Glioma Clinical Trial
Official title:
A Pilot Study Using Amide Proton Transfer (APT) Magnetic Resonance Imaging to Distinguish Tumor Bearing Cancerous Tissue From Normal Tissue in Patients With Glioma.
Verified date | November 2019 |
Source | Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
This research is being done to study the pattern of changes in various parts of the magnetic
resonance imaging (MRI) studies that patients have done to help plan their radiation therapy
and to evaluate the effects of therapy.
The MRI of the brain is one of the major ways a participant's doctors determine how to treat
a participant's tumor and if the participant's tumor is growing or not. In this study the
investigators want to learn if new sequences added to the MRI that the investigators are
already getting to guide partipants' radiation treatment can be analyzed to help make better
treatment decisions. MRI sequences that examine the composition and structure of the tissues
in the brain in a different way will be obtained. These are called called Amide Proton
Transfer (APT) and Diffusion Weighted MRI.
These scans will first be performed at the time of participants' radiation plannings scan
done before treatment and near the end of the course of radiation treatments. This will allow
the study team to investigate if there are changes in these sequences before radiation
treatment and to see if using these MRI studies will allow us to better plan radiation
treatments for patients in the future. This pre-treatment scan will be done at the same time
as participants' standard radiation planning MRI, but will cause the scan to take longer.
Participants will also have an extra MRI during one of the last 5 days of the planned 28-33
radiation treatments that are standardly used. This additional scan will not include
administration of injected contrast agents, and would occur on a day when participants are
also coming in for radiation. This scan will be compared with the first scan. The
investigators will determine whether these changes may predict later long term outcome of
treatment for patients. Patients who enroll in this study will get all of the standard
therapy they would get for their tumor whether or not they participate in this study. There
is no extra or different therapy given.
The investigators anticipate that the radiation treatment volumes created using APT will
largely overlap with the conventional plan but will be distinct at the margins. Disease
failure is more likely to occur in areas with APT abnormalities suggestive of active tumor.
In patients that have failure outside the contrast enhancing area, the region of failure will
be predicted by regions of increased APT activity. Current MRI sequences do not allow for
prediction of regions of recurrence or progression, or distinguish between tumor, pressure,
or surgical injury as the cause of FLAIR/T2 abnormalities. Disease failure is more likely to
occur in areas with APT abnormalities suggestive of active tumor. In patients that have
failure outside the contrast enhancing area, the region of failure will be predicted by
regions of increased APT activity. Current MRI sequences do not allow for prediction of
regions of recurrence or progression, or distinguish between tumor, pressure, or surgical
injury as the cause of FLAIR/T2 abnormalities. Volume containing elevated APT signal may be
associated with outcome (survival). In an exploratory analysis, the investigators will
evaluate whether there are characteristic patterns that should be prospectively studied in a
larger trial.
Status | Terminated |
Enrollment | 13 |
Est. completion date | December 13, 2017 |
Est. primary completion date | December 13, 2017 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years to 100 Years |
Eligibility |
Inclusion Criteria: 1. Pathologically Confirmed Glioma after completion of planned biopsy or resection. High grade glioma histologies: - Glioblastoma - High Grade or Malignant Glioma - Anaplastic Astrocytoma - Anaplastic Oligodendroglioma - Gliosarcoma - Mixture of any of the above histologies Low Grade Histologies - Astrocytoma - Grade II or low grade glioma - Oligodendroglioma - Mixtures of the above histologies 2. Plan to undergo external radiation treatment as part of therapy 3. No prior therapeutic cranial radiotherapy 4. Can safely perform clinically indicated MRI (no contraindications to MRI with Gadolinium) as determined by the standard Johns Hopkins Radiation Oncology screening procedures, Exclusion Criteria: 1. Patients who cannot undergo MRIs. 2. Patients who are allergic to gadolinium based contrast agent 3. Patients who have cardiac pacemaker or other electronic or metal implant 4. Patients who have chronic kidney disease judged sufficient to exclude them from the clinically indicated contrast enhanced MRI. 5. Female patients who is pregnant |
Country | Name | City | State |
---|---|---|---|
United States | The SKCCC at Johns Hopkins | Baltimore | Maryland |
Lead Sponsor | Collaborator |
---|---|
Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins |
United States,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Standard planning versus Amide Proton Transfer (APT) imaging planning | Difference in radiation target volumes between standard MRI and Amide Proton Transfer (APT) imaging. | day 23-28 post radiation treatment | |
Secondary | tumor recurrence | Number of days from Day 23-28 (end of radiation) to tumor recurrence | up to 3 years | |
Secondary | Survival | Number of months from end of radiation therapy until death | up to 3 years | |
Secondary | Time to absolute change in voxels of APT and DWI (diffusion weighted imaging) signals from baseline to end of radiation treatment | Number of days to absolute change in voxels at the end of radiation treatment. | Change from Baseline to Days 23-28 post-radiation treatment | |
Secondary | Change in voxels of APT and DWI signals | Change in voxels of APT and DWI signal or pattern during the course of radiation treatment assessed at 3 years or until death, whichever occurs first. | up to 3 years or until death, whichever occurs first. |
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