View clinical trials related to Solid Tumours.
Filter by:The goal of this clinical trial is to about in Patients With Advanced Solid Tumors. The main question[s] it aims to answer are: - question 1:Evaluating the tolerability of BH002 injection in Chinese patients with advanced solid tumors - question 2:Obtain the pharmacokinetic (PK) characteristics of BH002 injection in Chinese patients with advanced solid tumors
The study will be conducted in patients with solid tumors for whom single-agent docetaxel, in the dose of 75 mg/m2, is a suitable treatment option. Each patient, meeting all the inclusion criteria and none of the exclusion criteria, will receive test or reference product in a cross over manner based on randomization schedule. A balance between T-R and R-T randomization sequence will be ensured using statistical techniques. Blood samples for PK assessment will be collected prior to and after start of intravenous infusion on Day 1 (Period I), Day 22 (Period II)
WAYFIND-R is a registry that aims to capture high-quality real-world data linking next-generation sequencing, treatments and outcomes from cancer patients diagnosed with a solid tumour. The WAYFIND-R has three main overarching objectives: 1. To provide a platform to support the design and conduct of clinical and epidemiological research; 2. To develop an evidence-generation platform to better understand health outcomes and cancer care processes; and 3. To characterize the treatments and clinical course of solid tumor cancers in patients who have undergone NGS testing.
A study to find out whether olaparib is safe and well tolerated when administered to children and adolescents with solid tumours.
This will be an open-label, randomised, 2 part (Part A and Part B), 2 treatment (savolitinib alone or in combination with famotidine), crossover study in healthy, non Japanese, male subjects, performed at a single study centre.
Compassionate use access to molibresib/GSK525762 for eligible participant with NUT Midline Carcinoma; indication is a seriously debilitating or life-threatening disease.
Background: Cancer therapies have significantly improved over the last decades, allowing cancer specialists to keep cancer under control for longer than ever before. However, metastatic cancer still develops in a large number of patients and drug resistance occurs in the majority of them after an initial period of response and leads to cancer progression and death. Aims: To date, the mechanisms which allow cancer cells to spread through the body to form metastases and to become resistant even to the most powerful treatments are poorly understood. Our aim is to collect cancer specimens and normal tissue specimens such as blood from patients with solid tumours and to analyse these samples with some of the latest molecular profiling technologies in the research laboratory. This comprehensive analysis should reveal what molecular defects fuel the growth of cancer cells adn what allows them to spread through the body and then develop resistance to cancer therapies. Such insights could subsequently lead to the development of better more improved treatments which prevent drug resistance, to novel molecular tests which can also predict which treatment is most likely to be effective and tolerable in individual patients. Methods: To achieve this, we aim to collect multiple samples from consenting patients starting from the diagnosis of a tumour to the time drug resistance develops more. Importantly, this study will collect tissues from interventional procedures which are performed as part of routine patient management of patients seen at Barts Health NHS trust. We will then apply molecular tests such as proteomics and DNA sequencing to these samples. Tissues which are left over after these tests have been applied will be stored in a licensed tissue bank to allow future research with novel technologies.
This is a single-centre, single arm, open-label pilot study to evaluate the safety and feasibility of CAR-NK cell treatment in subjects with metastatic solid tumours. Autologous or allogeneic NK cells are transfected by mRNA electroporation to prepare investigational CAR-NK cells with transiently enhanced specificity and activity against NKG2D-ligand expressing cancer cells.
The purpose of this study is to determine whether AZD1775 has any effect on the pharmacokinetics (PK) of three compounds (caffeine, omeprazole, and midazolam) that are probes for common drug-metabolizing enzymes (caffeine-CYP1A2, omeprazole-CYP2C19, midazolam-CYP3A). The study also seeks to determine the effect of AZD1775 on the QTc interval, which is a common measure of cardiac (heart) function.
The purpose of this study is to assess the effect of food on the pharmacokinetics (PK) of a single dose of AZD1775 (printed capsules) in patients with advanced solid tumours.