However, studies comparing the effects of combined oral contraceptives containing EE and low-potency estrogens (ie, estradiol and estradiol valerate ) on coagulation biomarkers are limited. MEG analytic strategies are nearly identical to those used in EEG, but the MEG recording apparatus is much more expensive than EEG, so MEG is much less widely available.Contraceptives containing ethinylestradiol (EE) induce changes in the coagulation system and are associated with a risk of venous thromboembolism.
Data can be recorded thousands of times per second, allowing researchers to document events that happen in less than a millisecond. One major advantage of EEG is its temporal resolution. The fMRI provides more detailed images of the brain’s structure, as well as better accuracy in time, than is possible in PET scans. There are many pros and cons to using each method. Due to the fact that the magnetic fields of interest are so small, special rooms that are shielded from magnetic fields in the environment are needed in order to avoid contamination of the signal being measured. The number of sensors used varies from a few to several hundred. The flow of electrical charge (the current) associated with neural activity produces very weak magnetic fields that can be detected by sensors placed near the participant’s scalp (Fig.11.3.1). Magnetoencephalography (MEG) is another technique for non-invasively measuring neural activity. License: CC Zero.)įunctional magnetic resonance imaging (fMRI) operates on the same principles but it shows changes in brain activity over time by tracking blood flow and oxygen levels (Fig.11.3.1). An example of a FMRI brain scan during working memory tasks. Such information is especially helpful to researchers studying sleep patterns among individuals with sleep disorders.įig. The signals received by the electrodes result in a printout of the electrical activity of his or her brain, or brainwaves, showing both the frequency (number of waves per second) and amplitude (height) of the recorded brainwaves, accurate within milliseconds. An array of electrodes is placed around a person’s head. Electroencephalography (EEG) serves this purpose by providing a measure of a brain’s electrical activity. In some situations, it is helpful to gain an understanding of the overall activity of a person’s brain, without needing information on the actual location of the activity. A computer monitors the movement of the tracer and creates a rough map of active and inactive areas of the brain during a given behavior (Fig.11.3.1). As brain areas become more active, more blood flows to that area. Once in the bloodstream, the amount of tracer in any given region of the brain can be monitored. An individual receiving a PET scan drinks or is injected with a mildly radioactive substance called a tracer. Positron emission tomography (PET) scans create pictures of the living, active brain.
An example of PET scan of a normal brain and an Alzheimer’s disease brain. There are four major neuroimaging methods that are commonly used by scientists: positron emission tomography (PET), electroencephalography (EEG), functional magnetic imaging (fMRI) and magnetoencephalogram (MEG).įig. Neuroimaging exists as a way for scientists to monitor brain activity. Know what the pros and cons are of using different methods. Know what the four main neuroimaging methods are (PET, EEG, MEG, fMRI).
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