Ch. 3 Digital radiographic image processing and manipulation

Question 1

For PSP and FPD, once x-ray photons are converted into electrical signals, the signals are available for…

Answer 1

processing and manipulation

Question 2

What do algorithms determine at the control center?

Answer 2

the image histogram

Question 3

The PSP imaging plate records a….

Answer 3

wide range of x-ray exposures

Question 4

If the entire range of exposures were digitized in a PSP system, what would result? Why?

Answer 4

a low density resolution would result because values at the extremely high and low ends of the exposure range would also be digitized

Question 5

The data recognition program in PSP searches for…

Answer 5

anatomy recorded on the imaging plate by finding the collimation edges and then eliminates scatter outside the collimation

Question 6

If the data recognition program in PSP cannot find the collimation edges, what can happen?

Answer 6

incorrect data collection and images can be too bright or too dark

Question 7

In addition to collimation, what ensures that the appropriate recorded densities will be located?

Answer 7

putting the anatomy in the center of the imaging plate

Question 8

What could happen if the part isn’t centered in the middle of the plate?

Answer 8

The image could be too dark or too light.

Question 9

Define histogram

Answer 9

The data within the collimated area produce a graphic representation of the optimal densities called a histogram and the value of each tone is represented (horizontal axis), as is the number of pixels in each tone (vertical axis).

Question 10

What do the values at the left, right, and middle of the histogram represent?

Answer 10

black, light, and medium areas, respectively

Question 11

If an image is too dark, where will the information be on the histogram?

Answer 11

to the left

Question 12

What is image sampling?

Answer 12

the plate is scanned and the image’s location is determined. The size of the signal is then determined, and a value is placed on each pixel. A histogram is then generated using the image data.

Question 13

When a histogram is generated, what does it allow the system to find?

Answer 13

the useful signal by locating the minimum (S1) and maximum (S2) signal within the anatomic regions of interest on the image and then plots the intensities of the signal on a histogram.

Question 14

On a histogram, what do the x-axis and y-axis represent?

Answer 14

x-axis is the amount of exposure read, and the y-axis is the number of pixels for each exposure.

Question 15

How is kVp represented on a histogram?

Answer 15

low energy (low kVp) gives a wider histogram and high energyy (high kVp) gives a narrower histogram

Question 16

A histogram shows the …

Answer 16

distribution of pixel values for any given exposure

Question 17

A histogram shows the ____ of each of the values, as well as the _____ ____ of values.

Answer 17

frequency; actual number

Question 18

the shape of the historgram is _____ specific.

Answer 18

anatomy (it is constant for each part exposed)

Question 19

Why is it important to choose the correct anatomic region on the menu before processing the image plate?

Answer 19

Because a histogram for a chest looks very different from a histogram of a knee or foot and the raw data used to for the histogram are compared to other normal histograms of the same part.

Question 20

Who started the theory of changing analog to digital over telephone lines? what year?

Answer 20

Harry Nyquist in 1928

Question 21

Who proved Nyquist’s theory ? what year?

Answer 21

Claude Shannon in 1948

Question 22

What is Nyquist’s theory often referred to?

Answer 22

the sampling theorem

Question 23

What does the Nyquist theorem state?

Answer 23

That you need twice the number of pixels of the original signal to be as close to the original signal as possible for a good sample.

Question 24

What happens if you don’t have at least twice the number of pixels to sample?

Answer 24

the result will be a lack of resolution.

Question 25

Does oversampling during a Nyquist theorem give you more information?

Answer 25

NO because the human eye can only perceive so much information

Question 26

Why is there always a loss of detail during PSP imaging?

Answer 26

Because there are a number of conversions that occur-electrons to light, light to digital, and digital to analog-that light photons do not travel in one direction so some light will be lost during the light to digital conversion because light photons spread out.

Question 27

The longer an image is stored…

Answer 27

the more information is lost.

Question 28

When a fluctuating signal is produced, frequencies above the Nyquist frequency cause…

Answer 28

aliasing

Question 29

What happens during aliasing?

Answer 29

a wraparound image is produced, which appears as 2 superimposed images that are slightly out of alignment, resulting in a moire’ effect, which can also happen with grid errors.

Question 30

What is the critical frequency/

Answer 30

When a sampled frequency is exactly at the Nyquist frequency and a zero amplitude signal results. (it results from frequency phase shifts, causing aliasing of the signal)

Question 31

What does automatic rescaling mean/

Answer 31

that images are produced with uniform density and contrast, regardless of the amount of exposure.

Question 32

When do problems occur with automatic rescaling?

Answer 32

when too little exposure is used, resulting in quantum mottle, or when too much exposure is used, resulting in loss of contrast and loss of distinct edges because of increased scatter

Question 33

Rescaling is no substitute for..

Answer 33

appropriate technical factors

Question 34

What is a LUT?

Answer 34

a histogram of the luminance values derived during imaging acquisition

Question 35

Why do we use a LUT?

Answer 35

as a reference to evaluate the raw information and correct the luminance values.

Question 36

What is a mapping function in which all pixels (each with its own specific gray value) are changed to a new gray value.

Answer 36

a LUT

Question 37

There is a LUT for every ____ ____.

