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fMRI: Functional Magnetic Resonance Imaging

Overview

Functional magnetic resonance imaging (fMRI) is a non-invasive neuroimaging technique used to investigate human brain function and cognition in both healthy individuals and populations with abnormal brain states. Functional MRI utilizes a magnetic resonance signal to detect changes in blood flow that are coupled to neuronal activation when a specific task is performed. This is possible because hemoglobin within the blood has different magnetic properties depending on whether or not it is bound to oxygen. When a certain task is performed, there is an influx of oxygenated blood to brain regions responsible for that function, and this influx can then be detected with specific MRI scan parameters. This phenomenon is termed the blood oxygen level ependent (BOLD) effect, and can be used to create maps of brain activity.

This video begins with a brief overview of how MRI and fMRI signal is obtained. Then, basic experimental design is reviewed, which involves first setting up a stimulus presentation that is specifically designed to test the function that will be mapped. Next, key steps involved in performing the fMRI scan are introduced, including subject safety and setting up at the scanner. Commonly used steps for data processing are then presented, including pre-processing and statistical analysis with the general linear model. Finally, some specific applications of fMRI are reviewed, such as investigations into abnormal function in psychological disorders, and combining fMRI with complimentary imaging modalities, such as diffusion tensor imaging (DTI).

Procedure

Functional magnetic resonance imaging, or fMRI, is a now a widely used neuroimaging method for investigating human brain function and cognition. fMRI can be used to investigate both normal brain function and abnormal or diseased brain states.

This method makes use of strong magnets to create maps of brain activity by detecting changes in blood flow that are coupled to neuronal activation. This imaging technique has excellent spatial and good temporal resolution, and is noninvasive, since it does not require injecti

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Tags
FMRIFunctional Magnetic Resonance ImagingNeuroimagingBrain FunctionCognitionBrain ActivityBlood FlowNeuronal ActivationSpatial ResolutionTemporal ResolutionNoninvasive Imaging TechniqueMRI MachinesElectromagnetsTeslaHydrogen NucleiWater MoleculesMagnetic FieldRadio Frequency PulsesHemoglobin

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0:00

Overview

1:04

The Functional MRI Signal: The BOLD Response

3:16

Designing and Running an fMRI Experiment

5:47

Functional MRI Processing

7:17

Applications

8:36

Summary

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