View clinical trials related to Neoplasms.
Filter by:This study is to investigate the safety and efficacy of tumor infiltrating lymphocyte (TILs) therapy in patients with Advanced malignant solid tumors. TILs are expanded from tumor resections or biopsies, and after ex vivo stimulation, activation and extensive expansion, are reinfused to patients after non-myeloablative lymphocyte-depleting preparative regimen.
This is a open-label, dose escalation, accelerated titration combined 3+3 design, phase I study, to evaluate the safety and tolerability, and to determine the RP2D of TR64 when administered qd in patients with advanced solid tumors. Up to 6 cohorts of 1-6 or 3-6 patients each will be treated in the study.
New York Esophageal Squamous Cell Carcinoma 1 (NY-ESO-1) is a Cancer-Testis Antigen (CTA) which is expressed in various tumors. After selected the high affinity TCR gene to NY-ESO-1, the researchers insert genes into the cell that expressing a kind of protein that targeting NY-ESO-1. Then the engineered cells are re-infused in the patients with tumors for curing the tumor patient or prolonging life.
The main purpose of this study is to compare the clinical benefit, as measured by Progression-Free Survival (PFS) and Overall Survival(OS), achieved by HX008 Plus Transcatheter Arterial Chemoembolization (TACE) or Temozolomide Plus Transcatheter Arterial Chemoembolization (TACE) in the First-Line Treatment of Subjects With Stage IV (M1c) Melanoma That is Metastatic to the Liver.
This is a first-in-human (FIH) Phase I, multi-center, open-label, study of AZD9592, in patients with advanced solid tumors. The study consists of several study modules, each evaluating the safety, tolerability, preliminary efficacy, pharmacokinetics (PK), pharmacodynamics, anti-tumor activity, and immunogenicity of AZD9592, as monotherapy or in combination with anti-cancer agents.
ASP2074 is a potential new treatment for people with certain solid tumors. Before ASP2074 is available as a treatment, the researchers need to understand how it is processed by and acts upon the body. This information will help find a suitable dose and check for potential medical problems from the treatment. People in this study will be adults with metastatic or locally advanced solid tumors. Metastatic means the cancer has spread to other parts of the body. They will have been previously treated with all available standard therapies and they may no longer be benefitting from further treatment. There are 2 main aims of this study. The first is to learn if people with certain solid tumors have any medical problems after receiving different doses of ASP2074. The second is to find a suitable dose of ASP2074 to use in future studies. This study will be in 2 parts. In Part 1, different small groups of people will receive lower or higher doses of ASP2074. Any medical problems will be recorded at each dose. This is done to find suitable doses of ASP2074 to use in Part 2 of the study. The first group will receive the lowest dose of ASP2074. A medical expert panel will check the results from this group and decide if the next group can receive a higher dose of ASP2074. The panel will do this for each group until all groups have taken ASP2074 or until suitable doses have been selected for Part 2. In Part 2, other different small groups of people will receive ASP2074 with the most suitable doses worked out from Part 1. This will help find a more accurate dose of ASP2074 to use in future studies. ASP2074 will be given as an infusion on the first day of each treatment cycle. The people in this study will have treatment cycles until: they have medical problems from the treatment; their cancer gets worse; they start other cancer treatment; they ask to stop treatment; or they do not come back for treatment. People will visit the clinic on certain days during their treatment, with extra visits during the first 2 cycles of treatment. During these visits, the study doctors will check for any medical problems from ASP2074. At some visits, other checks will include a medical examination, laboratory tests and vital signs. Vital signs include temperature, pulse, and blood pressure. Also, blood and urine samples will be taken. Electrocardiograms will be done to check the heart rhythm during the study. Tumor samples will be taken during certain visits before treatment begins, during treatment, and when treatment has finished. People will visit the clinic within 7 days after stopping treatment. The study doctors will check for any medical problems from ASP2074. Other checks will include a medical examination, laboratory tests and vital signs. Then, people may visit the clinic at 30 days after stopping treatment. Thirty and 90 days after the last dose, the study doctors will check for any medical problems from ASP2074. People will have their vital signs checked and have some laboratory tests. After this, people will continue to visit the clinic every 6 weeks. This is to check the condition of their cancer. They will do this until their cancer is worse, they start other cancer treatment, they ask to leave the study, or they do not come back for treatment. Then, the study doctors will call every 12 weeks for up to 1 year or until that person asks to leave the study, the study is stopped, or the person cannot be reached.
The goal of this study is to determine whether a palliative care intervention (PEACE) can improve the quality of life and experiences of participants with Lymphoma, Leukemia, or Multiple Myeloma receiving adoptive cellular therapy (ACT). After completion of an open pilot, participants will be randomly assigned into one of two study intervention groups. The names of the study intervention groups involved in this study are: - Palliative care (PEACE) plus usual oncology care - Usual care (standard oncology care) Participation in this research study is expected to last for up to 2 years. It is expected that about 90 people will take part in this research study.
This is a single-centre, single-arm and open-label study to investigate the safety and efficacy of JD010 in adult patients with relapsed or refractory B cell hematologic malignancies. JD010 injection is a CD19-targeted chimeric antigen receptor modified natural killer cells (CAR-NK) derived from a healthy donor
The purpose of the study is to find out the usefulness and safety of a dye called Indocyanine Green (ICG for short). This dye will be used to help the surgeon find lymph nodes draining solid tumors inside the abdomen that need to be removed. This may also help the surgeon to find if the cancer has moved to other lymph nodes outside of the known area. Primary Objectives - To determine the percentage of patients in whom Indocyanine Green (ICG)-guided sentinel lymph node (SLN) mapping was successful at the time of retroperitoneal lymph node dissection for staging of visceral solid tumors. - To determine the percentage of patients with grade 3 or more adverse events.
Rare diseases generally refer to diseases whose prevalence rate is lower than 1 / 10 000 and the number of patients is less than 140000. Rare diseases are generally faced with the dilemma of a lack of qualified doctors, difficulty in large-scale screening, and a lack of rapid and effective channels for medical treatment. Studies have shown that 42% of patients say they have been misdiagnosed, and each patient with a rare disease needs to go through an average of eight doctors in seven years to see a corresponding rare disease specialist. More importantly, most rare diseases seriously affect the health and quality of life of patients. The ocular surface malignant tumor is a typical rare disease, and its incidence is less than 1 / 100000. The ocular surface not only affects the patient's appearance, but also damages the visual function, and the malignant tumor may even affect life. These uncommon malignant tumors are often hidden in the common black nevus on the eye surface, which is easy to be ignored and has great potential risks. With the improvement of people's living standards, people start to pay attention to rare diseases. In recent years, the rapid development of digital technology has also provided new opportunities for the prevention and treatment of rare diseases. Our team established the database of rare ophthalmopathy in China in the early stage, which provided a solid foundation for the digitization of precious clinical data. This study intends to develop an intelligent screening system for ocular surface malignant tumors, using the mobile phone for real-world verification and scale screening, and explore it to improve the ability of doctors to diagnose and treat rare diseases. This study is expected to improve the ability to screen malignant tumors on the ocular surface and provide a novel model for the universal screening of rare diseases.