Brain Tumor, Recurrent Clinical Trial
Official title:
Phase I Study of Intracranial Injection of T Cells Expressing HER2-specific Chimeric Antigen Receptors (CAR) in Subjects With HER2-Positive Tumors of the Central Nervous System (iCAR)
This study is for patients that have brain cancer. The body has different ways of fighting infection and disease. No single way seems perfect for fighting cancers. This research study combines two different ways of fighting cancer: antibodies and T cells. Antibodies are types of proteins that protect the body from infectious diseases and possibly cancer. T cells, also called T lymphocytes, are special infection-fighting immune cells present in the blood that can kill other cells, including cells infected with viruses and tumor cells. Both antibodies and T cells have been used to treat patients with cancers. They have shown promise, but have not been strong enough to cure most patients. The antibody used in this study is called anti-HER2 (Human Epidermal Growth Factor Receptor 2). This antibody sticks to tumor cells because of a substance on the outside of these cells called HER2. Many types of brain tumors are positive for HER2 . HER2 antibodies have been used to treat people with HER2-positive cancers. For this study, the HER2 antibody has been changed so that instead of floating free in the blood it is now attached to T cells. When an antibody is joined to a T cell in this way it is called a chimeric antigen receptor (CAR). These CAR-T cells seem to be able to kill tumors like the one these patients have, but they don't last very long and so their chances of fighting the cancer are limited. Therefore, developing ways to prolong the life of these T cells should help them fight cancer. These HER2-CAR T cells are an investigational product not approved by the Food and Drug Administration. The purpose of this study is to find the largest safe dose of HER2-CAR T cells, to learn what the side effects are, and to see whether this experimental intervention might help patients with brain tumors who volunteer to test this new agent.
First, to find out if HER2 is expressed in the patient's brain cancer, the investigators will need to obtain the tissue block or tissue specimen that was used to make the original diagnosis. If there is enough material, investigators may also look for other proteins that may be targets for this sort of immune therapy in the future. Up to 90mls (18 tsp) of blood will be drawn on two occasions for a total of 180mls (36tsp). The total amount of blood drawn will not be more than 3 ml (less than 1 teaspoon) per 2.2 lbs of body weight. To make HER2 CAR T cells the investigators will introduce the HER2 CAR gene into patient's T cells. To get the HER2 antibody to attach to the surface of the T cells, investigators will insert the antibody gene into the T cells. This is done with a virus called a retrovirus that has been made for this study and will carry the antibody gene into the T cell. This virus also helps the investigators find the T cells in patient's blood after they inject them. Most of the cells generated will be frozen and stored to give back to the patient. This is a dose escalation study. This means that at the beginning, patients will be started on the lowest dosing schedule (1 of 3 different levels) of T cells. Once that dose schedule proves safe, the next group of patients will be started at a higher schedule. This process will continue until all 3 dose schedules are studied. If the side effects are too severe, the dose will be lowered or the T-cell infusions will be stopped. The patient will be given three injections of cells two weeks apart into a special catheter that a neurosurgeon will implant into the tumor or the cavity left in the brain after surgical removal or into the fluid-filled space in your brain. The first injection of cells you receive will be the lowest dose. The subsequent injections, depending on the patient's assigned dosing schedule, may be higher than the first. Before the patient receives each injection, they may be given a dose of Tylenol. Each injection will take between 1 and 10 minutes. The patient will be admitted for overnight observation after each T-cell injection. Injections of T cells will be given by the Center for Cell and Gene Therapy at Texas Children's Hospital or Houston Methodist Hospital. If the patient has stable disease (the tumor did not grow), a reduction in the size of the tumor on imaging studies, or unconfirmed progressive disease, but health status is stable after the start of T-cell injections (at least 6 weeks after), they can receive additional doses of the T cells at 2 to 4 week intervals if they wish. Additional doses of T cells will be given at the highest cell dose the patient receives during the initial three cell infusions. Therefore, the dose the patient receives for additional