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.
- A Phase 1 Study of BBO-10203 in People With Advanced Solid Tumors
Full Title A Phase 1a/1b Study of the PI3Ka:RAS Breaker BBO-10203 in Subjects with Advanced Solid Tumors
Purpose
Researchers want to find the best dose of BBO-10203 to use in people with advanced solid tumors. The people in this study have one of these types of cancer that has spread (metastasized):
- Breast cancer that makes an excess amount of the HER2 protein.
- Breast cancer that is negative for HER2 but is fueled by estrogen and/or progesterone.
- Non-small cell lung cancer (NSCLC) with a mutation (change) in the KRAS gene.
- Colorectal cancer with a KRAS mutation.
BBO-10203 may slow or stop cancer growth by blocking the interaction between two proteins. It is taken orally (by mouth).
Who Can Join
To join this study, there are a few conditions. You must:
- Have one of the cancers listed above that continues to grow despite treatment.
- Have recovered from the serious side effects of prior therapies before taking BBO-10203.
- Be well enough to walk and take care of yourself. You must be able to do activities such as office work or light housework.
- Be age 18 or older.
Contact
For more information or to see if you can join this study, please call Dr. Komal Jhaveri’s office at 646-888-4226.
Protocol
25-038Phase
Phase I (phase 1)Disease Status
Newly Diagnosed & Relapsed/RefractoryInvestigator
Co-Investigators
Diseases
Locations
ClinicalTrials.gov ID
NCT06625775ClinicalTrials.gov
-
Researchers want to see if combining AZD0901 and rilvegostomig with standard chemotherapy works well in people with gastric or gastroesophageal junction (GEJ) cancer. GEJ cancer occurs where the esophagus joins the stomach.
-
Researchers are assessing GC012F (AZD0120) in people with multiple myeloma that came back or keeps growing after treatment. In the first part of this study, researchers will find the best dose of GC012F to use in patients. In the second part of the study, they will assess this dose to treat advanced multiple myeloma.
-
Researchers are doing this study to find the best dose of ziftomenib to give with standard chemotherapy in children and young adults with acute leukemia. The people in this study have acute leukemia that keeps growing or came back after treatment. In addition, their cancers have a mutation (change) in the KMT2A, NUP98, or NPM1 genes.
-
Researchers want to see if ficerafusp alfa plus pembrolizumab is safe and works well against head and neck cancer. They will assess different doses of ficerafusp alfa to find the best one. The people in this study have head and neck squamous cell carcinoma. Their cancers have come back or metastasized (spread) after treatment.
-
Researchers want to learn how well zelenectide pevedotin works against advanced breast cancer. The people in this study have breast cancer that has come back, spread, or cannot be surgically removed. Their cancers are hormone receptor positive/HER2-negative or are triple negative. In addition, their tumor cells have an amplification (too many copies) of a gene called Nectin4.
-
Researchers want to see if a test for cancer DNA in the blood helps doctors decide whether to reduce Hodgkin lymphoma chemotherapy. The blood test is a circulating tumor DNA (ctDNA) test called Foresight CLARITY. ctDNA is genetic material released by tumor cells directly into the bloodstream.
-
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).
-
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.
-
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.