View clinical trials related to Solid Tumors.
Filter by:This is a Phase 1/2A, open label, multicenter, nonrandomized, multiple dose, safety, tolerability, pharmacokinetic and pharmacodynamic study of PF-07220060 administered as a single agent and then in combination with endocrine therapy.
Background: Many digital devices, such as smartphones and activity monitors, have sensors to collect and track health data. Researchers believe these devices may be able to transform the quality of clinical research and healthcare. They believe they may be able to help assess the symptoms, response to therapy, and quality of life of people with cancer. Objective: To collect data from people with cancer using an Apple iPhone alone or together with an Apple Watch in order to assess their symptoms and activity levels. Eligibility: People ages 18 years and over who have cancer and receiving treatment for their cancer in another NIH protocol Design: Participants will be screened with their medical records. Participants will have a baseline visit. They will have visits every 2 4 weeks based on the treatment protocol in which they are co-enrolled. Then they will have a follow-up visit 4 months after the baseline visit. Visits include: Medical history Physical exam Karnofsky Performance Scale/Eastern Cooperative Oncology Group performance status to see how their disease affects daily activities The study team will use an iPhone to collect data. This includes a 6-minute walk test and tests of hearing, reaction time, and cognitive status. Questionnaires If participants have an iPhone, an Apple Watch will be provided to them after training at the baseline visit. Continuous measurement of their activity will be recorded by the watch between 2 visits. They will wear the watch while they are on study. They will wear the watch while it is not being charged. They should charge the watch at night time. They will have the watch for 4 months.
Background: Cancer pain can have a very negative effect on people s daily lives. Researchers want to use machine learning to detect facial expressions and voice signals. They want to help people with cancer by creating a model to measure pain. They want the model to reflect diverse faces and facial expressions. Objective: To find out whether facial recognition technology can be used to classify pain in a diverse set of people with cancer. Also, to find out whether voice recognition technology can be used to assess pain. Eligibility: People ages 12 and older who are undergoing treatment for cancer Design: Participants will be screened with: Cancer history Information about their gender and skin type Information about their access to a smart phone and wireless internet Questions about their cancer pain Participants will have check-ins at the clinic and at home. These will occur over about 3 months. They will have 2-4 check-ins at the clinic. They will check in at home about 3 times per week. During check-ins, participants will answer questions and talk about their cancer pain. They will use a mobile phone or a computer with a camera and microphone to complete a questionnaire. They will record a video of themselves reading a 15-second passage of text and responding to a question. During the clinic check-ins, professional lighting, video equipment, and cameras will be used for the recordings. During remote check-ins, participants will be asked to complete the questionnaire and recordings alone. They should be in a quiet and bright room. The room should have a white wall or background. ...
The purpose of this study is to evaluate the safety, tolerability, drug-levels, drug-effects and preliminary anti-tumor activity of DF6002 alone and in combination with Nivolumab in participants with advanced solid tumors.
This is a Phase 1 study of JSI-1187 as monotherapy and in combination with dabrafenib for the treatment of advanced solid tumors with MAPK pathway mutations, including mutations that cause MAPK pathway hyperactivation.
Some solid tumors make a lot of a protein called glypican 3(GPC3), which helps it to grow. Healthy cells and tissues do not make GPC3. TAK-102 is a medicine that sticks to GCP3 and stops it from working. It is hoped that TAK-102 will eventually treat people with solid tumors with the GPC3 protein. TAK-102 will be added to each person's white blood cells so is custom-made for each person. In this study, people with solid tumors with GPC3 will receive TAK-102 with their white blood cells. The main aims of this study are to check if the participants get any side effects from treatment with TAK-102 and to check how much TAK-102 they can receive without getting side effects from it. Researchers can then work out the best dose of TAK-102 to give to participants in future studies. At the first visit, the study doctor will check who can take part. For those who can take part, the study doctors will collect white blood cells from each participant. These cells are sent to the laboratory where TAK-102 is added to each participant's cells. This can take up to 4 weeks. Participants will receive specific treatments while they are waiting for TAK-102. Then, participants will receive TAK-102 with their cells slowly through a vein (infusion). 3 different small groups of participants will receive lower to higher doses of TAK-102. Each participant will just receive 1 dose. The study doctors will check for side effects after each different dose of TAK 102. In this way, researchers can work out the best dose of TAK-102 to give to participants in future studies. Participants will stay in hospital for 28 days or longer for their treatment. Then, they will visit the clinic for regular check-ups for up to 36 months.
A Phase I, Open-Label study designed to assess the pharmacokinetics (PK), safety and tolerability of ipatasertib in Chinese participants. Approximately 20 Chinese participants (12 PK-evaluable participants) with locally advanced or metastatic solid tumors for whom standard therapy either does not exist or has proven ineffective will be enrolled to provide sufficient data. Participants will receive a 400-mg ipatasertib dose (two 200-mg tablets) daily orally (PO). Participants deriving clinical benefit may be offered continued treatment with ipatasertib until disease progression, at the discretion of the investigator (as assessed by the investigator) or until the study is terminated by the Sponsor.
A pilot pharmacokinetic trial to determine the safety and efficacy of a flavored, orally administered irinotecan VAL-413 (Orotecan®) given with temozolomide for treatment of recurrent pediatric solid tumors including but not limited to neuroblastoma, rhabdomyosarcoma, Ewing sarcoma, hepatoblastoma and medulloblastoma
This is an entry-into-human study and will assess the effects of eciskafusp alfa (RO7284755) as a single agent and in combination with atezolizumab in adult participants with solid tumors considered responsive to checkpoint inhibition blockade. The maximum duration in the study for each participant will be up to 28 months.
The purpose of this study is to estimate the maximum tolerated dose (MTD)/ recommended phase 2 dose (RP2D) regimen and characterize the pharmacokinetics (PK) of brigatinib monotherapy (film-coated tablets and age-appropriate formulation [AAF]) administered orally once daily (QD) in pediatric and young adult participants in Phase 1 and to define the efficacy of brigatinib administered as monotherapy within the disease-specific expansion arms (unresectable/recurrent anaplastic lymphoma kinase positive (ALK+) inflammatory myofibroblastic tumor (IMT); relapsed/refractory ALK+ anaplastic large cell lymphoma (ALCL) in Phase 2.