Brain MRI: Difference between revisions
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==Ordering Studies==
==Ordering Studies==
===Ordering for Rule-Out [[CVA]] or [[TIA]]===
{{MR studies CVA/TIA}}
*[[MRI Brain]] with DWI (without contrast) '''AND'''
*Cervical vascular imaging (ACEP Level B in patients with high short-term risk for stroke):<ref name="ACEP">ACEP Clinical Policy: Suspected Transient Ischemic Attack[https://www.acep.org/Physician-Resources/Policies/Clinical-policies/Clinical-Policy-Suspected-Transient-Ischemic-Attack/ full text]</ref>
**MRA brain (without contrast) '''AND'''
**MRA neck (without contrast)
***May instead use Carotid CTA or US (Carotid US slightly less sensitive than MRA)<ref>Nederkoorn PJ, Mali WP, Eikelboom BC, et al. Preoperative diagnosis of carotid artery stenosis. Accuracy of noninvasive testing. Stroke. 2002;33:2003-2008.</ref> (ACEP Level C)


==MRI Modalities==
==MRI Modalities==

Revision as of 18:18, 18 February 2017

Background

  • MRI uses magnetic fields and radiowaves to develop high definition imaging of the brain and excellent tissue contrast
  • No radiation associated with imaging
  • Ideal for looking at brain parenchyma and midbrain
  • Contrast is commented on by signal intensity
    • Dark areas are hypointense
    • Bright areas are hyperintense

Ordering Studies

MR Imaging (for Rule-Out CVA or TIA)

  • MRI Brain with DWI, ADC (without contrast) AND
  • Cervical vascular imaging (ACEP Level B in patients with high short-term risk for stroke):[1]
    • MRA brain (without contrast) AND
    • MRA neck (without contrast)
      • May instead use Carotid CTA or US (Carotid US slightly less sensitive than MRA)[2] (ACEP Level C)

MRI Modalities

T1 Weighted Imaging

T1 Brain.png

  • Ideal for brain parenchyma
  • With the addition of contrast, this can differentiate causes of inflammation
  • Fluid is hypointense (similar to CT imaging)
  • Methemoglobin, fat, and protein are hyperintense

T2 Weighted Imaging

T2 Brain.png

  • Highlights CSF
  • Good for identifying tissue edema around pathologic areas
  • Fluid is hyperintense (reverse of T1)
  • Tissue tends to be more hypointense

Fluid Attenuation Inversion Recovery (FLAIR)

FLAIR Brain.png

  • Appears as T2 images with hypointense CSF
  • Ideal for identifying tumors/GBS
  • Also used to identify leptomeningeal enhancement in meningitis

Diffusion Weighted Imaging (DWI)

DWI Brain.png

  • A method of measuring the Brownian motion of water molecules
  • Diffusion within the intracellular fluid, diffusion within extracellular fluid, and between these areas will differ depending on pathology
  • Ideal for cellular swelling especially in acute ischemic stroke which will be hyperintense

Blood

Age of Blood T1 Imaging T2 Imaging
Hyperacute Iso Bright
Acute Iso/Dark Dark
1-3 Days Bright Dark
1-2 Wks Bright Bright
2-3 Wks Iso/Dark Dark

See Also

  1. ACEP Clinical Policy: Suspected Transient Ischemic Attack full text
  2. Nederkoorn PJ, Mali WP, Eikelboom BC, et al. Preoperative diagnosis of carotid artery stenosis. Accuracy of noninvasive testing. Stroke. 2002;33:2003-2008.
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