Answer 37

atomic part

Question 38

How is a LUT graphed?

Answer 38

by plotting the original values ranging from 0 to 255 on the horizontal axis and the new values (also 0-255) on the vertical axis.

Question 39

How is contrast increased or decreased in a LUT?

Answer 39

by changing the slope of the graph

Question 40

How is the brightness/density increased or decreased in a LUT?

Answer 40

by moving the line up or down the y-axis.

Question 41

Digital systems have a greater ___ ____ than film/screen imaging.

Answer 41

dynamic range

Question 42

Why does a digital image appear linear when graphed?

Answer 42

because all shades of gray are visible, giving the image a very wide latitude.

Question 43

Why do digital systems use various contrast enhancement parameters?

Answer 43

Because if all shades were left in the image, the contrast would be so low as to make adjacent densities difficult to differentiate.

Question 44

What is contrast manipulation?

Answer 44

it involves converting the digital input data to an image with appropriate brightness and contrast using contrast enhancement parameters.

Question 45

In contrast manipulation, how is image contrast controlled?

Answer 45

by using a parameter that changes the steepness of the exposure gradient.

Question 46

In contrast manipulation, how is the brightness controlled?

Answer 46

it can be varied at the toe and shoulder of the curve to remove the extremely low values and the extremely high values.

Question 47

Detail or sharpness is referred to as…

Answer 47

spatial frequency resolution

Question 48

In film/screen how is sharpness controlled?

Answer 48

focal spot size, screen and/or film speed, and OID

Question 49

What affect image sharpness of both digital and film/screen?

Answer 49

focal spot and OID

Question 50

How can digital images be manipulated more for their sharpness?

Answer 50

by adjusting processing parameters

Question 51

What happens after the signal is obtained for each pixel?

Answer 51

the signals are averaged to shorten processing time and storage. The more pixels involved in the averaging, the smoother the image appears. The signal strength of one pixel is averaged with the strength of adjacent pixels (neighborhood pixels)

Question 52

When does edge enhancement occur?

Answer 52

When fewer pixels in the neighborhood are included in the signal average.

Question 53

During edge enhancement, the smaller the neighborhood…

Answer 53

the greater the enhancement

Question 54

When can frequencies be amplified and other frequencies suppressed?

Answer 54

When the frequencies of areas of interest are known.

Question 55

What is high pass filtering?

Answer 55

When the frequencies of areas of interest are known and frequencies can be amplified and other frequencies suppressed.

Question 56

What does high pass filtering do?

Answer 56

increases contrast and edge enhancement.

Question 57

What is masking?

Answer 57

suppressing frequencies

Question 58

What can masking do?

Answer 58

it can result in the loss of small details

Question 59

When is high pass filtering useful?

Answer 59

for enhancing large structures such as organs and soft tissues

Question 60

What is the downfall of high pass filtering?

Answer 60

it can be noisy

Question 61

Other than high pass filtering, what is another type of spatial frequency filtering?

Answer 61

smoothing

Question 62

What is smoothing also known as?

Answer 62

low pass filtering

Question 63

How does smoothing work?

Answer 63

by averaging each pixel’s frequency with surrounding pixel values to remove high frequency noise.

Question 64

What is the result of smoothing?

Answer 64

a reduction of noise and contrast

Question 65

What is low pass filtering (smoothing) useful for?

Answer 65

viewing small structures such as fine bone tissues

Question 66

What are the most common image processing parameters used for?

Answer 66

brightness and contrast

Question 67

What image processing parameter is used to manipulate brightness?

Answer 67

window level

Question 68

What image processing parameter is used to manipulate contrast?

Answer 68

window width

Question 69

The higher the window level, the ____ the image.

Answer 69

darker

Question 70

The wider the window width, the ____ the ___.

Answer 70

lower, contrast

Question 71

Using a mouse to control width and contrast, one direction controls ____ and the other direction controls ____.

Answer 71

brightness; contrast

Question 72

What is veil glare?

Answer 72

anytime a radiographic image is viewed, whether film/screen or digital, unexposed borders around the collimation edges allow excess light to enter the eye.

Question 73

What is the result of veil glare?

Answer 73

the excess light causes oversensitization of a chemical within the eye called rhodopsin and results in temporary white light blindness and is a great distraction that interferes with image reception by the eye.

Question 74

How do they try to fix veil glare in film/screen?

Answer 74

with black cardboard glare masks or special automatic collimation view boxes

Question 75

How doe they try to fix veil glare in digital?

Answer 75

with automatic shuttering to blacken out the white collimation borders

Question 76

What is background removal?

Answer 76

removing the white unexposed borders and results in an overall smaller number of pixels and reduces the amount of information to be stored.

Question 77

What is image stitching?

Answer 77

when anatomy or the area of interest is too large to fit on one cassette, multiple images can be stitched together using specialized software programs.

Question 78

What does image stitching eliminate?

Answer 78

the need for large 36 inch cassettes that were used in film/screen

Question 79

What does image annotation allow for?

Answer 79

a selection of preset terms and/or manual text input and can be particularly useful when such additional information is necessary.

Question 80

How many types of magnification manipulation are there?

Answer 80

2; one for magnifying a specific area of the radiograph and one for zooming the entire radiograph