10.3 Magnetic resonance imaging (MRI)

    Cards (52)

    • What does MRI use to produce detailed images of the body's internal structures?
      Magnetic fields and radio waves
    • Match the MRI component with its purpose:
      RF Coils ↔️ Emit and receive radio waves
      Gradient Coils ↔️ Encode spatial information
    • MRI provides lower image detail compared to X-ray and CT scans.
      False
    • The strong magnetic fields in MRI align the hydrogen protons in the body.
    • Steps in the basic principles of MRI:
      1️⃣ Magnetic fields align protons
      2️⃣ Protons absorb radio wave energy
      3️⃣ Protons re-emit signals
      4️⃣ Scanner measures signals
      5️⃣ Detailed images are constructed
    • Strong magnetic fields in MRI align hydrogen protons in the body.

      True
    • Gradient coils create small variations in the magnetic field to locate the source of detected signals.
    • Which imaging method provides excellent soft tissue contrast without radiation?
      MRI
    • The gradient coils in MRI create variations in the magnetic field across the body.

      True
    • The strong magnet in MRI aligns the hydrogen protons in the body.
    • The RF coils in an MRI scanner emit and receive radio waves to excite and detect the aligned protons
    • Why is the alignment of hydrogen protons crucial in MRI?
      Foundation for imaging
    • Radio waves in MRI excite hydrogen protons, which then create a signal detected by the scanner.

      True
    • What do gradient coils achieve during spatial encoding in MRI?
      Magnetic field variations
    • Image reconstruction in MRI involves processing detected signals using mathematical algorithms.

      True
    • The strong magnet in an MRI scanner aligns hydrogen protons in the body.
    • Why is the use of non-ionizing radio waves in MRI considered a key advantage over ionizing radiation techniques?
      Safety
    • What type of waves are used in MRI to excite hydrogen protons?
      Radio waves
    • MRI uses ionizing radiation, unlike X-ray and CT scans.
      False
    • Order the three key steps in creating images in MRI:
      1️⃣ Spatial Encoding
      2️⃣ Signal Detection
      3️⃣ Image Reconstruction
    • RF coils in MRI detect signals from excited hydrogen protons
    • What role do RF coils play in MRI?
      Emit and detect radio waves
    • Which heart condition can MRI help identify?
      Cardiomyopathy
    • MRI is unsuitable for patients with certain metallic implants
    • Patient movement during an MRI scan can introduce artifacts in the image.
      True
    • Why is MRI more expensive than X-rays or CT scans?
      Complex technology
    • The strong magnet in an MRI scanner aligns the protons in the body.
    • Which imaging method does not use ionizing radiation?
      MRI
    • Which imaging method offers excellent soft tissue contrast?
      MRI
    • In Nuclear Magnetic Resonance (NMR), protons absorb and re-emit radio wave energy.

      True
    • What property of hydrogen protons is exploited in MRI?
      Nuclear magnetic resonance
    • What is the primary purpose of gradient coils in MRI?
      Encode spatial information
    • MRI uses ionizing radiation, unlike X-ray and CT scans.
      False
    • The three basic principles of MRI are magnetic fields, NMR, and imaging.
    • What is a key advantage of MRI compared to X-ray and CT scans?
      No ionizing radiation
    • What is the purpose of the strong magnet in an MRI scanner?
      Align hydrogen protons
    • Gradient coils in an MRI scanner create small variations in the magnetic field strength across the body.

      True
    • Gradient coils create small variations in the magnetic field strength, allowing the MRI scanner to locate the source of detected signals
    • Match the imaging technique with the type of radiation used:
      MRI ↔️ Non-ionizing radio waves
      X-ray ↔️ Ionizing radiation
    • The RF coils emit radio waves to excite the aligned hydrogen protons, which then re-emit energy to create a detectable signal