At any time Memorial Sloan Kettering Cancer Center is conducting hundreds of clinical trials to improve care for many types of cancer. Use the tool below to browse our clinical trials that are currently enrolling new patients. Each listing explains the purpose of the trial, the trial’s eligibility criteria, and how to get more information.
The list below includes clinical trials for adult cancers. Please visit our pediatric cancer care section to find a pediatric clinical trial.
Memorial Sloan Kettering offers language assistance services for those who prefer to receive health information in another language. Learn more about our language assistance program here.
Displaying 261–270 of 615 results.
-
The purpose of this study is to assess the feasibility of a new approach to treat people with T4 breast cancer who have already received chemotherapy. T4 breast cancer occurs when the cancer has grown beyond normal breast tissue and into the chest wall or skin or has become swollen and causes pain. Doctors normally treat T4 breast cancer with chemotherapy followed by mastectomy and removal of underarm (axillary) lymph nodes. After mastectomy, patients normally receive radiation therapy and then have breast reconstruction surgery many months to years after completing radiotherapy.
-
Limited metastatic colorectal cancer is cancer that has spread to no more than 4 parts of the body. The usual treatment for limited metastatic colorectal cancer is chemotherapy. In this study, researchers want to see if adding local therapies makes treatment work better. Local therapies are used to treat cancer only at specific sites.
-
The usual treatment for brain metastases (cancer that spread to the brain) is a single treatment of stereotactic radiosurgery (SRS). SRS uses special equipment to position the patient and precisely give a single large dose of radiation to a tumor.
-
In this study, researchers want to see if enzalutamide, alone or with mifepristone, works well against advanced breast cancer. The people in this study have either triple-negative breast cancer (TNBC) or cancer that is low in estrogen receptors (ER). Receptors are docking sites on cancer cells for hormones or other proteins. TNBC is breast cancer that is not fueled by estrogen or progesterone and does not make a protein called HER2. The people in this study also have cancer cells that have receptors for proteins called androgens (AR-positive cancers).
-
The purpose of this study is to find the highest dose of the investigational drug XMT-1660 that can be given safely in people with advanced triple-negative breast cancer (TNBC) that persists despite prior chemotherapy. TNBC includes breast cancers that do not contain receptors for estrogen or progesterone and do not have the HER2 protein, so they cannot be treated with medications that target those proteins.
-
People with multiple myeloma have a higher chance of getting infections because of the disease and its treatment. Some people who get a multiple myeloma drug called a bispecific monoclonal antibody (BsAb) develop hypogammaglobulinemia. The level of immunoglobulins in their blood is low and the risk of infection is high. Immunoglobulins are proteins made by the immune system to prevent infections.
-
Researchers want to find the best dose of BDTX-4933 to use in people with advanced lung cancer. The people in this study have non-small cell lung cancer that has a mutation (change or variant) in the BRAF or KRAS genes (KRAS non-G12C mutation). This mutation can cause cancer cells to grow.
-
This study is comparing two treatment regimens for advanced pancreatic cancer. The people in this study have pancreatic ductal adenocarcinoma that has metastasized (spread). They have not yet had treatment for advanced disease.
-
Researchers in this study are assessing the drug ACR-368 alone and in combination with increasing doses of low-dose gemcitabine in people with ovarian, endometrial, or urothelial (bladder) cancer that has come back despite prior treatment. ACR-368 works by stopping cancer cells from repairing damage to themselves and their DNA (genes). Gemcitabine damages the DNA inside cancer cells and prevents the cells from multiplying.
-
To learn more about the purpose of this study and to find out who can join, please click here to visit ClinicalTrials.gov for a full clinical trial description.