Thoracic surgeon Daniela Molena leads clinical trials to improve outcomes for people with esophageal cancers.
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.
Casdozokitug blocks an immune system protein called IL-27. By binding to and blocking IL-27, casdozokitug may help immune cells fight cancer. Toripalimab also helps the immune system fight cancer. Bevacizumab prevents the growth of new blood vessels that feed the cancer. All three drugs are given intravenously (by vein).
Researchers are comparing RMC-6236 with docetaxel for the treatment of lung cancer. The people in this study have non-small cell lung cancer (NSCLC) that has spread beyond its original location. In addition, their tumors have a mutation (change) in the RAS gene.
The purpose of this study is to assess the safety and effectiveness of treating rare advanced genitourinary cancers with the immunotherapies nivolumab and ipilimumab plus the drug cabozantinib.
Researchers want to find the best dose of INCB161734 to use in people with advanced cancer. The people in this study have solid tumors that have spread. In addition, their cancers have a genetic mutation (change) called KRAS G12D.
In this study, researchers want to find the highest dose of the investigational drug ORIC-944 that can be given safely in people with metastatic prostate cancer that continues to grow despite standard treatments. ORIC-944 works by blocking a group of proteins called PRC2, which promote prostate cancer growth. It is taken orally (by mouth).
Researchers are comparing ivonescimab with pembrolizumab immunotherapy for the initial treatment of advanced lung cancer. The people in this study have non-small cell lung cancer (NSCLC) that has metastasized (spread).
Radiation delivered to metastatic tumors is known to cause damage to the DNA (genetic information) in the cancer cells, which causes them to die. An ATM mutation reduces cancer cells' ability to fix damage to their DNA, making it more likely that the radiation will kill ATM-mutated cancer cells. Lower doses of radiation therapy may cause fewer side effects than standard doses. In this study, researchers will observe the side effects of reduced-dose radiation therapy in patients with metastatic tumors that contain an ATM mutation and the rate at which tumors grow back (recur) after this treatment. It is hoped that lowering the radiation dose will be effective while reducing the side effects of treatment.
Researchers are assessing JCAR017 in people with chronic lymphocytic leukemia (CLL) or small lymphocytic lymphoma (SLL). The people in this study have CLL or SLL that came back or keeps growing after treatment.
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.
The genetic and biochemical makeup of a tumor influences its aggressiveness and the choice of the most appropriate therapy. The purpose of this research study is to determine the genetic and biochemical makeup of neuroblastic tumors, including neuroblastoma, ganglioneuroblastoma, ganglioneuroma, and paraganglioma. These research studies will include analysis of substances called markers that exist on the surface of cancer cells; cytogenetic studies; the identification of genes related to the development of these cancers and to tumor growth; and studies of tumor growth in test tubes. Patients' blood and bone marrow will also be tested for the presence of tumor cells or leukemia cells.
