Studying the Biology of Higher-Grade Transformation in IDH-mutant Gliomas Via Longitudinal Observation of Tumor Metabolic Reprogramming Using Non-invasive Metabolic Imaging
Overview
- Phase
- Phase 2
- Intervention
- HP 13C Pyruvate
- Conditions
- Glioma
- Sponsor
- National Cancer Institute (NCI)
- Enrollment
- 42
- Locations
- 1
- Primary Endpoint
- To monitor the quantitative levels of 2-hydroxyglutarate (2-HG) longitudinally in patients with IDH mutant gliomas via proton magnetic resonance spectroscopy (1H-MRS)
- Status
- Suspended
- Last Updated
- 18 days ago
Overview
Brief Summary
Background:
Glioma is a type of brain cancer. Some of these tumors have gene mutations. These mutations can cause a substance called 2-HG to build up in the brain. This makes the tumors more aggressive. Researchers want to better understand 2-HG buildup in the brain. They hope this can help them design better ways to test for gliomas.
Objective:
To monitor the level of 2-HG in the brains of people with gliomas that have mutations in the IDH1 or IDH2 genes.
Eligibility:
People ages 18 and older with gliomas with mutations in the IDH1 or IDH2 genes
Design:
Participants will be screened with:
Medical and cancer history
Physical exam
Reviews of their symptoms and ability to perform normal activities
Blood and urine tests
MRI scan
Samples of their tumor from a past surgery
Documentation of their diagnosis and mutation status
Participants will have an initial evaluation. This will include repeats of screening tests. It will also include:
Neurological exam
MRS and MRI scans of the brain: Participants will lie on a table that slides into a metal cylinder. A coil or soft padding will be placed around their head. They will have a contrast agent injected into a vein. Pictures will be taken of the brain.
Participants will have follow-up visits every 2-6 month for the rest of their life. Visits will include scans.
Detailed Description
Background: * Glioma is the most common malignant brain tumor. Genes coding for isocitrate dehydrogenase (IDH), a metabolic enzyme, are frequently mutated in gliomas, particularly lower-grade gliomas (LGGs). IDH mutation causes a unique tumor biology, including the accumulation of 2-hydroxyglutarate (2-HG), an oncometabolite, which in turn causes genomic hypermethylation and tumorigenesis. * Despite having a better prognosis compared to their IDH WT counterparts, IDH-mutant LGGs undergo a slow but unremitting higher-grade transformation (HT) and eventually become high grade gliomas (HGGs). A subset of patients with transformed HGGs develop a hypermutator phenotype (HMP), possibly related to previous treatment with alkylating agents. The timeline for the development of HT and HMP is unpredictable and there is no known way to prevent them from happening, largely due to a lack of understanding their biological mechanisms and lack of a non-invasive approach for potential early detection. * Metabolic imaging, including proton magnetic resonance spectroscopy (MRS) and hyperpolarized (HP) 13C-Pyruvate MRSI, can safely detect the in vivo metabolic changes in humans. * This clinical study will allow a longitudinal monitoring of participants with IDH-mutant gliomas for detection of disease progression, which is associated with metabolic alterations, provide an unprecedented opportunity for biopsy of the tumor for diagnostic confirmation and interrogation of the mechanisms of HT and HMP, and potentially providing a specific treatment approach for HMP which has been refractory to conventional brain tumor treatments. Objective: To detect and monitor the quantitative levels of 2-HG and lactate/pyruvate ratio longitudinally in participants with IDH-mutant gliomas via proton MRS and HP 13C pyruvate MRSI, respectively Eligibility: * Participant has glioma harboring IDH1 or IDH2 mutation confirmed by DNA sequencing. * Age \>=18 years, KPS \>= 70% Design: * This is a prospective observational study. We will recruit up to 270 eligible participants in the next 5 years. * The relationship between the occurrence of HT and the changes in 2-HG level and the ratio of lactate/pyruvate will be evaluated using the proportional hazard model with the latter as the time-dependent covariates.
Investigators
Eligibility Criteria
Inclusion Criteria
- •INCLUSION CRITERIA:
- •Participants must have histologically confirmed diffuse glioma with documented IDH1 or IDH2 mutation, confirmed by DNA sequencing the exception will be participants with brain lesions that are not safe for biopsy but clinically suspected to be diffuse glioma are allowed to enroll to the study to receive imaging study as part of the exploratory study
- •Participants must have measurable disease.
- •Age \>=18 years. Tumor biology of IDH-mutant gliomas are different in pediatric tumors. Therefore, children will be excluded from the study.
- •Karnofsky performance \>= 70%.
- •Participants must have documented normal kidney function as defined below:
- •Creatinine within normal institutional limits
- •Creatinine clearance \>60 mL/min/1.73 m2 for Participants with creatinine levels above institutional normal (Measured or calculated creatinine clearance
- •Participants must have adequate liver function as defined below:
- •total bilirubin \<=2x ULN (ULN 1.3 mg/dl) except for participants with Gilbert Syndrome
Exclusion Criteria
- •Participants who have contraindication to MRI examination, including, but not limited to, unable to receive gadolinium, medical instability, or any contraindication on MR Screening Form. Pregnant individuals are excluded because MRI contrast, planned to be used on this study, may be dangerous for the fetus. Because there is an unknown but potential risk for adverse events in nursing infants secondary to using of MRI contrast, breastfeeding should be discontinued for 72 hours following study imaging.
- •Participants weighing \> 350 lbs. (weight limit for scanner table), or unable to fit within the imaging gantry
- •Poorly controlled hypertension, with blood pressure \>150/90 mmHg.
- •Congestive heart failure with New York Heart Association (NYHA) status \>
- •A medical history of clinically significant EKG abnormalities, including QT prolongation, a family history of prolonged QT interval syndrome, or myocardial infarction (MI) less than 1 year ago with ensuing unstable EKG.
- •Ongoing acute or chronic pulmonary bronchospastic disease, including a history of chronic obstructive pulmonary disease or asthma with an exacerbation within the past year.
Arms & Interventions
3/Arms 3
Monitoring of quantitative levels of 2-hydroxyglutarate (2-HG) via proton magnetic resonance spectroscopy (1H-MRS)
Intervention: HP 13C Pyruvate
3/Arms 3
Monitoring of quantitative levels of 2-hydroxyglutarate (2-HG) via proton magnetic resonance spectroscopy (1H-MRS)
Intervention: 3T MRI scanner
1/Arm 1
Monitoring of quantitative levels of 2-hydroxyglutarate (2-HG) via proton magnetic resonance spectroscopy (1H-MRS) -- THIS ARM IS NOW CLOSED
Intervention: 3T MRI scanner
2/Arm 2
Monitoring of quantitative levels of 2-hydroxyglutarate (2-HG) via proton magnetic resonance spectroscopy (1H-MRS) and HP 13C pyruvate MRSI
Intervention: 3T MRI scanner
Outcomes
Primary Outcomes
To monitor the quantitative levels of 2-hydroxyglutarate (2-HG) longitudinally in patients with IDH mutant gliomas via proton magnetic resonance spectroscopy (1H-MRS)
Time Frame: 5 years
Changes in the level of 2-HG correlate with the occurrence of higher-grade transformation (HT) and/or development of hypermutator phenotype (HMP) in patients with IDH-mutant gliomas
Secondary Outcomes
- Determine the utility of 2-HG detection by 1H-MRS to predict higher-grade transformation (HT) and hypermutator phenotype (HMP) by correlating the 2-HG level with pathological diagnosis and tumor mutational load of the tumor tissue at time of rec...(at clinical disease recurrence)