Non-invasive Quantification of Liver Iron With MRI

University of Wisconsin, Madison50 enrolled

Overview

The purpose of this study is to validate magnetic resonance imaging as a biomarker of hepatic iron concentration (HIC). Excessive accumulation of iron in the body is highly toxic, specifically in the liver. Accurate, non-invasive assessment of HIC is needed for diagnosis, quantitative staging and treatment monitoring or hepatic iron overload.

Excessive accumulation of iron in the body can result from abnormal intestinal absorption in hereditary hemochromatosis or repeated intravenous blood transfusions (ie: transfusional hemosiderosis). Excess body iron is highly toxic, and requires treatment aimed at reducing body iron stores. Measurement of body iron stores is critical for detection of iron overload, staging its severity and monitoring of iron-reducing therapies that are often extremely expensive (\>$40,000/year) and carry their own toxicities. MRI has been shown to be very sensitive to the presence of iron. The investigators have developed an MRI-based method for rapid iron quantification (for instance, whole liver in a single breath-hold). The purpose of this work is to validate this new method using the FDA-approved Ferriscan technique (Resonance Health, Claremont, Australia) as a reference standard.

Study Type

OBSERVATIONAL

Enrollment

Conditions

Iron Overload Hemosiderosis

Interventions

Non-contrast MRIDEVICE

Non-contrast MRI will be performed on each subject, at both 1.5T and 3.0T. Different MRI sequences (spin-echo and gradient-echo) will be used, with varying acquisition parameters (e.g., echo times, spatial resolution).

Eligibility

Sex: ALLMin age: 10 YearsHealthy volunteers:

Medical Language ↔ Plain English

Inclusion Criteria: * Controls: 18 years or older with no known history of iron overload or liver disease. * Patients: 10 years or older with known or suspected iron overload Exclusion Criteria: * Patients with contraindications to MRI (eg. pacemaker, contraindicated metallic implants, claustrophobia, etc) and pregnant females (as determined by self-report during MRI safety screening) will be excluded. * For control subjects, those with known liver disease will be excluded.

Locations (1)

Wisconsin Institutes for Medical Research

Madison, Wisconsin, United States

Outcomes

Primary Outcomes

Calibration Curve of Liver R2* vs. HIC Measured by FerriScan

Accuracy of non-contrast R2\*-MRI for measuring hepatic iron concentration.

Time frame: Up to 1 day

Correlation of Ferritin and Liver R2*

Linear correlation between serum ferritin values and MRI R2\* values

Time frame: up to 1 day

Correlation of Ferritin and HIC Measured by FerriScan

Linear correlation between serum ferritin values and FerriScan hepatic iron measurement.

Time frame: up to 1 day

Secondary Outcomes

Variability of cardiac R2* with different imaging parameters

Robustness of Proposed Method for Cardiac R2\* Estimation. Measure variability of cardiac R2\* with different imaging parameters.

Time frame: up to 1 day

Data from ClinicalTrials.gov

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