View clinical trials related to Hilar Cholangiocarcinoma.
Filter by:The purpose of this study is to explore the efficacy and safety of endoscopic scissors cutting nasobiliary ducts in the treatment of malignant hilar biliary tract stenosis
The goal of this observational cohort study is to assess the yield of preoperative endoscopic ultrasound focussed on lymph nodes in patients with presumed resectable perihilar (pCCA), intrahepatic (iCCA) or mid-common bile duct (CBD) cholangiocarcinoma. The main questions it aims to answer is: 1. The number of patients precluded from surgical work-up due to positive regional or extraregional lymph nodes identified by endoscopic ultrasound guided tissue acquisition 2. Characteristics during endoscopic ultrasound of lymph nodes associated with malignancy
This is a prospective, observational diagnostic study aiming to assess multiparametric MRI-based clinico-radiomics for identifying lymph node metastasis status in hilar cholangiocarcinoma.
Bile duct cancer is often diagnosed after curative options are no longer available. Stent therapy is used to keep the ducts open and can be combined with photodynamic therapy (PDT) to extend life expectancy. PDT requires an injection of photosensitizer after which light of a particular wavelength is applied endoscopically to kill the cancer cells. Drawbacks include not only high costs and poor availability, but foremost that patients have to avoid direct sunlight for a period of weeks. Radio frequency ablation (RFA) together with stent implantation constitutes an alternative by which the cancer cells are killed through heat, also applied endoscopically. The RFA technology is more widely available and easier to deploy. However, it has not been studied extensively and no randomized trials exist comparing the two methods. This trial will compare survival in patients with a particular bile duct cancer depending on whether they receive PDT or RFA. Moreover, data will be collected on side-effects and quality of life.
This is an interventional, prospective multicenter, open-label, phase II study in patients after curative surgery for BTC in a classic adjuvant situation, consisting of a two arm feasibility pilot part with a randomized pick-the-winner design and an option to proceed into a randomized phase 2/3 trial in order to compare the winner with the current SOC (capecitabine).
Malignant biliary obstruction usually arise in patients suffering from primary or metastatic hepatobiliary tumors. Approximately 80% of malignant biliary obstruction patients are not eligible for surgical resection, and as such palliative stent insertion is the only treatment option available for most patients. At present, I-125 seeds loaded stent has been developed to improve the stent patency and patients' survival. Hilar malignant biliary obstruction is an important part of malignant biliary obstruction. Hilar cholangiocarcinoma is the most common disease which causes hilar malignant biliary obstruction. Herein, we assessed the clinical and long-term efficacy of I-125 seeds loaded stent insertion for hilar cholangiocarcinoma patients.
The study aim to evaluate the efficacy of intraductal radiofrequency ablation for unresetable hilar cholangiocarcinoma in addition to biliary stenting. The patient would be randomized into 1:1 ratio of conventional group who received biliary stenting alone, and RFA group who receive intraductal RFA before biliary stenting. Immediate complications as well as long term stent patency and patient survival would be studied.
This study is going to test the ability to successfully obtain results from certain personalized tests for patients with biliary tract cancers that are able to be surgically removed. Through surveys, this study will also evaluate the usefulness of these tests to medical oncologists as they make decisions on what standard or experimental treatments might benefit the patient's enrolled in the study. The study is observational and does not require any change in the standard approach to treating biliary tract cancer. Results of the personalized tests will be provided to the treating medical oncologist and the medical oncologist can choose to whether or not to change management based on these results. These personalized tests include reading of the cancer DNA, testing whether a panel of drugs can kill a patient's cancer cells in a test tube, and testing for small amounts of cancer DNA in the blood as a way to check for the presence of leftover cancer in the body after it is removed surgically. This study will also give extra pieces of cancer, that would otherwise be discarded, from surgery for laboratory research into how biliary tract cancers respond to drugs and the body's immune system. The investigators hypothesize that the drug screen test will, in some cases, be useful to the medical oncologist and may lead to the use of cancer drugs that would not otherwise have been chosen based on standard guidelines or based on cancer DNA testing. The investigators hypothesize that the test tube drug screening method will correlate with how the cancer responds to the drugs in real life for those patients that end up receiving a drug that was included in the drug screen panel. The investigators hypothesize that monitoring of cancer DNA in the blood stream will help us predict which patients are most likely to have their cancer return after surgery. The investigators also hypothesize that in many cases the appearance of cancer DNA in the blood stream will happen weeks to months prior to the cancer showing up on usual body imaging or other lab tests. Finally, the investigators hypothesize that, for patients undergoing medical treatment for their cancer, trends in the amount of cancer DNA in the blood stream will correlate with the effectiveness of treatment.
This is a study following the outcomes and survival of patients undergoing the TAMLAPS hepatectomy at Florida Hospital Tampa by Dr. Iswanto Sucandy
Cholangiocarcinoma is an epithelial cell malignancy arising from varying locations within the biliary tree and is difficult to diagnose due to the often-silent clinical nature. The best chance of long-term survival and potential cure is surgical resection with negative surgical margins, but many patients are unresectable due to locally advanced or metastatic disease at diagnosis. Because cholangiocarcinoma is difficult to diagnose at an early stage and extends diffusely, most patients have unresectable disease at clinical presentation, and prognosis is very poor (5-year survival is 0-40% even in resected cases) There is a need for better visualization of tumor tissue, lymph nodes and resection margins during surgery for perihilar cholangiocarcinoma (PHCC). Optical molecular imaging of PHCC associated biomarkers is a promising technique to accommodate this need. The biomarkers Vascular Endothelial Growth Factor (VEGF-A), Epidermal Growth Factor Receptor (EGFR) and c-MET are all overexpressed in PHCC versus normal tissue and are proven to be valid targets for molecular imaging. Currently, tracers that target these biomarkers are available for use in clinical studies. In previous studies with other tumor types, the investigators tested the tracer bevacizumab-IRDye800CW for the biomarker VEGF-A with very promising results. Since all markers show roughly similar expression in ex vivo studies, the initial study will be performed with bevacizumab-IRDye800CW as the investigators have the most experience with this tracer. The investigators hypothesize that the tracer bevacizumab-IRDye 800CW accumulates in PHCC tissue, enabling visualization using a NIR intraoperative camera system and ex vivo NIR endoscopy. In this pilot study, the investigators will determine if it is possible to detect PHCC intraoperatively and by ex vivo NIR endoscopy using bevacizumab 800CW, and which tracer dose gives the best target-to-background ratio. The most optimal tracer dose will be selected for a future phase II trial.