The Ultimate Guide to MEG Scans: What They Are and How They Work

Have you ever heard of a MEG scan? If you’re not familiar with this advanced medical imaging technology, you’re not alone. MEG (magnetoencephalography) is not one of the more well-known medical tests, but it is becoming increasingly important in the field of neuroscience. In this post, we’ll explore what a MEG scan is, how it works, and the advantages and disadvantages of this type of brain imaging.

What is a MEG scan?

A MEG scan is a non-invasive medical imaging test that records the magnetic fields produced by the electrical activity of neurons in the brain. Unlike other brain imaging techniques such as CT (computed tomography) scans or MRI (magnetic resonance imaging) scans, MEG does not use radiation or strong magnetic fields to produce images.

MEG measures the tiny magnetic fields that are created by the electrical activity of neurons in the brain. Specifically, MEG picks up changes in the magnetic fields that occur when groups of neurons fire together. This makes MEG a valuable tool for studying brain function and activity.

What does a MEG brain scan do?

A MEG brain scan is used to measure and map brain activity. By measuring the magnetic fields produced by the electrical activity of neurons, MEG can provide highly detailed information about brain function. MEG can be used to study a wide range of brain activity including:

  • Sensory processing
  • Motor function
  • Language processing
  • Perception
  • Memory
  • Emotion

MEG is also used in clinical settings to help diagnose and monitor neurological disorders such as epilepsy, brain tumors, and stroke.

What is the difference between MRI and MEG scan?

Both MRI and MEG are used to study the brain, but they do so in different ways. MRI uses powerful magnetic fields and radio waves to produce detailed images of the brain and other internal organs. MEG, on the other hand, measures the tiny magnetic fields produced by the electrical activity of neurons in the brain.

While MRI can provide detailed structural images of the brain, MEG provides detailed information about brain function and activity. MRI is often used to identify structural abnormalities in the brain, while MEG is used to study brain activity in real-time.

How does a MEG scan work?

During a MEG scan, the patient sits in a specially designed chair while their head is enclosed in a helmet-shaped device that contains sensors. These sensors pick up the magnetic fields produced by the electrical activity of neurons in the brain.

The patient is asked to perform specific tasks or activities while the MEG records their brain activity. The data from the MEG is then analyzed using advanced software to create a map of brain activity.

A MEG scan is completely non-invasive and does not involve any radiation or sedation. The procedure is painless and generally well-tolerated by patients.

How long does a MEG scan take?

A typical MEG scan takes between one to two hours to complete. However, the precise length of the scan depends on a variety of factors, including the number of tasks or activities the patient is asked to perform. Additionally, there is usually some preparation time required before the scan, including placing the sensors on the patient’s head.

MEG scan advantages and disadvantages

Like any medical test, MEG scans have both advantages and disadvantages. Here are some of the pros and cons of using MEG:

Advantages of MEG scans

  • Non-invasive: MEG is a non-invasive test that does not require sedation or exposure to radiation.
  • High spatial and temporal resolution: MEG provides highly detailed information about brain activity in real-time.
  • Useful for studying a wide range of brain activity: MEG can be used to study a wide range of brain activity including perception, memory, and emotion.
  • Can be used in a clinical setting: MEG is increasingly being used in clinical settings to help diagnose and monitor neurological disorders.

Disadvantages of MEG scans

  • Expensive: MEG scans are relatively expensive compared to other medical tests.
  • Limited availability: MEG scanners are not as widely available as other imaging technologies like MRI and CT.
  • Requires a specialized environment: MEG scans must be conducted in a specialized environment that is shielded from outside magnetic interference.

What can a MEG scan diagnose?

MEG is used primarily to study brain function and activity. It is also increasingly being used in clinical settings to help diagnose and monitor neurological disorders such as epilepsy, brain tumors, and stroke.

In addition to its clinical applications, MEG is also used in research to study a variety of brain-related topics, including language processing, perception, and memory.

Other types of brain scans

MEG is just one of many types of brain scans available. Here are a few other types of brain scans you may have heard of:

EEG (electroencephalography)

Like MEG, EEG measures the electrical activity of neurons in the brain. However, EEG measures the electrical activity on the surface of the scalp, while MEG measures the magnetic fields produced by this electrical activity.

PET (positron emission tomography)

PET scans use radioactive tracers to measure metabolic activity in the brain. PET scans are used primarily to study brain function and activity in patients with neurological disorders.

CT (computed tomography)

CT scans use X-rays to produce detailed images of the brain and other internal organs. CT scans are often used to identify structural abnormalities in the brain.

Conclusion

MEG scans are a powerful tool for studying brain function and activity. By measuring the magnetic fields produced by the electrical activity of neurons in the brain, MEG provides highly detailed information about brain activity in real-time. While MEG is not as widely known as other imaging technologies like MRI and CT, its unique abilities make it an increasingly important tool in the field of neuroscience.