Biomedical Instrumentation- MRI scan
Summary
TLDRThis lecture provides an overview of Magnetic Resonance Imaging (MRI), a vital medical imaging technique known for its detailed images of body tissues like muscle and brain. It explains the principle of MRI, where hydrogen atoms absorb and emit radio frequency energy in a magnetic field, and outlines the key components of an MRI scanner: the magnet, gradient coils, radiofrequency coil, and computer. The session also highlights the differences between MRI and CT scans, emphasizing MRI's reliance on radio waves compared to the X-rays used in CT, showcasing MRI's unique ability to visualize water and fat in the body.
Takeaways
- π MRI stands for Magnetic Resonance Imaging, a technique for detailed imaging of body tissues.
- π‘ MRI is also known as nuclear magnetic resonance imaging, as it applies principles of nuclear magnetic resonance.
- π¬ The technique primarily targets hydrogen atoms, which are abundant in the human body due to the high water content.
- βοΈ When placed in an external magnetic field, hydrogen atoms can absorb and emit radio frequency energy.
- π The imaging process involves detecting signals generated by polarized hydrogen atoms to create body images.
- π₯οΈ Main components of an MRI scanner include the magnet, gradient coils, radiofrequency coil, and computer.
- π Gradient coils (X, Y, Z) are essential for spatial encoding in MRI imaging.
- βοΈ The magnet polarizes the atoms, while the radiofrequency coil detects the emitted signals.
- π Unlike CT scans, which use X-rays, MRI employs radio waves for imaging.
- π‘ Understanding MRI's operation and components is crucial for appreciating its role in medical diagnostics.
Q & A
What is MRI and its primary use?
-MRI, or Magnetic Resonance Imaging, is a medical imaging technique used to create detailed images of body tissues such as muscles and the brain.
What does MRI stand for?
-MRI stands for Magnetic Resonance Imaging, and it is also referred to as nuclear magnetic resonance imaging.
Why are hydrogen atoms commonly used in MRI?
-Hydrogen atoms are used in MRI because they are naturally abundant in the human body, particularly in water and fat.
How does MRI generate images?
-MRI generates images by placing certain atomic nuclei in an external magnetic field, causing them to absorb and emit radio frequency energy, which is then detected to create images.
What are the main components of an MRI scanner?
-The main components of an MRI scanner include the magnet, gradient coils, radiofrequency coil, and a computer.
What role do gradient coils play in MRI?
-Gradient coils are used for spatial encoding, helping to localize the region of interest during the scanning process.
What is the purpose of the radiofrequency coil in an MRI?
-The radiofrequency coil detects the signals emitted by the hydrogen atoms after they are polarized by the magnetic field.
How does MRI differ from CT scans?
-The biggest difference is that MRI uses radio waves to capture images, while CT scans use X-rays.
What happens to hydrogen atoms when an external magnetic field is applied?
-When an external magnetic field is applied, hydrogen atoms generate polarization, which can be detected as signals to create images.
Who controls the MRI system?
-The entire MRI system is controlled by a computer, which processes the signals and generates the images.
Outlines
This section is available to paid users only. Please upgrade to access this part.
Upgrade NowMindmap
This section is available to paid users only. Please upgrade to access this part.
Upgrade NowKeywords
This section is available to paid users only. Please upgrade to access this part.
Upgrade NowHighlights
This section is available to paid users only. Please upgrade to access this part.
Upgrade NowTranscripts
This section is available to paid users only. Please upgrade to access this part.
Upgrade NowBrowse More Related Video
5.0 / 5 (0 votes)