Test 3

Question 1

factors that affect xray photon emissions (5)

Answer 1

tube housing
target material
filteration
voltage waveform
prime factors

Question 2

what is a prime factor

Answer 2

factors that directly affect xray quality/quantity of xray emissions

Question 3

list prime factors (3)

Answer 3

mAs
kVp
distance

Question 4

how is prime factors controlled

Answer 4

direct control by radiographer

Question 5

what does xray quantity measure

Answer 5

number of xray photons in useful beam

Question 6

what is associated with xray quantity (AKAs)

Answer 6

xray output
intensity
exposure

Question 7

what affects xray quantity and how

Answer 7

mAs –> less mAs = less photons in beam
kVp —> more = increase by 4 factors
distance –> more distance less photons in beam
filtration –> hardens beam = less photons in beam

Question 8

how is xray quantity is measured (2)

Answer 8

mGya –> milligray in air
milliroentgen (mR)

Question 9

what does mGya measure

Answer 9

number of ion pairs produced in air by quantity of xrays

Question 10

if mAs is doubled what is doubled

Answer 10

quantity is doubled

Question 11

if kVp is doubled = quantity _____

Answer 11

increased by factor of 4

Question 12

what does xray quality measure

Answer 12

penetrating ability of xray beam

Question 13

what is penetrability

Answer 13

distance an xray beam travels in matter

Question 14

what can travel farther away (xray beam)

Answer 14

high energy xrays

Question 15

what affects xray quality and why?

Answer 15

kilovoltage –> gives energy to penetrate
filteration –> takes away energy of photons

Question 16

what does NOT affect radiation quality and why

Answer 16

distance
mAs
nothing to deal with energy of beam

Question 17

importance of penetrability for xray

Answer 17

ability to penetrate deeper in tissues

Question 18

high energy xrays is ____,___

Answer 18

high quality, hard

Question 19

low energy xrays has ____,___

Answer 19

low quality, soft

Question 20

difference between high and low energy xrays

Answer 20

high energy –> penetrates tissues deeply

Question 21

what affects penetrability and give example

Answer 21

atomic number of tissue irradiated
low atomic number = more penetrability
high = less

Question 22

what thickness of soft tissue to reduce xray intensity by half?

Answer 22

3-6 cm

Question 23

how is xray quantity represented

Answer 23

HVL
half value layer

Question 24

what is HVL

Answer 24

thickness of absorbing material to reduce xray intensity by half of original value

Question 25

HVL of diagnostic xray

Answer 25

3-6 cm

Question 26

what does milliamperage measure and direction

Answer 26

xray tube current
number of electrons in tube from cathode to anode

Question 27

if mA increases = ______ (3)

Answer 27

increases for ALL
number of electrons
mass density of patient
exposure time

Question 28

directly or inversely proportional?
mA and number of electrons
mA and exposure time
mA and density (mass)

Answer 28

directly for ALL

Question 29

mA
s
stands for what

Answer 29

mA = tube current
s = exposure time

Question 30

what is the primary control for image receptor exposure

Answer 30

mAs

Question 31

how is image receptor exposure measured by

Answer 31

exposure value
ex. I#, E#, EI#, S#

Question 32

how do you know if image is underexposed or overexposed

Answer 32

under –> value below
over –> value

Question 33

how do you know if image is underexposed or overexposed

Answer 33

under –> value below
over –> value over

Question 34

low mAs = ____
high mAs = ____

Answer 34

underexposed & grainy
overexposed

Question 35

kVp controls what? (2)

Answer 35

quantity and quality of xray beam
signal to digital detector

Question 36

increase kVp = increase ____

Answer 36

speed and energy of electrons

Question 37

optimal range for kVp

Answer 37

60-110

Question 38

proper balance for patient dose

Answer 38

higher kVp and lower mAs

Question 39

how does kVp affect quality

Answer 39

more energy = greater penetrability

Question 40

how does kVp affect quantity

Answer 40

increase kVp = more interactions at target

Question 41

what is subject contrast resolution

Answer 41

visibility of details of clear white through various shades of gray/black
ex. lungs

Question 42

what affects subject contrast resolution

Answer 42

less kVp = less penetrability = less signals = less gray tones

Question 43

how can image contrast be fixed

Answer 43

computer processing

Question 44

what does distance affect

Answer 44

intensity of xrays
IR exposure

Question 45

_____ distance =
_____ intensity
_____ IR exposure

Answer 45

increase = decrease & decrease

Question 46

compensator for distance?

