BT: Radiology

xray appearance: air

black

H20 bright/dark in T1 MRI

dark

CT: energy source

ionizing radiation

radiographs/xrays: energy source

ionizing radiation

MRI: T1 imaging (structure, water color)

lumbar spine, dark

densities: CT vs Xray

similar

ultrasound: commonly views

soft tissues (gallbladdder, kidneys, OB/Gyn)

Ultrasound: energy source

sound waves (non-ionizing)

MRI: energy source

strong magnetic fields, H protons, radiofrequency waves

xray appearance: bone

(metal), so appears the brightest

best for soft tissues: rank

MRI>CT>Xray

CT: common view

AP, PA, Saggital/lateral (R → L or L → R)

radiography (X-ray): common view

AP, PA, Saggital/lateral (R → L or L → R), oblique (at angle),

ultrasound: hyper-echoic

Bright

MRI: T2 imaging (structure, color)

CSF and all H20, bright

ultrasound: hypo-echoic

Dark

radiograph: L&R side of patient body

Our left is patients right

CT: L&R side of patient body

Our left is patients right.

CT: commonly views

ST: lungs, abdomen, pelvis, bone fracture, healing

MRI: commonly views

abdominal organs: liver, pancreas kidneys

MRI: black

air, cortical bone

possible variables seen

air, fat, water, bone

MR T1: better for viewing

anatomy (structures)

xray appearance: fat

hard to see

MR T2: better for viewing

pathology

ultrasound: anechoic

represents fluid, dark ex: gallbladder is dark b/c filled with bile SO sound waves cannot bounce back

MRI: common view

transverse, from patients feet

MRI: shades of grey

water and soft tissue

xray appearance: water

wispy (think of lungs)

CSF/water grey/brighter in CT or Xray

xray