Cherish Madu

From Psych 221 Image Systems Engineering
Revision as of 22:51, 6 June 2013 by imported>Psych202 (Positron Emission Tomography)
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This wiki explores the methods that those interested in neuroscience most frequently employ when investigating and explaining cognitive processes in terms of brain structure and function and highlights the advantages and disadvantages of each method.

Transcranial Magnetic Stimulation

Overview, Advantages, Disadvantages

Optogenetics

Overview, Advantages, Disadvantages

Electrophysiological recording of neurons

Overview, Advantages, Disadvantages

Electroencephalography

Overview, Advantages, Disadvantages

Positron Emission Tomography

Overview

Positron emission tomography (PET) is a three-dimensional brain imaging technique that takes advantage of changes in metabolism to localize brain activity and functional processes in the body. The most active parts of the brain use more metabolic processes than do relatively inactive parts of the brain and PET is able to track this metabolic flow. Flourine-18 or oxygen-15, the most commonly used radioactive tracer isotopes, is injected into the bloodstream where it disperses to more active parts of the brain. Inside the brain, the radioactive tracer decays into a positron and an electron. When the positron collides with an electron, two gammas rays are produced. The accumulation of these pairs of gamma rays is measured by gamma-ray detectors which are placed all around the subject's head. Computer analyses construct the radioactive tracer concentration into three-dimensional images. PET is often combined with CT or MRI scans for superimposition of the images of concentration onto anatomic images of the subject's brain.

Advantages

High Spatial resolution

Disadvantages

Because the positron has to travel before it collides with an electron to produce gamma-rays, temporal resolution is low. It takes time for the concentration of gamma-rays to accumulate into a reliable signal. Invasive. Injection of radioactive molecules

Functional Magnetic Resonance Imaging

Like PET, Functional magnetic resonance imaging (fMRI)

References