Answer 46

mAs

Question 47

inverse square law

Answer 47

intensity of radiation at a given distance from point source has a inverse relationship

Question 48

what does inverse square law calculate

Answer 48

relationship between distance and xray intensity

Question 49

what measures xray intensity

Answer 49

mR

Question 50

what explains distance’s relationship to intensity and IR exposure

Answer 50

exposure maintenance formula

Question 51

if mAs is increased –> distance is ____

Answer 51

decreased by the square of the change

Question 52

what is the exposure maintenance formula used for

Answer 52

to compensate effects for changes in distance will have on IR exposure on image

Question 53

how is density and contrast primarily controlled

Answer 53

post processing parameters

Question 54

if changes applied to mAs, kVp, and distance but no visual effects –> how does that occur

Answer 54

exposure latitude of digital imaging

Question 55

what are the factors for digital image quality

Answer 55

mAs
kVp
distance

Question 56

exposure latitude controls what?

Answer 56

brightness / contrast

Question 57

When x-rays strike matter what occurs

Answer 57

attenuate
direct transmission –> passes through unaffected
scatter

Question 58

Differential absorption is

Answer 58

difference between the x-ray photons that are absorbed photoelectrically and those that penetrate the body

Question 59

why does differential absorption occur

Answer 59

energy levels in the photons and anatomic parts vary = different absorption of primary beam at varying degrees

Question 60

what does differential absorption control/create

Answer 60

contrast –> varying grays
creates image formation and darken areas

Question 61

what % of xray actually create the image?

Answer 61

0.5%

Question 62

how do we increase differential absorption? why?

Answer 62

decrease kVp = more mAs = more photons to interact with to have varying grays

Question 63

what is attenuation

Answer 63

how much photons in beam have been reduced after passing through given thickness of material

Question 64

Differential absorption and attenuation of the x-ray beam depend on:

Answer 64

The atomic number of the atoms in tissue
The mass density of tissue
The x-ray energy

Question 65

attenuation is greater with _____

Answer 65

thicker patients –> body mass

Question 66

attenuation reduces xrays how?

Answer 66

in % based off EACH thickness of material

Question 67

Quality and quantity of photons should be ___________ with ____________ body part thickness

Answer 67

increasing, increasing

Question 68

high atomic number = _____ attenuation

Answer 68

greater

Question 69

____ density = ____ attenuation

Answer 69

lower density
lower attenuation

Question 70

4 major substances for variations in x-ray absorption?

Answer 70

air
fat
muscle
bone

Question 71

what controls the contrast of an image (variations in the shades of gray)

Answer 71

DIFFERENTIAL ABSORPTION

Question 72

what substance has:
high actual atomic number
low effective atomic number
low tissue density

Answer 72

air

Question 73

what substance absorbs the least amount of photons and why?

Answer 73

air
less packed atoms (density) = less interactions = more photons reaching IR (direct transmission)

Question 74

what does it mean if more photons reach the IR

Answer 74

IR gets a greater exposure

Question 75

what substance has:
lowest effective atomic number
lower tissue density than muscle

Answer 75

fat

Question 76

what substance has a tissue density similar to water

Answer 76

fat

Question 77

why can we see a kidney in a KUB

Answer 77

the organ is surround by fat –> increased tissue density = visibility

Question 78

what substance has:
high atomic number
high effective atomic number
higher density than fat

Answer 78

muscle

Question 79

list substances on tissue density from lowest to highest

Answer 79

air –> fat –> muscle –> bone

Question 80

list substance on atomic number from low to high

Answer 80

fat –> muscle –> bone –> air

Question 81

what substance is the greatest attenuator

Answer 81

bone

Question 82

why can Psoas muscles on a KUB be seen

Answer 82

greater amount of absorption

Question 83

why do bones have a high atomic number

Answer 83

calcium –> very dense

Question 84

what substance has:
greatest tissue density
high atomic number
high effective atomic number

Answer 84

bone

Question 85

what substance has the highest absorption rate

Answer 85

bone

Question 86

which substance allows for the least amount of photons to reach the IR?
highest amount?

Answer 86

bone
air

Question 87

why is direct transmission important for images

Answer 87

provides image that represents the anatomic part –> passes through anatomic structures = darker areas

Question 88

what does scatter xray produce (4)

Answer 88

noise
lower image contrast
less image visibility
extra patient dose

Question 89

scatter xray output

Answer 89

ionization and loss of energy

Question 90

why is scatter xray dangerous

Answer 90

loss of energy = ion –> energy absorbs into body = molecular damage

Question 91

how is scatter created

Answer 91

compton interaction

Question 92

factors that affect scatter

Answer 92

kVp

x-ray field size

body part thickness –> mass tissue density

Question 93

scatter increases with which factors

Answer 93

ALL FACTORS –> kVp, field size, mass tissue density

Question 94

____ kVp = ____ compton = ____ photoelectric

Answer 94

increase
increase
decrease

Question 95

____ xray energy = _____ scatter

Answer 95

increase
increase

Question 96

thicker patients = ____ kVp

Answer 96

increases

Question 97

kVp affects what? Increase kVP = ?