doses may be higher than the initial dose they received. Before being treated, the patient will receive a series of standard medical tests: physical exam, blood tests to measure blood cells, kidney and liver function,' pregnancy test if the patient is a female who could potentially become pregnant or might be pregnant, measurements of patient's tumor by routine imaging studies. The patient will receive standard medical tests when they are getting the infusions and after: physical exams, blood tests to measure blood cells, kidney and liver function, measurements of patient's tumor by routine imaging studies 6 weeks after the infusion. To learn more about the way the HER2-CAR T cells are working and how long they last in the body, an extra amount of blood, based on patient's weight, up to a maximum of 60 mL (12 teaspoons) of blood will be taken on the day of the T-cell infusion (before and 1 to 4 hours after the T-cell infusion), 3-4 days after the infusion (this one is optional), 1, 2, 4 and 6 weeks after the T-cell infusion and every 3 months for 1 year, every 6 months for 4 years, then yearly for a total of 15 years. This volume is considered safe, but may be decreased if the patient is anemic. This sample will be kept in a coded manner so that only the study staff may identify the patient. During the time points listed above, if the T cells are found in patient's blood at a certain amount, an extra 5ml of blood may need to be collected for additional testing. To see if there are any long-term side effects of gene transfer, the investigators will follow the patient up to 15 years. If the patient receives additional T-cell infusions after the first one, s/he will have the same tests and blood draws as described above. If the patient has a tumor biopsy or lumbar puncture to obtain CSF performed any time while s/he are on the study, a sample of this will be requested for research purposes. If the patient develops a second abnormal growth, significant blood or nervous system disorder during the trial, a biopsy sample of the tissue will be tested for research purposes (if a sample can be obtained). ;
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Recruiting |
NCT06057168 -
Performance of Elucirem® in DSC-MRI Perfusion of Brain Gliomas
|
Phase 3 | |
| Recruiting |
NCT04427384 -
Registry of Patients With Brain Tumors Treated With STaRT (GammaTiles)
|
||
| Completed |
NCT01967810 -
ANG1005 in Patients With Recurrent High-Grade Glioma
|
Phase 2 | |
| Not yet recruiting |
NCT01445691 -
More Complete Removal of Malignant Brain Tumors by Fluorescence-Guided Surgery
|
Phase 2 | |
| Completed |
NCT02303678 -
D2C7 for Adult Patients With Recurrent Malignant Glioma
|
Phase 1 | |
| Recruiting |
NCT02800486 -
Super Selective Intra-arterial Repeated Infusion of Cetuximab (Erbitux) With Reirradiation for Treatment of Relapsed/Refractory GBM, AA, and AOA
|
Phase 2 | |
| Completed |
NCT00179907 -
A Phase I/II Study of the Photon Radiosurgery System
|
Phase 1/Phase 2 | |
| Completed |
NCT01682746 -
Photodynamic Therapy (PDT) for Recurrent Pediatric Brain Tumors
|
Phase 1 | |
| Withdrawn |
NCT04776980 -
Multimodality MRI and Liquid Biopsy in GBM
|
Early Phase 1 | |
| Completed |
NCT03262636 -
Two-Part Study to Evaluate the Safety and Efficacy of Image Guided Surgery Using Indocyanine Green for Intramolecular Imaging of Nervous System Tumors Compared to Standard of Care, (TumorGlow)
|
Phase 1 | |
| Terminated |
NCT01966809 -
Photodynamic Therapy (PDT) For Recurrent High Grade Gliomas
|
Phase 2 | |
| Completed |
NCT02458339 -
Methotrexate Infusion Into Fourth Ventricle in Children With Recurrent Malignant Fourth Ventricular Brain Tumors
|
Phase 1 | |
| Not yet recruiting |
NCT03763396 -
Azoles Targeting Recurrent High Grade Gliomas
|
Early Phase 1 | |
| Active, not recruiting |
NCT04525014 -
RRx-001 Given With Irinotecan and Temozolomide for Pediatric Patients With Recurrent or Progressive Malignant Solid and Central Nervous System Tumors
|
Phase 1 | |
| Completed |
NCT00141765 -
Study of High-Dose Chemotherapy With Bone Marrow or Stem Cell Transplant for Rare Poor-Prognosis Cancers
|
Phase 2 | |
| Recruiting |
NCT05629702 -
ARISTOCRAT: Blinded Trial of Temozolomide +/- Cannabinoids
|
Phase 2 | |
| Completed |
NCT02644460 -
Abemaciclib in Children With DIPG or Recurrent/Refractory Solid Tumors
|
Phase 1 | |
| Completed |
NCT01520870 -
Safety and Efficacy of PF-299804 (Dacomitinib), a Pan-HER Irreversible Inhibitor, in Patients With Recurrent Glioblastoma With EGFR Amplification or Presence of EGFRvIII Mutation. A Phase II CT.
|
Phase 2 | |
| Completed |
NCT02238496 -
Perifosine and Torisel (Temsirolimus) for Recurrent/Progressive Malignant Gliomas
|
Phase 1 | |
| Active, not recruiting |
NCT04074785 -
Abemaciclib w/Bevacizumab in Recurrent GBM Pts w/Loss of CDKN2A/B or Gain or Amplification of CDK4/6
|
Early Phase 1 |