Brain MRI: Difference between revisions
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==Background== | ==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 | |||
==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 | |||
*Ideal for identifying tumors/GBS | |||
*Also used to identify leptomeningeal enhancement in meningitis | |||
Diffusion | ===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== | ==Blood== | ||
{| class="wikitable" | |||
|- | |||
! Age of Blood !! T1 Imaging !! T2 Imaging | |||
|- | |||
| Hyperacute || Iso|| Bright | |||
|- | |||
1-3 | | Acute || Iso/Dark || Dark | ||
|- | |||
1-2 | | 1-3 Days || Bright || Dark | ||
|- | |||
2-3 | | 1-2 Wks || Bright || Bright | ||
|- | |||
| 2-3 Wks || Iso/Dark || Dark | |||
|} | |||
==See Also== | ==See Also== | ||
Revision as of 15:14, 16 May 2016
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
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
- 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 |