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Clinical Trial Summary

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.


Clinical Trial Description

Currently, all brain tumors are routinely evaluated using gadolinium contrast-enhanced (Gd-CE) MRI, in combination with T2-weighted or fluid-attenuated inversion recovery (FLAIR) MRI, which are used to determine the extent of tumor involvement to guide treatments, and to assess therapeutic response. However, Gd-CE only depicts disruption of the blood brain barrier and is not specific for tumor activity. Therefore, standard MRI may not be optimal in defining the true extent of tumor, defining as abnormal areas that may contain only edema related to mass effect or surgery and miss tumor extensions that do not sufficiently disrupt the blood-brain-barrier. In addition, in the setting of radiation therapy which also disrupts the blood brain barrier, it does not serve as an early marker of tumor response.

The primary goal of the current observational study is to explore whether Amide Proton Transfer (APT) imaging can better determine the extent of tumor involvement. APT signal is created by mobile cytoplasmic proteins, which are increased in malignant brain tumors and have been found in preclinical and clinical studies to be associated with a high APT weighted signal in glioma. Such imaging may provide information that may improve the ability of MR imaging to guide targeting of radiotherapy. In particular, it may (1) detect tumor bearing brain that is not contrast enhancing on the standard brain MRI scan for patients with high grade glioma and/or (2) fail to confirm tumor in areas of brain identified as abnormal on standard MRI. The investigators will also explore patterns of disease failure in patients with malignant gliomas to validate the observations, and whether such imaging may predict outcome.

Similar questions may be important in the therapy of low grade glioma, and an exploratory informational cohort of patients with this less common diagnosis will be accrued during the study period to inform decisions about whether further study is desirable.

A second APT image will be obtained during the final week of treatment for enrolled patients to determine whether changes in APT signal occur, and whether there is evidence that this may be prognostic for treatment success or failure when correlated with progression free survival and survival outcome. Currently, there is no imaging method to assess tumor response and predict outcome within the first several months as a result of the confounding effect of radiation on both the tumor and surrounding brain. In addition, standard brief apparent diffusion coefficient (ADC) MRI sequences will be performed as part of the pretreatment imaging and the end of treatment scan as an additional potential early imaging biomarker that may be a part of multiparametric assessment of response to radiotherapy as identified in preclinical studies performed at Johns Hopkins.

These first steps may form the basis for possible future studies to assess new approaches to radiation planning for patients with brain cancer. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03843814
Study type Interventional
Source Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins
Contact
Status Terminated
Phase N/A
Start date August 2014
Completion date December 13, 2017

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