#  Calibrated fMRI: Toward a More Direct Measure of Neural Activity 

 



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####  calendar\_today Date and Time 

 **April 8, 2025** 

 06:00PM - 07:00PM EDT 

####  pin\_drop Location 

 **RCCHU Events Room**  

26 Trowbridge St. 

 

 

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Magnetic resonance imaging (MRI) is a powerful tool for visualizing soft tissue, widely used

in brain imaging. Functional MRI (fMRI), particularly the blood oxygenation level-dependent

(BOLD) technique, enables high spatial resolution mapping of brain activation. BOLD relies

on two key principles: (1) the paramagnetic properties of deoxygenated vs. oxygenated

blood and (2) the hemodynamic response, where increased neural activity leads to a surge

in blood flow that exceeds oxygen consumption. However, BOLD is an indirect and

qualitative measure, influenced by individual physiological factors. An alternative approach

is perfusion-based fMRI, which directly quantifies cerebral blood flow. Among perfusion

techniques, arterial spin labeling (ASL) stands out as a non-invasive method, yet it remains

an indirect proxy for neural activation. An alternative strategy combines BOLD and ASL

through calibrated fMRI, a technique that, via mathematical modelling, estimates the

cerebral metabolic rate of oxygen consumption (CMRO₂), a parameter more directly linked

to neuronal activity. In this talk, we will explore the implementation of calibrated fMRI, with a

focus on a novel technique recently developed in our lab and present our initial findings.

 ![flyer](/sites/g/files/omnuum986/files/2025-04/Flyer%20April%208th.jpg)

 

**Speaker: Inés Chavarría Marqués** *(PhD Candidate; Basque Center on Cognition, Brain and Language (BCBL)).*

**Sponsors:** RCCHU; Harvard University; Basque Center on Cognition.



 

 



 

 

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