible electroporation (IRE) in patients with colon cancer that has spread to the liver (metastasis). The main questions it aims to answer are: 1. to document the rate of complications associated with combining IRE with immune boosting drugs. 2. After one liver metastasis is treated with IRE and immune boosting drugs, what is the change in the size of the non-IRE-treated liver metastases? 3. What is the immune response (measured in a blood sample) when IRE is combined with one or two types of immune boosting drugs?
This will be the first trial testing the feasibility of working simultaneously with the two fluorescent dyes ICG and SGM-101 in 10 patients with colorectal metastases.
Non-alcoholic fatty liver disease is becoming increasingly common in Canada and throughout the world. Fatty liver can increase the risks of perioperative complications for those who need liver surgery. A ketogenic diet is low in carbohydrates and can be very effective in reducing liver fat content. The purpose of this randomized control trial is to compare the effect of a short duration (4 week) preoperative ketogenic diet on operative and disease outcomes in patients undergoing liver surgery. One arm will be randomized to the ketogenic diet and the other will receive standard of care pre-operative dietary consultation.
The primary objective is to demonstrate superiority of neoadjuvant systemic therapy followed by repeat local treatment as compared to upfront repeat local treatment in patients with at least one locally treatable recurrent CRLM in the absence of extrahepatic disease.
The purpose of this study is to prospectively evaluate the feasibility of SBRT for the management of synchronous oligo metastatic liver metastases from colorectal cancers.
By virtue of an increased strategic use of cytotoxic and biological agents, and more options for locoregional treatment, the survival of patients with metastatic colorectal cancer (mCRC) has improved considerably in the past decades. The personalized approach to systemic treatment is further aided by the use of complementary molecular biomarkers. However, the evolutionary dynamics of mCRC, a disease harnessed by multiple adaptive genetic alterations towards its final stages, poses a particular challenge to single-sample biomarker analyses and standardized linear treatment protocols. The aim of the On-treatment biomarkers in metastatic ColorectAL cancer for Life (On-CALL) study is to generate further knowledge on the evolutionary progression of mCRC during treatment, and to elucidate the mechanisms underlying the therapeutic failure still seen in a substantial number of patients. The On-CALL study is a prospective, single-arm observational study. All patients diagnosed with synchronous mCRC treated with curative intent at Skåne University Hospital will be invited to participate. Clinical and histopathological data will be compiled at study entry. An individual tissue microarray block with samples from resected primary tumours and metastases representing the full extent of the tumour spread will be constructed for each patient. Blood samples will be drawn for biomarker analyses at multiple time points prior to, during and after systemic treatment. DNA sequencing of tumour tissue and circulating tumour DNA (ctDNA) will be performed to define the spatial clonal landscape in primary tumours and metastases, as well as over time.
Rationale: Bile salts are potent signalling molecules influencing various metabolic and functional processes. Bile salts exert these functions by activating nuclear (e.g. FXR ) and plasma cell membrane-bound receptors (e.g. TGR5) which are expressed in several tissues (e.g. liver, small intestine, colon, kidney and gallbladder). Bile salts regulate their own biosynthesis by controlling the transcription of the hepatic bile salt synthetic enzyme CYP7A1. Two pathways are involved in the negative feedback control of bile salt synthesis: i) the hepatic FXR-SHP pathway and ii) the ileal FXR-FGF19 pathway. Studies showed that the latter is more prominent in controlling CYP7A1 transcript levels (viz. bile salt synthesis). Thus, bile salts are synthesized in the liver, excreted in bile and expelled by the gallbladder into the proximal intestine (to aid in lipid absorption and digestion) and reabsorbed in the terminal ileum to recycle back to the liver via portal blood. Bile salts reclaimed from the intestinal lumen by the ileocyte, activate FXR. This induces the expression of an enterokine, FGF19, which signals via portal blood to the liver to activate its receptor which initiates downstream signalling to repress bile salt synthesis. The FXR/FGF19 signalling pathway is the subject of the present study. Patients with obstructive cholestasis (=accumulation of bile) caused by malignancies (e.g. pancreatic cancer, cholangiocarcinoma) have a perturbed enterohepatic cycle. Obstructive cholestasis is associated with i) gut barrier dysfunction, ii) endotoxemia, iii) bacterial overgrowth and iv) liver injury. Previous study showed that FGF19 is expressed in the liver of patients with obstructive cholestasis. However, knowledge about the contribution of FGF19 protein by the gut in obstructive cholestasis has thus far been unexplored. Preliminary findings revealed that FGF19 is produced by the portal drained viscera (viz. intestine) of non-cholestatic patients undergoing liver surgery. The inter-organ signalling of FGF19 in an obstructed entero-hepatic cycle has not yet been characterized and likewise the metabolic and other functional effects of inflicted FGF19 signalling during cholestasis have not been clarified. The hypothesis is that the FXR-FGF19 pathway is disturbed in patients with obstructive cholestasis, and this is associated with organ injury and metabolic dysfunction. The investigators postulate that FGF19 is not produced by the terminal ileum under conditions of obstructive cholestatic, but production is shifted to the liver and this affects metabolic processes. The aim of this study is to investigate FGF19 signalling in patients with cholestasis compared to non-cholestatic patients or post-cholestatic patients (drained patients) by calculating fluxes across the portal drained organs. Secondly, the investigators aim to investigate the metabolic and functional consequences (glucose, lipid homeostasis, cholestatic itch, gut barrier function) of a disturbed FXR-FGF19 pathway in humans. This study will provide insights that may lead to potential therapeutic strategies for patients with a disturbed enterohepatic cycle (e.g. cholestatic liver diseases). Study population: Adult (>18 years old) cholestatic (cholestasis group), drained (restored enterohepatic cycle) and non-cholestatic patients (controls, normal enterohepatic circulation) undergoing pancreaticoduodenectomy (Whipple procedure) for hepatopancreaticobiliary malignancies (e.g. pancreatic cancer, cholangiocarcinoma) or liver resection for hepatic malignancies (e.g. cholangiocarcinoma, colorectal liver metastases) are eligible for this study. Study period: inclusion is planned from 1.12.2017 until 1.12.2024
Background: Removal of part of the liver (resection) is performed as a treatment for some cancers in the liver. To achieve the best possible outcomes, it is important that the cancer is removed completely (R0 resection) (1). Up to 30-50% patients develop recurrence within 2 years of surgery which could be due to incomplete removal of the cancer (2). Various techniques are used by the surgeons to identify the cancer tissue from the normal liver during the surgery so that it can be removed completely. These include examining with the naked eye, having a feel of the tumour, and performing an ultrasound scan. Even with these techniques it is difficult to identify the exact extent of the cancer. Also, the interpretation of the ultrasound scan can be subjective (3). A robust, objective, real-time navigation technique is required which can differentiate cancer from normal tissue. Indocyanine green (ICG) is a dye which when given through the veins, is taken up and retained by cancer cells in the liver and they appear as fluorescent areas as compared to normal liver which appears dark. This principle can be used to identify the cancerous tissue accurately during the surgery and remove it completely (Indocyanine green Fluorescence Image-Guided Surgery: I-FIGS). It can also potentially detect additional tumours which were not identified before the surgery or during the surgery with standard techniques (4,5). However, there is a lack of good quality evidence on the usefulness of I-FIGS in liver surgery, so this needs to be tested in a large group of patients having liver surgery before any recommendations can be made. Research Aim: This initial study aims to assess whether a larger trial evaluating the role of I-FIGS in complete removal of the cancer tissue is feasible. Investigators will assess if patients are willing to take part in the study and whether they can gather relevant clinical outcome data from them all. Investigators will also gather patients' views about this novel technique and participating in the study. Design and methods: This study will involve 40 patients having planned liver surgery for liver tumour/s recruited from University Hospitals, Plymouth. Patients will be randomly allocated to have I-FIGS plus standard surgery or standard liver surgery alone. Patients in the I-FIGS group will have ICG injection 2-4 hrs prior to surgery (0.03-0.05mg/kg dose) on the day of surgery. The surgical planning will be carried out as per the standard approach using the naked eye and intra-operative ultrasound examination. Once this is all recorded, ICG cameras will be switched on, and the additional findings and change to surgical plan will be noted. Focus groups will explore participants experiences of being in the study. This will inform the design of the future larger trial. Patient public involvement: Investigators have involved patients who have had or are having liver surgery in the development of the study. Their views on the technique, trial procedures and outcome measures have been incorporated. They will continue to be involved and advise on the study. Dissemination: Results will be available via research journals and conferences.
Fruquintinib (HMPL-013) is a novel oral small molecule that selectively inhibits vascular endothelial growth factor receptors (VEGFR) 1, 2, and 3 and has demonstrated potent inhibitory effects on multiple human tumor xenografts. Combined with hepatic arterial infusion chemotherapy (HAIC), this study is conducted to assess the efficacy and safety of this regimen in patients with unresectable colorectal cancer liver metastases as the third-line therapy.
This single arm study aims to evaluate the rate of conversion therapy in patients with unresectable liver-limited metastatic colorectal cancer (mCRC) using FOLFOXIRI neoadjuvant regimen and to assess the other outcome including the response rate, the survival rate and the safety profile.