View clinical trials related to Urothelial Carcinoma.
Filter by:The purpose of the study is to evaluate whether state-of-the-art technologies such and next generation sequencing and drug sensitivity and resistance testing of patient derived tumour tissue can facilitate research translation and improve outcome of urologic cancers.
Background: EP0057 consists of a sugar molecule cyclodextrin linked to a chemotherapy drug called camptothecin. The combined molecule or "nanoparticle drug conjugate" travels through the blood. Once inside cancer cells, the chemotherapy drug is released from the molecule. Olaparib is a drug that may stop cancer cells from repairing the DNA damage caused by chemotherapy. Researchers want to see how safe it is to give EP0057 and olaparib together and to see how well the combination treats a specific type of lung cancer called small cell lung cancer (SCLC). Objectives: To test the safety and maximum dose of EP0057 and olaparib together. To test how well they treat small cell lung cancer. Eligibility: Adults 18 and older with small cell lung cancer. Design: Participants will be screened with standard cancer care tests. Participants will get the 2 study drugs in 28-day cycles. EP0057 will be given every 2 weeks, through a small plastic tube in an arm vein. Olaparib will be taken by mouth twice a day most days. Participants will keep a pill diary. For Cycle 1, participants will have 3 visits. All other cycles will have 2 visits. At study visits, participants may have: - Blood and hair samples taken - History and Physical exam - Questions about health and side effects - Pregnancy test - Optional tumor biopsy where a piece of tumor is removed by needle after numbing the skin. - CT scan - Injection of EP0057 (twice per cycle) - Olaparib prescription <TAB> Participants will have a follow-up visit 4 weeks after finish taking the drugs. They will have a physical exam and blood tests. They may have a tumor biopsy. The study team will call the patient every 3 months for follow up after completing the study treatment.
This is a multi-cohort single arm phase II/screening trial of the combination of a fusion protein that binds EphrinB2 and blocks interaction with cell surface EphB receptors (sEphB4-HSA) in combination with an anti-PD1 antibody (MK-7435 / Pembrolizumab) for treatment of patients with specific solid tumors. There will be four cohorts in this trial: 1. Cohort A, phase II 2nd line trial of sEphB4-HSA and pembrolizumab for platinum refractory metastatic urothelial carcinoma. 2. Cohort B, phase II 3rd line trial of sEphB4-HSA and pembrolizumab for platinum refractory metastatic urothelial carcinoma. 3. Cohort C, phase II neoadjuvant trial of sEphB4-HSA and pembrolizumab for locally advanced muscle invasive urothelial carcinoma. 4. Cohort D, phase II neoadjuvant trial of sEphB4-HSA and pembrolizumab for locally advanced prostate cancer.
Many studies previously showed the significant association between urinary arsenic profiles and urothelial carcinoma (UC) risk and observed the increased UC risk in people with lower plasma folate and higher homocysteine than those with higher plasma folate and lower homocysteine. The investigators would expect to explore the interactions among global DNA methylation, one-carbon metabolic pathway factors, urinary arsenic profiles and UC.
The investigators previously pointed out the significant association between urinary arsenic profiles and urothelial carcinoma (UC) risk through a 12-year follow-up study. Further, the investigators observed the increased UC risk in people with lower plasma folate and higher homocysteine than those with higher plasma folate and lower homocysteine in 2010. S-adenosylmethionine (SAM) is one factor included in one-carbon metabolism pathway and is the main donor of methyl group in cells. The ratio of SAM and its metabolite S-adenosylhomocysteine (SAH) not only reflected the intake level of dietary folate but also demonstrated the extent of global DNA methylation. These factors might play important roles in UC carcinogenesis. The investigators would expect to take three years to explore the interactions among global DNA methylation, one-carbon metabolic pathway factors, urinary arsenic profiles, the polymorphisms and haplotype of Glycine N-methyltransferase (GNMT) and UC. In the first year, the investigators would measure the levels of plasma folate, homocysteine, SAM and SAH and evaluate the associations between these factors and UC risk. In the second year, the investigators would set up the method of immunohistochemistry stain and compare the differences between the global DNA methylation from bladder tissues and blood. In the last year, this investigators would analyze the GNMT gene polymorphism and haplotype variation. At the same time, the investigators would explore the impact of GNMT genetic variation and global DNA methylation on UC risk. Based on the results from our research, the investigators might propose that the decreased ratio of SAM/SAH resulted in UC risk increased. This mechanism might be through the changed levels of urinary arsenic profiles and global DNA methylation.
To study the association between aristolochic acid and urothelial carcinoma in Taiwan
1. To investigate the relationship between arsenic methylation enzymes (AS3MT, PNP,GSTO1, and GSTO2) genetic polymorphism and UC risk. 2. To explore the relationship between cigarettes metabolites (NNK, NNAL, HBA, NNAL-Gluc, O6-Methylguanine, and N7-Methylguanine) and UC risk. 3. To examine the relationship between cigarette metabolic enzymes (CYP2A6, CYP2A13, and UGT2B7) genetic polymorphism and UC risk. 4. To elucidate the relationship between DNA repair enzymes (MGMT, XPD, XRCC1, and XRCC3) gene polymorphism and 8-OHdG or between DNA repair enzymes and UC risk. 5. To examine relationship between COX-2 (-1195G/A、-765G/C 和8473C/T), IL-6, IL-8, and TNF-α gene polymorphism and 8-OHdG or between COX-2, IL-6, IL-8, and TNF-α gene polymorphism and UC risk. 6. To examine the risk factors of the environment-environment, gene-environment, and gene-gene interaction on the risk of UC.