Brain Iron on MRI Predicts Cognitive Impairment, Decline
Noninvasive MRI technique may help identify a new biomarker for Alzheimer’s disease
A special MRI technique that detects iron levels in different regions of the brain can predict the onset of mild cognitive impairment and cognitive decline in cognitively unimpaired older adults, potentially creating a pathway to earlier interventions, according to a study published in Radiology.
As the leading cause of dementia worldwide, Alzheimer’s disease is a growing public health crisis. Treatments targeting the accumulated abnormal proteins associated with the disease are only modestly effective, indicating that other factors may contribute to cognitive impairment.
Elevated levels of iron in the brain are one factor under investigation in recent years. Iron overload in the brain is known to drive neurodegeneration by inducing oxidative stress, exacerbating amyloid toxicity, disrupting tau protein function and promoting nerve cell death.
Brain iron can be measured noninvasively through a special MRI technique called quantitative susceptibility mapping (QSM).
“QSM is an advanced MRI technique developed over the last decade to measure tissue magnetic susceptibility with good precision,” said the study’s senior author Xu Li, PhD, associate professor of radiology at Johns Hopkins University and research associate at the F.M. Kirby Research Center for Functional Brain Imaging at the Kennedy Krieger Institute in Baltimore, Maryland. “QSM can detect small differences in iron levels across different brain regions, providing a reliable and non-invasive way to map and quantify iron in patients, which is not possible with conventional MR approaches.”
Relationships among regional susceptibility, amyloid-β (Aβ) load, and annual changes in global cognitive scores. (A) Quantitative susceptibility maps show difference in gray matter regions in the Montreal Neurological Institute space, comparing group averages of the participants who were positive for Aβ versus negative for Aβ. Plots show associations between the baseline susceptibility values in the (B) entorhinal cortex (ENT), (C) caudate nucleus (CN), and (D) putamen (PT), and annual changes in the global cognitive score in participants with negative (blue) versus positive (red) global amyloid-β load.
https://doi.org/10.1148/radiol.250513 © RSNA 2025
Iron Overload Identifies Risk
Dr. Li and colleagues studied QSM MRI on 158 cognitively unimpaired participants drawn from the Johns Hopkins BIOCARD Study, a research project focused on the early stages of Alzheimer’s disease and related disorders. PET data was available for 110 of the participants.
The researchers acquired baseline QSM MRI data on the participants and then followed them for up to seven and a half years. They found that higher baseline magnetic susceptibility on MRI in the entorhinal cortex and putamen—two brain regions important to memory and other cognitive functions—was associated with a higher risk of mild cognitive impairment, a transitional stage preceding Alzheimer’s disease-related dementia.
“Using QSM, we found higher brain iron in some memory related regions that are linked to a higher risk of developing cognitive impairment and faster cognitive decline,” Dr. Li said. “This risk is even higher when the participants have higher levels of amyloid pathologies.”
Even though amyloid burden and tissue susceptibility in the entorhinal cortex and putamen were independently associated with progression to mild cognitive impairment, they appeared to have synergistic effects, Dr. Li said, accelerating global cognitive decline over time.
If confirmed in larger studies with more diverse patient populations, the findings point to a role for QSM MRI in the workup of patients at risk of dementia.
“We can use this kind of tool to help identify patients at higher risk of developing Alzheimer’s disease and potentially guide early interventions as new treatments become available,” Dr. Li said. “Also, besides serving as a biomarker, brain iron may become a future therapeutic target.”
Going forward, the researchers hope to gain a better understanding of how brain iron contributes to Alzheimer’s disease, including its interaction with other Alzheimer’s disease-related pathologies like amyloid and tau proteins. On the therapeutic side, clinical trials could test iron-targeted therapies.
“At the same time, we hope to make the QSM technology more standardized, faster and more widely accessible in clinical practice,” Dr. Li said.
For More Information
Access the Radiology article, “Susceptibility MRI Helps Predicts Mild Cognitive Impairment Onset and Cognitive Decline in Cognitively Unimpaired Older Adults,” and the related editorial “Redefining Early Diagnosis: Quantitative Susceptibility Mapping at MRI Forecasts Onset of Mild Cognitive Impairment.”
Read previous RSNA News stories about imaging Alzheimer’s disease: