6.7.1 Functional Magnetic Resonance Imaging (fMRI)

    Cards (35)

    • What does fMRI measure to detect brain activity?
      Changes in blood flow
    • The BOLD signal detects changes in oxygenated and deoxygenated hemoglobin
    • MRI uses a strong magnetic field to align protons within brain tissues.
    • What does functional mapping combine to map brain activity?
      MRI and BOLD signal
    • Match the benefits of fMRI with their corresponding limitations:
      High spatial resolution ↔️ Lower temporal resolution
      Non-invasive ↔️ Can be expensive
      Safe and repeatable ↔️ Sensitive to movement
    • Steps in the fMRI scanning process
      1️⃣ Place the patient inside the scanner
      2️⃣ Present tasks or stimuli
      3️⃣ Measure BOLD signal changes
      4️⃣ Create brain activity maps
    • What is the magnetic property of oxygenated hemoglobin?
      Diamagnetic
    • What is the magnetic property of deoxygenated hemoglobin?
      Paramagnetic
    • The intensity of the BOLD signal correlates with the degree of neural activity.
    • The BOLD signal measures changes in oxygenated and deoxygenated hemoglobin
    • Match the properties of oxygenated and deoxygenated hemoglobin with their effects on MRI signal:
      Oxygenated hemoglobin ↔️ Weak decrease
      Deoxygenated hemoglobin ↔️ Strong decrease
    • Deoxygenated hemoglobin is present in high oxygen areas of the brain.
      False
    • What happens to blood flow when a brain area becomes active?
      Increases
    • Oxygenated hemoglobin is diamagnetic, whereas deoxygenated hemoglobin is paramagnetic.
    • The BOLD signal is used to map brain activity during specific tasks.
    • Steps in the procedure of fMRI scanning
      1️⃣ Preparation: Consent and safety checks
      2️⃣ MRI scanner usage: Structural and functional scans
      3️⃣ Task/stimulus presentation: Visual or auditory cues
      4️⃣ Data analysis: Preprocessing and statistical mapping
    • Why is the participant secured in the MRI scanner with padding and straps?
      To minimize movement
    • Tasks or stimuli are presented through visual or auditory cues within the scanner
    • What is analyzed during the statistical mapping phase of data analysis?
      BOLD signal changes
    • Match the advantages of fMRI with their explanations:
      High spatial resolution ↔️ Detailed brain structure visualization
      Non-invasive ↔️ No surgery or injections required
      Safe and repeatable ↔️ Uses magnetic fields instead of radiation
    • fMRI is often compared with EEG, PET, and CT scans.
    • What is a key advantage of fMRI compared to EEG in terms of spatial resolution?
      High spatial resolution
    • The BOLD signal intensity is directly proportional to neural activity.
    • fMRI detects brain activity by measuring changes in blood flow.
    • What does the BOLD signal measure in the brain?
      Oxygenated and deoxygenated hemoglobin
    • Oxygenated hemoglobin is diamagnetic, while deoxygenated hemoglobin is paramagnetic.
    • What does the BOLD signal intensity correlate with in functional mapping?
      Neural activity
    • The initial MRI scan in an fMRI procedure maps brain anatomy.
    • What type of stimuli are commonly presented during fMRI tasks?
      Visual or auditory
    • Statistical mapping in fMRI data analysis identifies active brain areas.
    • Order the phases of fMRI scanning based on their objectives:
      1️⃣ Preparation: Ensure safety and comfort
      2️⃣ Scanning: Collect brain activity data
    • What is a key advantage of fMRI in terms of visualizing brain structure?
      High spatial resolution
    • fMRI has high spatial resolution compared to EEG.
    • PET scans use mild radiation, while fMRI uses magnetic fields.
    • What is a major limitation of fMRI in terms of capturing rapid neural activity changes?
      Low temporal resolution
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