Development of MRF for Characterization of Brain Tumors After Radiotherapy

Sponsor

Case Comprehensive Cancer Center (Other)

Overall Status

Not yet recruiting

CT.gov ID

NCT06101069

Collaborator

The Cleveland Clinic (Other)

Enrollment

Location

Arms

Anticipated Duration (Months)

1.7

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

The purpose of this study is to discover the potential convenience and ease of using a Magnetic Resonance Imaging (MRI) technique, named Magnetic Resonance Fingerprinting (or MRF), to achieve high-quality images within a short scan time of 5 min for viewing the entire brain. This is an advanced quantitative assessment of brain tissues. This method is being applied with IVIM MRI to be able to tell the difference between a brain with radiation necrosis and a brain with tumor recurrence. Participants will consist of individuals who have received radiation therapy in the past and were diagnosed with radiation necrosis, individuals with recurrent tumors, and healthy individuals who have no brain diseases and have not had radiation treatment to the brain. Participants will undergo an MRI scan at a one-time research study visit; no extra tests or procedures will be required for this research study.

The primary objectives of this study are:

To demonstrate the clinical feasibility of combining MRF with state-of-the-art parallel imaging techniques to achieve high-resolution quantitative imaging within a reasonable scan time of 5 min for whole brain coverage.
To apply the developed quantitative approach in combination with IVIM MRI for differentiation of tumor recurrence and radiation necrosis.

Condition or Disease	Intervention/Treatment	Phase
Brain Tumor Brain Necrosis Brain Metastases	Procedure: MRF in conjunction with IVIM MRI without contrast	N/A

Detailed Description

Although Stereotactic radiosurgery (SRS) is utilized as an effective treatment method, after several months to over 1 year following SRS, 33% of treated brain metastases increase in size on imaging, which is suspicious for tumor progression. However, based on findings in follow-up biopsies, the majority of newly detected metastases on imaging are radiation treatment effects instead of active tumor. So far, the only gold standard to differentiate active tumor and radiation necrosis is surgical resection for pathologic confirmation, which is invasive, not favored for poor surgical candidates, and should be avoided in cases of necrosis. The existing clinical imaging techniques have poor sensitivity or specificity in differentiating these two types of tissues. Recently, a novel MRI data acquisition approach, namely MR Fingerprinting (MRF), has been introduced for the simultaneous measurement of multiple important parameters in a single MRI scan. In addition, quantitative diffusion MRI, such as the intravoxel incoherent motion (IVIM) technique, can provide a noninvasive and powerful tool to quantify microstructural information by measuring water diffusion and microcirculation perfusion in vivo. This study aims to demonstrate the clinical feasibility of combining MRF with state-of-the-art parallel imaging techniques to achieve high-resolution quantitative imaging within a reasonable scan time of 5 min for whole brain coverage. It also aims to apply the developed quantitative approach in combination with IVIM MRI for the differentiation of tumor recurrence and radiation necrosis. The multi-parametric quantitative measures developed in this study could establish a new fundamental biomarker for the diagnosis and monitoring of brain tumors

Study Design

Study Type:

Interventional

Anticipated Enrollment :

40 participants

Allocation:

Non-Randomized

Intervention Model:

Parallel Assignment

Intervention Model Description:

This is a prospective, observational, multi-cohort, unblinded, single-center study.This is a prospective, observational, multi-cohort, unblinded, single-center study.

Masking:

None (Open Label)

Primary Purpose:

Diagnostic

Official Title:

Development of Magnetic Resonance Fingerprinting for Characterization of Brain Tumors After Radiotherapy

Anticipated Study Start Date :

Jan 1, 2024

Anticipated Primary Completion Date :

Jun 30, 2025

Anticipated Study Completion Date :

Dec 31, 2025

Arms and Interventions

Arm	Intervention/Treatment
Experimental: Healthy Volunteer Participants Healthy volunteers will be recruited to evaluate the capability of MRF in conjunction with intravoxel incoherent motion (IVIM) MRI and serve as healthy control data to compare with the participant data.	Procedure: MRF in conjunction with IVIM MRI without contrast MRF in conjunction with IVIM MRI scan, without contrast.
Experimental: Participants with Radiation Necrosis The MRI scans (MRF and IVIM) will be performed on participants with newly developed necrosis prior to any further therapy implementation, surgical biopsy, or resection. For the participants undergoing surgical biopsy or resection after the MRI scans, the findings from the analysis of pathological biopsied specimen will serve as pathological confirmation for the MRI imaging findings	Procedure: MRF in conjunction with IVIM MRI without contrast MRF in conjunction with IVIM MRI scan, without contrast.
Experimental: Participants with Tumor Recurrence The MRI scans (MRF and IVIM) will be performed on participants with newly developed recurrent prior to any further therapy implementation, surgical biopsy, or resection. For the participants undergoing surgical biopsy or resection after the MRI scans, the findings from the analysis of pathological biopsied specimen will serve as pathological confirmation for the MRI imaging findings	Procedure: MRF in conjunction with IVIM MRI without contrast MRF in conjunction with IVIM MRI scan, without contrast.

Arm

Intervention/Treatment

Experimental: Healthy Volunteer Participants

Healthy volunteers will be recruited to evaluate the capability of MRF in conjunction with intravoxel incoherent motion (IVIM) MRI and serve as healthy control data to compare with the participant data.