Answer 97

image contrast is reduced

Question 98

larger field size = ?

Answer 98

increased scatter and patient dose

Question 99

why would a larger field size increase dose?

Answer 99

mAs would have to be increased
more body area exposed

Question 100

what factor would have a higher photoelectric effect and less compton? ex?

Answer 100

higher atomic number
ex. bone absorption (photoelectric) = less scatter

Question 101

if thickness of tissue increases what occurs?

Answer 101

increase of :
scatter
field size
angle of scatter

Question 102

30cm thick exposure would produce how much scatter? ex?

Answer 102

100%
abdomen

Question 103

what is remnant radiation

Answer 103

remaining xray beam after being attenuated by patient

Question 104

Remnant radiation is composed of?

Answer 104

transmitted and scatter radiation

Question 105

remnant radiation is also known as

Answer 105

remnant beam or exiting radiation

Question 106

approximately ______of the x-rays actually create the image

Answer 106

.5%

Question 107

what technique would produce the least amount of scatter?

Answer 107

a technique involving a high kVp and low mAs

Question 108

scatter vs diagnostic rays

Answer 108

scatter travels in divergent paths and more likely grid absorbed

Question 109

____ atomic number = ____ attenuation = ____ scatter

Answer 109

increase
increase
decrease

Question 110

part of useful beam and not

Answer 110

useful: transmitted
NOT: scatter

Question 111

methods to reduce scatter

Answer 111

restricting beam (collimating)
use grid
technique

Question 112

what is transmitted radiation

Answer 112

radiation (rays) that actually hit the IR from the primary beam

Question 113

why do we get different types of radiation

Answer 113

beam is heterogenous –> varying energy levels

Question 114

what is beam restriction dependent on

Answer 114

body part size

Question 115

beam restriction pro? why?

Answer 115

less scatter = better image
less primary photons = less patient dose/ tech dose

Question 116

___ collimation = increased _____

Answer 116

increase
spatial resolution

Question 117

collimator pro?

Answer 117

regulates primary beam field size
light source to aid positioning

Question 118

purpose of shutters

Answer 118

regulate field size –> cones in beam
bottom: reduces penumbra
upper: reduces off focus radiation

Question 119

bottom shutters affects what part of beam

Answer 119

periphery of beam

Question 120

how is a penumbra produced and effects what?

Answer 120

ratios of SOD/OID = fuzzier image (edge unsharpness)

Question 121

increased penumbra effect =

Answer 121

increase OID
decrease SOD

Question 122

decrease penumbra effect =

Answer 122

decrease OID
increase SOD

Question 123

why do we have a penumbra effect

Answer 123

x-ray emitted has dimensions (geometric)

Question 124

why do we get off focus radiation? what does it produce?

Answer 124

photons not produced at focal spot exits and hits IR = ghosting after image

Question 125

what is repeatable error penumbra or off focus radiation

Answer 125

penumbra

Question 126

rules of collimation

Answer 126

field size never larger than cassette
collimate to proper anatomic area

Question 127

positive beam limitation device (PBLD)?
PRO?

Answer 127

auto collimation to size of cassette
good: reduces overexposure

Question 128

when to use masking
when not to use masking

Answer 128

off focus radiation occurs
cropping exposure field after image taken

Question 129

what is aperture diaphragm

Answer 129

simple beam restricting device –> additional filtration
made of lead has hole in center attaches to xray tube

Question 130

aperture diaphragm pro? ex?

Answer 130

fixes field size
increases spatial resolution
decreases scatter
EX. fractures in extremities

Question 131

type of aperture diaphragm
PRO?
ex when used?

Answer 131

cone and cylinders
most effective for scatter control
dentist

Question 132

what is a grid

Answer 132

absorbs scatter before it reaches the IR

Question 133

grid pro?

