Radio - Mri Ct Flashcards
Hyperattenuating
White
Hypoattenuating
Not attenuating much radiation
Black
Window
Range of HU represented on a specific image
Hounsfield units
Representation of linear attenuation coefficient for each voxel
Level
Central value of the HUs displayed
Wide WW
400-1000+ HU
Best for imagin tissue types that vary greatly
Goal is to see all the various tissues in one image
Subtle density discrimination is lost
Lung - both low density parenchyma & high density vascular structures
Narrow WW
50-400 HU best for imaging tissue types with similar densities
Provide greater density discrimination & contrast
Brain - white & gray matter
Pixel vs voxel
Pixel - picture element and only has 2 dimensions
Voxel - volume picture element and is 3 dimension
X & y axis in voxel values
X & y are determined by image matrix size
Z axis
Z axis is based on the slice thickness
Ct applications - bone
Fractures, elbow dysplasia, ear disease, spinal disease
Ct applications - nasal
Tumors, rhinitis
Ct applications - lungs
Primary or metastatic tumors, diffuse lung disease, lung lobe torsion
Ct applications - abdomen
Masses, portosystemic shunts
Advantages of CT
More detailed view of anatomy without superimposition
Faster & less expensive of MRI
Best for bone, lung and abdomen
Disadvantages of CT
Radiation exposure
More expensive than radiographs
Poor soft tissue contrast when compared to MRI
MRI image is created by
The Anatomic differences and configuration of atoms and molecules within the body. MRI is a large magnet that targets hydrogen protons
Hyper intense
White - large amts of intensity
Hypointensity
Black - low amounts of intensity
T2 sequence
Fluid is bright
T1 sequence
Fluid is dark
Stir inversion sequence
Suppresses fat signal
Flair inversion sequence
Suppresses CSF signal
Gradient echo
Fast field echo
Great for detecting hemorrhage
