Brain MRI: Difference between revisions

Latest revision as of 15:58, 9 May 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)

Contrast only needed if concern for malignancy/mass

MRI Modalities

T1 Weighted Imaging

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

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)

Appears as T2 images with hypointense CSF- cancels out CSF so you can differentiate CSF from other fluid
Ideal for identifying tumors/GBS
Also used to identify leptomeningeal enhancement in meningitis

Diffusion Weighted Imaging (DWI)

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

References

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

Authors:

[ACEP-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.

[1]

[2]

@@ Line 8: / Line 8: @@
 ==Ordering Studies==
-===Ordering for Rule-Out [[CVA]] or [[TIA]]===
+{{MR studies CVA/TIA}}
-*[[MRI Brain]] DWI and cervical vascular imaging predict short-term risk for stroke in patients presenting with suspected TIA<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>. When feasible, physicians should obtain:
-**MRI with DWI/MRA in patients with high short-term risk for stroke (ACEP Level B)
-**Carotid US/CTA/MRA in patients with high short-term risk for stroke (ACEP Level B)
-***Carotid US is slightly less sensitive than MRA, but useful for carotid stenosis eval<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)
+''Contrast only needed if concern for malignancy/mass''
 ==MRI Modalities==
@@ Line 32: / Line 29: @@
 ===Fluid Attenuation Inversion Recovery (FLAIR)===
 [[File:FLAIR Brain.png|150px]]
-*Appears as T2 images with hypointense CSF
+*Appears as T2 images with hypointense CSF- cancels out CSF so you can differentiate CSF from other fluid
 *Ideal for identifying tumors/GBS
 *Also used to identify leptomeningeal enhancement in meningitis
@@ Line 60: / Line 57: @@
 ==See Also==
 *[[MRI (main)]]
+==References==
+<references/>
 [[Category:Neurology]]
 [[Category:Radiology]]