CI

At a glance

ClinicalIndex Comparison Record
Phase 1Recruiting· 56 target
Drug / intervention
C7R-GD2.CART cells (IV and ICV infusion) +1 moregenetic
Likely dose
Not stated in record
Key inclusion· 10
  • Newly diagnosed or recurrent/refractory/progressive GD2-expressing DMG/HGG with possible H3K27 alteration confirmation
  • Recurrent/refractory/progressive high-grade CNS tumors with GD2-expression including medulloblastoma, embryonal tumors, AT/RT, ependymal tumors, diffuse gliomas, glioneuronal tumors
  • Pontine HGG recurrent/refractory/progressive with GD2-expression or H3K27-altered DMG (Cohort 2)
  • Tumor <5cm maximum dimension; up to 5.5cm if surgically debulked
Key exclusion· 5
  • Pregnant or breast feeding
  • Other risk factors making investigational agent administration not in patient's best interest per investigator
  • Prior immunotherapy ≤42 days before investigational agent
  • Colony-stimulating factors within 14 days prior to lymphodepletion

Standardized by ClinicalIndex from the ClinicalTrials.gov record · verify against the source.

Search/NCT04099797
NCT04099797Phase 1RecruitingOn TrackUpdated 2mo ago
Long Recruiting

Phase I Study of Autologous T Lymphocytes Expressing GD2-specific Chimeric Antigen and Constitutively Active IL-7 Receptors for the Treatment of Patients With GD2-expressing Brain Tumors (GAIL-B)

Baylor College of Medicine·interventional·Posted Sep 23, 2019·Updated Apr 27, 2026

In Brief

A Phase 1 clinical trial evaluating C7R-GD2.CART cells (IV and ICV infusion) for Diffuse Intrinsic Pontine Glioma and 3 related conditions. Currently recruiting, targeting 56 participants across 1 site.

Detailed Summary

In this study, there are two treatment groups called Cohort 1 and Cohort 2. Cohort 1 is for patients with diffuse midline glioma, diffuse intrinsic pontine glioma, medulloblastoma, or another rare high-grade glioma that expresses GD2. Cohort 2 is for patients with a type of cancer called progressive diffuse intrinsic pontine glioma that expresses GD2. Because there is no standard treatment at this time, patients are asked to volunteer in a gene transfer research study using special immune cells called T cells. T cells are a type of white blood cell that help the body fight infection. This research study combines two different ways of fighting cancer: antibodies and T cells. Both antibodies and T cells have been used to treat cancer patients. They have shown promise but have not been strong enough to cure most patients. Researchers have found from previous research that they can put a new antibody gene into T cells that will make them recognize cancer cells and kill them. GD2 is a protein found on several different cancers. Researchers testing brain cancer cells found that many of these cancers also have GD2 on their surface. In a study for neuroblastoma in children, a gene called a chimeric antigen receptor (CAR) was made from an antibody that recognizes GD2. This gene was put into the patients own T cells and given back to 11 patients. The cells did grow for a while but started to disappear from the blood after 2 weeks. The researchers think that if T cells are able to last longer they may have a better chance of killing tumor cells. In this study, a new gene will be added to the GD2 T cells that can potentially cause the cells to live longer. T cells need substances called cytokines to survive. The gene C7R has been added that gives the cells a constant supply of cytokine and helps them to survive for a longer period of time. In other studies using T cells researchers found that giving chemotherapy before the T cell infusion can improve the amount of time the T cells stay in the body and therefore the effect the T cells can have. This is called lymphodepletion and it will allow the T cells to expand and stay longer in the body and potentially kill cancer cells more effectively. After treating 11 patients, the largest safe dose of GD2-CAR T cells given in the vein (IV) was determined. We are now combining an IV infusion with an infusion directly into the brain through the Ommaya reservoir or programmable VP shunt. The goal is to find the largest safe dose of GD2-C7R T cells that can be administered in this way. Patients will now be assigned to Cohort 1 and 2 based on their tumor type. The GD2.C7R T cells are an investigational product not approved by the FDA. The purpose of this study is to combine infusions into the vein in the first treatment cycle with infusions directly into the cerebrospinal fluid (CSF) in the brain (intracerebroventricularly) through the ommaya reservoir or programmable VP shunt for infusions cycles 2-24. The goal is to find the largest safe dose of GD2-C7R T cells that can be administered in this way, and additionally to evaluate how long they can be detected in the blood and CSF and what affect they have on brain cancer.

Study Details

Timeline

Phase 1Recruiting
2020202120222023202420252026202720282029203020312032203320342035203620372038203920402041
First PostedSep 23, 2019
Enrollment StartFeb 3, 2020
Primary CompletionFeb 1, 2027
Study CompletionFeb 1, 2041
TodayJul 2, 2026
Enrollment to primary: 7.0 yearsPosted 6.8 years agoPrimary completion in 7 months

Interventions

C7R-GD2.CART cells (IV and ICV infusion)genetic

Dose levels administered are by IV infusion followed by ICV infusion. Cycle 1: 20 million cells/m2 delivered IV with lymphodepletion. Cycle 2 (and subsequent cycles): Dose level 1: 5 million cells ICV with lymphodepletion. Dose level 2: 10 million cells ICV with lymphodepletion. Dose level 3: 15 million cells ICV with lymphodepletion

C7R-GD2.CART cells (IV and ICV infusion)genetic

Dose levels administered are by IV infusion followed by ICV infusion. Cycle 1: 20 million cells/m2 delivered IV with lymphodepletion. Cycle 2 (and subsequent cycles): Dose level 1: 5 million cells ICV with lymphodepletion. Dose level 2: 10 million cells ICV with lymphodepletion. Dose level 3: 15 million cells ICV with lymphodepletion