Intro

Question 1

Radiographs are _____ (good/bad) at contrast resolution.

Answer 1

bad

Question 2

Why do we choose radiology as a modality?

Answer 2

idk we shouldn’t it sucks :(
jk jk

accurate representation of orientation and relationship b/t anatomic structures

correct reproduction of anatomy ± pathology

cheap, fast, ubiquitous, good at spatial resolution if adjacent

Question 3

List the Roentgen signs and tell me why they’re important.

Answer 3

they are important bc they help you figure out if something is abnormal or not, and why it is abnormal

size, shape, number, position/location, density/opacity, structure, function

Suzy Says “No, Please Don’t Slap Freddy”

Question 4

Why do we dislike radiographs?

Answer 4

poor detail due to limited contrast
radiation risk
bad at special resolution if overlapping

need >1 view! (2 views min., but depends on what you’re looking at)

error rates high, interpretation result of complex perceptual mechanisms, previous experience plays a large role, attitude impacts interpretation

Question 5

tell me about the basic physics (yuck) of a radiograph/radiation

Answer 5

x-rays generated in X-ray tube, cloud of electrons formed at the cathode in the tube. electrons travel across tube until they get to anode at the focal spot. electrons lose their energy when they hit anode, and photons (x-rays) are produced, radiating in a cone shape from focal spot.

Question 6

what is the focal spot?

Answer 6

area of the anode which receives the beam of electrons from cathode. - apparent source of x-rays

Question 7

what is the byproduct of x-ray production and how to mitigate this?

Answer 7

heat!!
mitigated by rotating anode or focal spot

Question 8

x-rays radiate out in a cone shape from the focal spot and are directed towards the patient. how do we make sure the cone isn’t huge or going away from the patient?

Answer 8

collimation and shielding

Question 9

the quality and quantity of x-rays detected are controlled by multiple factors. tell me about them.

Answer 9

generation - mA/mAs, kVp, distance, grids
absorption/subject factors - density, thickness
detector - DR vs CR vs plain film

Question 10

what is kVp? what happens when you increase kVp?

Answer 10

kilovoltage peak. the speed of electron flow across the tube

increase kVp = increase speed when electrons hit target = greater penetration of x-rays = high PRESSURE hose –> able to penetrate thicker/denser material

Question 11

What is mA/mAs? What happens when you increase mA or mAs?

Answer 11

Milliamperage or milliamere second. the amount of current flowing through the tube

increase mA = increase amount/volume of X-rays produced = high VOLUME hose –> increase amount of black on image (increase density)

Question 12

2x mAs = _____x density/blackness of image

Answer 12

2x

Question 13

increase kVp = ______ scatter = _____ contrast

Answer 13

increase scatter
decrease contrast

Question 14

what does the “grid” do?

Answer 14

reduce scatter to increase contrast
only lets xrays through that are in line with focal spot (like a sieve)

Question 15

what is contrast?

Answer 15

the number of shades of grey between black and white
high contrast = whites and blacks on image, less shades of grey, more difference between shades
low contrast = more shades of grey, less blacks and whites, less difference between shades - picture looks sort of hazy

Question 16

which controls contrast, kVp or mAs?

Answer 16

kVp

Question 17

what is latitude of a radiograph? what does high latitude mean vs low latitude?

Answer 17

range of material thickness that can be imaged.
high latitude = greater amount of different thickness tissues can be seen
low latitude = lower amount of different thickness tissues can be seen

Question 18

what is the relationship between latitude and contrast?

Answer 18

low contrast = high latitude
high contrast = low latitude

(think about kVp. kVp and latitude are intertwined, and when kVp goes up, contrast goes down)

Question 19

what are long-scale radiographs? describe the mAs and kVp for this case. what anatomy do we want a long-scale radiograph for and why?

Answer 19

radiographs that have low contrast and high latitude

low mAs & high kVp

thorax - imaging of soft tissues (more shades of grey!)

