View clinical trials related to Urinary Tract Cancer.
Filter by:The purpose of this study is to evaluate the safety, tolerability, pharmacokinetics (PK), and preliminary antitumor activity of TYRA-300 in cancers with FGFR3 activating gene alterations, including locally advanced/metastatic urothelial carcinoma of the bladder and urinary tract and other advanced solid tumors.
Atezolizumab in patients with urinary tract squamous cell carcinoma: a single-arm, open-label, multicentre, phase II clinical trial
To facilitate the follow-up of urothelial tumors and also make them more tolerable and less invasive for patients, there is a minimally invasive and easy to perform examination which is urinary cytology on 3 samples. This test is extremely specific, over 90% chance of cancer if it is positive and is performed by expert cytopathologists, but it is burdened by a very low sensitivity, which is especially acute in the case of low grade tumors. This makes it an extremely useful test in case of positivity, but of little use if negative or doubtful, not being able to consider it reliable. To overcome this problem, our study aims to bring an approach based on a physical principle, that is spectroscopy, which is fast non-invasive and does not require the use of additional substances or contrast media in the diagnosis of urothelial neoplasms in samples of urine. In our experience, multimodal optical fiber spectroscopy has proved extremely valid in discriminating healthy urothelial tissue from tumor ex vivo, as well as providing important information on the degree of urothelial neoplasia, with accuracy rates higher than 80%, for which developed the idea of a technique based on multimodal spectroscopy. If our method proves valid, it could improve the follow up and management of patients with urothelial cancer, being able to support normal cytology and provide further support to the cytopathologist, as well as simplify the diagnosis.
Background: Urothelial cancer is cancer of the bladder, ureter, and urethra. Researchers want to better understand what changes in a person s cells and genes cause this cancer to form. This may help them find new ways to treat it. Objective: - To perform DNA sequencing to help researchers learn the differences between normal tissue and tumor tissue. Also, to learn how molecular changes - including gene changes - might help predict the course of disease and how people respond to therapy. Eligibility: - Adults age 18 and older who have or are suspected of having urothelial cancer or an inherited disorder that raises their risk of getting bladder cancer. Design: - Participants will be screened with a physical exam. Their medical records and tissue samples will be reviewed. - Eligible participants will give tissue blocks of their original tumor. The blocks will be put in a tissue bank. - Participants medical records may be reviewed. - Participants may have a medical history and physical exam. - Participants may have blood and urine tests. They may have imaging scans. They may give urine, blood, and saliva samples. These samples may be used in future research. - If participants need surgery for their cancer, researchers will keep some of the tissue (both tumor and normal tissue). The tissue may be used in future research. - Participants will go back to the Clinical Center in 6 months. They may give saliva, urine, and blood samples. After 6 months, they will be seen by their local doctor for standard post-surgical visits. - Participants will be called every 6 months to give health updates.