View clinical trials related to Neoplasms.
Filter by:A first-in-human (FIH) study using SBT6050 and SBT6050 in combination with PD-1 inhibitors in HER2 expressing or amplified advanced malignancies
This exploratory study investigates how an imaging technique called 68Ga-FAPi-46 PET/CT can determine where and to which degree the FAPI tracer (68Ga-FAPi-46) accumulates in normal and cancer tissues in patients with cancer. Because some cancers take up 68Ga-FAPi-46 it can be seen with PET. FAP stands for Fibroblast Activation Protein. FAP is produced by cells that surround tumors (cancer associated fibroblasts). The function of FAP is not well understood but imaging studies have shown that FAP can be detected with FAPI PET/CT. Imaging FAP with FAPI PET/CT may in the future provide additional information about various cancers.
This trial is a randomized, double-blind, multinational Phase III study to evaluate the efficacy and safety of preemptive treatment with FTD/TPI compared with administration of placebo as follow-up, which is the standard of care, in patients who underwent curative resection of colorectal cancer and then tested positive for ctDNA.
This exploratory study investigates how a new imaging technique called FAPI PET/CT can determine where and to which degree the FAPI tracer (68Ga-FAPi-46) accumulates in normal and cancer tissues in patients with prostate cancer. Because some cancers take up 68Ga-FAPi-46 it can be seen with PET. FAP stands for Fibroblast Activation Protein. FAP is produced by cells that surround tumors. The function of FAP is not well understood but imaging studies have shown that FAP can be detected with FAPI PET/CT. Imaging FAP with FAPI PET/CT may in the future provide additional information about various cancers including prostate cancer.
The primary objective of the study was to assess investigate the pharmacokinetic effects of Apatinib Mesylate on CYP2C8 Substrate Repaglinide or CYP2B6 Substrate Bupropion and metabolite Hydroxy bupropion in Advanced solid tumor subjects. The secondary objective of the study was to assess the safety of Apatinib or/and Repaglinide and Bupropion.
Parenteral nutrition (PN) treatment in patients with incurable cancer is understudied and the level of evidence for clinical meaningful effects is weak. Guidelines give few specific recommendations regarding which patients with incurable cancer that should be offered PN treatment. According to the Norwegian prescription database, the use of parenteral nutrition has more than doubled in the period 2004-2015. These numbers do not separate between diagnoses and medical conditions, so the current use of medical nutrition in cancer patients in Norway is not known. The decision to initiate parenteral nutrition is taken at hospitals, whereupon the patient returns home to their respective municipalities and receives follow-up by the home care service. There are often uncertainties about the duration of treatment, as patients' clinical condition can change rapidly. One major challenge health care professionals face is to decide when to end medical nutrition therapy. Patients and relatives may experience fear that discontinuation of medical nutrition accelerates death, while health care professionals often experience that nutrition in many cases does not help and inflicts negatively on patients' condition. This makes communication concerning end of nutritional treatment between health care professionals at several health care levels, patients and their relatives challenging. There is a need for a stronger evidence base considering the effect of medical nutrition in patients with incurable cancer. To be able to study the effect of PN treatment, more studies on clinical practice of PN treatment to patients with incurable cancer is needed. Aspects like indication for use, dosage and duration of PN treatment is poorly described in the available literature. Thus, the aim of this study is to describe indications for use of PN, duration of treatment, reasons for discontinuation, method of administration, possible benefits and complications as well as survival.
A disposable endoscopy system (NCKU-scope-01) was developed for the evaluation of bile duct stone or neoplasm. This system consists of a camera, light sources, a working channel, and a water injection channel. The endoscope could be inserted into the common bile duct via the working channel of a commercial duodenoscope. This study aims to test the feasibility and safety of this system. The efficacy of stone and neoplasm diagnosis will also be analyzed.
This phase I trial collects blood samples to investigate the prevalence of changes in genes (genetic mutations) in solid tumor patient populations seeking care at Mayo Clinic Embedded Cancer Center at St. Vincent's Riverside. This may help doctors better understand and/or treat others who have genetic mutations.
This phase II trial studies how well lopinavir/ritonavir works in treating COVID-19 positive patients with cancer and a weakened immune system (immune-suppression) in the last year and have mild or moderate symptoms caused by COVID-19. Lopinavir/ritonavir may help to lessen or prevent COVID-19 symptoms from getting worse in cancer patients.
This is an open-label, multicenter Phase I/IIa dose escalation, safety, pharmacokinetic (PK) and pharmacodynamic (PD) trial of BNT151 with expansion cohorts in various solid tumor indications. The trial consists of Part 1, Part 2A and Part 2B with adaptive design elements: The monotherapy dose escalation, (Part 1) of this clinical trial will enroll patients with various solid tumors that are metastatic or of advanced unresectable stage for whom there is no available standard therapy likely to confer clinical benefit, or patients who are not candidates for such available therapy. The Part 1 of the trial also plans to implement a dedicated biomarker cohort in BNT151 monotherapy: The Biomarker Cohort will recruit patients at selected sites in the US only. The objective of the cohort is to observe PD activity and drug-induced changes in the blood and tumor. During combination dose escalation (Part 2A), patients of different specific solid tumors (one cohort per indication) will be enrolled and treated with a combination of BNT151 and the respective standard of care (SoC) treatment. Part 2B is the expansion phase where a predefined number of patients in each indication cohort will be treated with the confirmed recommended phase II dose (RP2D) of BNT151 in combination with respective SoC.