Question 20

what are short-scale radiographs? describe the mAs and kVp for this case. what anatomy do we want a short-scale radiograph for and why?

Answer 20

radiographs that have high contrast and low latitude

high mAs & low kVp

MSK - better delineation of bone defects (don’t need to see soft tissue as well, but need to see the difference between black and white really well!)

Question 21

what is the inverse square law in relationship to radiographs? why is this important?

Answer 21

intensity of x-ray beam is inversely proportional to the square of the distance – basically, lower distance = higher intensity

to achieve the same darkness/density:
- increase distance = increase mAs (in order to increase the intensity to account for the inverse square law)
- decrease distance = decrease mAs

Question 22

tissues absorb xrays depending on _____. High _____ = more absorption = _____ image

Answer 22

atomic number
atomic number = more absorption = whiter image

Question 23

list the 5* radiographic capacities from whitest to darkest (how they show up on image)

*there are technically 5, but 6 capacities

Answer 23

metal & contrast media = white
mineral (bone)
soft tissue <–> fluid
fat
air = black

Question 24

what is summation?

Answer 24

as multiple tissue types are exposed, the sum total of their density is represented on radiograph

as density increases, xrays are absorbed to a greater degree –> lighter image

so like, if there are two soft tissue structures partly overlapping, the overlapping section will be lighter than the other parts, even though they are the same material. think about a Venn diagram with the middle part lighter than the outer parts.

Question 25

what is a silhouette sign?

Answer 25

lack of ability to differentiate between similar adjacent tissue types

in order to see the outline of a tissue, it must be surrounded by a tissue of a different density

ex. liver is behind pancreas (don’t think about correct anatomy here, this is just an example of 2 things with the same density) - you just see a big blob on radiograph, you can’t differentiate between the two structures.

Question 26

We want the subject _____ to the plate. Why?

Answer 26

adjacent
less penumbra formed (halo of unsharpness)

Question 27

describe the concept of magnification in respect to radiographs.

Answer 27

the further the subject is from the plate (and closer to the focal spot), the bigger the subject is on the picture (but not actually bigger, just an artifact basically)

Question 28

describe the concept of distortion in respect to radiographs.

Answer 28

if subject is not flat to plate (i.e. part is on plate, other part is closer to the focal spot, tilted), the part that is closer to the focal spot will be bigger and less sharp than the other part

Question 29

bigger focal spot = ____ penumbra = ____ image (worse/better)

Answer 29

larger
worse

Question 30

Motion is ____ for radiographs. it is exacerbated by _______.

Answer 30

bad
increased mAs (long exposure times)

Question 31

What is plain film?

Answer 31

silver plated photographic film. xrays activate silver which stay on film after processing (dark). unexposed areas lose silver (light)

subject to processing errors

old skool way

Question 32

how is digital radiography different from plain film?

Answer 32

detector plate replaces film, but generator remains the same

Question 33

why is digital radiography good? why is digital radiography bad?

Answer 33

good:
- can decrease exposure (plates tend to be more sensitive)
- faster, more convenient processing
- fewer retakes needed
- much more detailed image produced

bad:
- very expensive!
- technically more complicated
- temp sensitive sometimes
- environmentally sensitive sometimes
- difficult to troubleshoot

Question 34

tell me the difference between computed radiography (CR) and direct radiography (DR)

Answer 34

CR: generator and plates look the same, film is covered in hard plastic coated with phosphor that is stimulated by a laser, plate can be reused after processing

DR: generator the same, detector replaces film, xrays hit detector and it captures the distribution of xrays on the surface and sends signal directly to computer.

Question 35

what is the Mach phenomenon?

Answer 35

optical illusion - false white or black lines that appear at sharp boundaries. be careful bc they can mimic lesions

Question 36

what is the contrast background effect?

Answer 36

optical illusion - depending on the background colour, a shape may look like it has a different colour, when in reality it’s the same colour