MRI Flashcards
what are the advantages of MRI compared to CT and X-ray
- doesn’t give radiation
- visualises soft tissues - can see target organs and tissues in high contrast
what is the Tesla a measurement of?
magnetic flux density (Strength)
how strong are the MRI magnetic fields
0.2-3tesla
what are the three types of MRI magnets
- superconducting
- permanent
- resistive
describe how a superconducting magnet works
- The wire is wound around the cylinder to produce a coil = charge
- The coil is “supercooled” using helium liquid – the colder a conductor the stronger the magnetic force.
- The coil is subsequently immersed in liquid nitrogen.
define superconductivity
the property of a material to produce direct current (DC) electricity and strong magnetic fields without energy loss when they are cooled below a critical temperature.
*In MRI this is important as strong magnetic fields can be created with minimal energy.
loss of superconductivity results in
electrical discharge that can gasify the liquid helium = asphyxiate the patient.
what is the purpose of homogenisation coils or gradient coils in an MRI scanner
they are aligned to the 3 planes of the body, ensuring images are not jumbled and they have spatial coherence.
describe how MRI scanners have an influence on the atomic level 1.
- All protons within the body “spin/rock” which generates a small magnetic charge, when introduced to a strong magnetic field the protons within the hydrogen atoms align with the magnetic field.
- Striking the realigned protons with a low-frequency RF pulse causes them to spin around by 90o or 180o.
- When the RF pulse “passes” protons realign to their original state, by doing so they release tiny amounts of RF which is detected by the MRI coils.
a. The rate at which RF is released is dependent on the tissue type – this is what allows the computer to visualise the body.
what is the function of RF coils
transmit and receive RF waves that are similar to the wavelength of the radio waves to disrupt protons influenced within the magnetic field.
why is the timing of the RF pulse important?
Is key for differentiating between fat and water.
1. T1 weighted images – RF pulse timing that highlights fat tissue in the body (dark)
2. T2 weighted images – RF pulse timing that highlights fat and water in the body (light)
what are t1 weighted images
RF pulse timing that highlights fat tissue in the body (dark)
what are t2 weighted images
RF pulse timing that highlights fat and water in the body (light)
what is the function of a faraday cage
The faraday cage prevents contamination of radio waves from other sources as well as leaking of radio waves
what were the problems associated with creating the MR-linac
- The high magnetic field of a standard MRI will shut off a linac
- The RF wave utilised in a Linac can destroy MRI circuitry and ruin images.