Procedure: MRF in conjunction with IVIM MRI without contrast

MRF in conjunction with IVIM MRI scan, without contrast.

Experimental: Participants with Radiation Necrosis

The MRI scans (MRF and IVIM) will be performed on participants with newly developed necrosis prior to any further therapy implementation, surgical biopsy, or resection. For the participants undergoing surgical biopsy or resection after the MRI scans, the findings from the analysis of pathological biopsied specimen will serve as pathological confirmation for the MRI imaging findings

Procedure: MRF in conjunction with IVIM MRI without contrast

MRF in conjunction with IVIM MRI scan, without contrast.

Experimental: Participants with Tumor Recurrence

The MRI scans (MRF and IVIM) will be performed on participants with newly developed recurrent prior to any further therapy implementation, surgical biopsy, or resection. For the participants undergoing surgical biopsy or resection after the MRI scans, the findings from the analysis of pathological biopsied specimen will serve as pathological confirmation for the MRI imaging findings

Procedure: MRF in conjunction with IVIM MRI without contrast

MRF in conjunction with IVIM MRI scan, without contrast.

Outcome Measures

Primary Outcome Measures

Comparison of T1 relaxation times [Within the total 30-45 minute scan time]
The primary objective is to use MRF and IVIM MRI to demonstrate clinical feasibility and differentiation of tumor recurrence and radiation necrosis. This will be measured by the 3D-MRF T1 relaxation times. The difference in mean T1 between each cohort of participants will be measured.
Comparison of T2 relaxation times [Within the total 30-45 minute scan time]
The primary objective is to use MRF and IVIM MRI to demonstrate clinical feasibility and differentiation of tumor recurrence and radiation necrosis. This will be measured by the 3D-MRF T2 relaxation times. The difference in mean T2 between each cohort of participants will be measured.
Comparison of proton density maps [Within the total 30-45 minute scan time]
The primary objective is to use MRF and IVIM MRI to demonstrate clinical feasibility and differentiation of tumor recurrence and radiation necrosis. This will be measured by comparing the MRF proton density maps of each cohort of participants. This will be compared using a t-test.
Comparison of water diffusion in brain tissues [Within the total 30-45 minute scan time]
The primary objective is to use MRF and IVIM MRI to demonstrate clinical feasibility and differentiation of tumor recurrence and radiation necrosis. This will be measured by comparing the diffusion parameters measured by the IVIM method between the three cohorts of participants. This will be compared using a t-test.
Comparison of blood perfusion in brain tissues [Within the total 30-45 minute scan time]
The primary objective is to use MRF and IVIM MRI to demonstrate clinical feasibility and differentiation of tumor recurrence and radiation necrosis. This will be measured by comparing the perfusion parameters measured by the IVIM method between the three cohorts of participants. This will be compared using a t-test.

Eligibility Criteria

Criteria

Ages Eligible for Study:

21 Years to 60 Years

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Yes

Inclusion Criteria for Healthy Participants:

No history of cerebrovascular disease.
No cognitive impairments.
Able to provide informed consent.

Inclusion Criteria for Participants with Brain Tumors:

Biopsy-proven cases of developed recurrent tumor or radiation necrosis,

OR:

1. PET identified with developed recurrent tumor or radiation necrosis. OR
1. Highly suspicious case with developed recurrent tumor or radiation necrosis confirmed by tumor board, attending physician or surgeon.
ECOG performance status 0-2.
Life expectancy > 6 months.
Participant with other sites of extracranial metastatic disease or any prior or current systemic therapies will be considered and evaluated by the investigators of the study on a subject basis.

Exclusion Criteria:

Pregnant women OR lactating women
Participants with ferromagnetic or otherwise non-MRI compatible aneurysm clips.
Participants who cannot go into the MRI scanner due to metal implants and other medical conditions.
The presence of an implanted medical device that is not MRI-compatible, including, but not limited to: pacemaker, defibrillator.
Participants with contraindications for MRI due to embedded foreign metallic objects such as bullets, shrapnel, metalwork fragments, or other metallic material.
Known history of severe claustrophobia.
Participants unable to lay still in the scanner for 30 minutes at a time.

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	Cleveland Clinic Taussig Cancer Center	Cleveland	Ohio	United States	44195

Sponsors and Collaborators

Case Comprehensive Cancer Center
The Cleveland Clinic

Investigators

Principal Investigator: Lan Lu, PhD, Cleveland Clinic Taussig Cancer institute, Case Comprehensive Cancer Center
Principal Investigator: Samuel Chao, MD, Cleveland Clinic Taussig Cancer institute, Case Comprehensive Cancer Center

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.

Responsible Party:

Case Comprehensive Cancer Center

ClinicalTrials.gov Identifier:

NCT06101069

Other Study ID Numbers:

CASE3323

First Posted:

Oct 25, 2023

Last Update Posted:

Oct 25, 2023

Last Verified:

Oct 1, 2023

Individual Participant Data (IPD) Sharing Statement:

Plan to Share IPD:

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Keywords provided by Case Comprehensive Cancer Center

Magnetic Resonance Fingerprinting

Radiation necrosis

Additional relevant MeSH terms:

Brain Neoplasms

Necrosis

Study Results

No Results Posted as of Oct 25, 2023