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Functional magnetic resonance imaging

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Functional Magnetic Resonance Imaging (or fMRI) is the process of using MRI scanners to obtain information about the activity occurring inside the brain.

As neurons fire, they metabolyse oxygen from the surrounding blood. Approximately 6 seconds after a burst of neural activity, a haemodynamic response[?] occurs in which that region of the brain is infused with oxygen-rich blood.

Because oxygenated haemoglobin is diamagnetic, while deoxygenated blood is paramagnetic, MRI is able to detect a small difference (a signal of the order of 3%) between the two. This is called a blood-oxygen level dependent, or "BOLD" signal. The precise nature of the relationship between neural activity and the BOLD signal is a subject of current research.

BOLD effects are measured using a T2[?] imaging process, which is different from the T1[?] scan taken in ordinary structural MRI images (the former measures the rate of change of spin phases, while the later detects the half-life of inverted spins). T2 images can be aquired with moderately good spatial and temporal resolution; scans are usually repeated every 2-5 seconds, and the voxels in the resulting image tend to be around 0.25 cubic centimeters. Other non-invasive functional medical imaging techniques can improve on one of these figures, but not both.

The science of applying fMRI is quite complicated and multi-disciplinary. It involves:

  • A good understanding of the physics of MRI scanners.
  • Statistical analysis of results. Because the signals are very subtle, correct application of statistics is essential to both "tease out" observations and avoid false-positive results.
  • Psychological study design. When conducting fMRI on humans, for example, it is essential to employ carefully designed experiments which allow the precise neural effect under consideration to be separated.
  • For a non-invasive scan, MRI has moderately good spatial resolution, but relatively poor temporal resolution. Increasingly, it is being combined with other data collection techniques such as EEG or MEG, which have much faster recording frequencies.
  • Integration with other areas of neuroscience in order to better understand the location (and role) of the signals which fMRI is able to detect. This includes a great deal of neuroanatomy[?] but also other sub-fields such as neurochemistry[?] and neuropathology[?].

Aside from BOLD fMRI there are other ways to probe the brain activity with MRI:

  • By using a injected contrast agent, e.g., MION, causing a local disturbance in the magnetic field that is measurable by the MRI scanner.
The signal associated with these kind of contrast agents are proportional to the cerebral blood volume[?].



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