Answer 133

improves contrast
reduces scatter

Question 134

who created the grid
when
issue

Answer 134

Gustav Bucky
1913
grid line superimposed anatomy

Question 135

who improved the grid
when
how

Answer 135

Hollis Potter
1920
moving grid during exposure = blurs lead grid lines

Question 136

when to use a grid
not use grid

Answer 136

body part thickness over 13 cm or 10 cm for film
kVp above 70
NO: children

Question 137

how to know when to use a grid

Answer 137

technique charts and manuals for kVp
calipers for thickness

Question 138

ASRT recommends usage of grid

Answer 138

use grid based on vendor
body parts over 10 cm

Question 139

why do we not use a grid on children
exceptions:

Answer 139

grid = increase patient dose
exception: fat ass kid –> over 12 cm

Question 140

pediatric vs adult radiosensitivity

Answer 140

pediatric 10x more

Question 141

grid constructed of

Answer 141

radiopaque strips with interspace material that is radiolucent

Question 142

radiopaque strips made of what? why?
interspace material made of what? why?

Answer 142

lead –> high atomic number = high attenuation rate
aluminum or plastic –> absorbs less photons = produces image
overall hardens beam

Question 143

grid ratio

Answer 143

height of lead strips to distance between strips

Question 144

higher grid ratio =

Answer 144

less scatter
increase grid errors –> position has to be perfect

Question 145

grid frequency

Answer 145

number of grid lines per inch or cm

Question 146

most common grid frequency

Answer 146

85-103 lines/in

Question 147

higher grid frequency =

Answer 147

thinner lead strips

Question 148

higher frequency
15:1 or 6:1

Answer 148

15:1

Question 149

contrast improvement factor measures?

Answer 149

how well a grid functions to improve contrast

Question 150

____ scatter = ____ contrast and _____ contrast improvement factor

Answer 150

increase
decrease
decrease

Question 151

grid conversion factor indicates?

Answer 151

increase of mAs needed when converting no grid to grid

Question 152

compensations if grid is used and why

Answer 152

increase mAs –> grid decreases quantity

Question 153

grid conversion factor also known as?

Answer 153

bucky factor

Question 154

____ grid ratio = ____ bucky factor

Answer 154

higher
higher

Question 155

___ kVp = ___ bucky factor

Answer 155

increase
increase

Question 156

____ grid frequency = ____ mAs

Answer 156

increase
increase

Question 157

grid motion types

Answer 157

stationary or moving

Question 158

con of stationary grid

Answer 158

grid lines may be seen

Question 159

rule of grids

Answer 159

CR must be perpendicular to avoid grid lines
dependent on tissue thickness

Question 160

grid types

Answer 160

parallel
focused
crosshatched

Question 161

parallel grid directions
xray tube effect

Answer 161

lead and interspace strips run parallel to each other
tube can be angled with length of grid without cut off

Question 162

focused grid direction

Answer 162

central grid strips parallel but as strips move away they become more inclined –> like central beam

Question 163

when would a focused grid be used

Answer 163

focal range is wide for low ratio grids
focal range is narrow for high ratio grids

Question 164

focused grids used for?

Answer 164

specific ranges of SID
focal distance
range

Question 165

crosshatch grid direction

Answer 165

2 linear grids perpendicular to each other

Question 166

crosshatch grid pro
con

Answer 166

best scatter clean up
no need for tube angle
CON: MOST grid errors

Question 167

when would a crosshatch grid be used

Answer 167

biplane cerebral angiography

Question 168

reasons for grid errors

Answer 168

use of focused grids
off centered tube or incorrect distance tube

Question 169

how to prevent grid error

Answer 169

proper tube/grid alignment

Question 170

why is grid error bad

Answer 170

unwanted absorption of primary radiation –> grid cut off

Question 171

what is grid cut off

Answer 171

the primary beam angled into the lead, absorbing undesirable primary radiation

Question 172

grid cut off effects

Answer 172

decrease density on periphery film

Question 173

types of grid errors (5)

Answer 173

off level
off focused
off center
upside down
moire effect

Question 174

off level occurs when?
fix?

Answer 174

when tube is angled across long axis of grid strips
FIX: grid perpendicular to CR

Question 175

off focused occurs when?

Answer 175

distance used other than specified for focal range

Question 176

off center occurs when?
effect on image?

Answer 176

CR does not hit grid at center
cutoff visible more on one side of image

Question 177

upside down occurs when?
effect on image?

Answer 177

focused grid not aligned with labeled tube side facing xray tube and IR in stationary
effect: uneven exposure

Question 178

moire effect occurs when? common with?

Answer 178

in digital systems
when grid lines are seen and scanned parallel to scan lines
common: stationary grids in mobile digital system

Question 179

alternative to using a grid
does what?

Answer 179

air gap technique
reduces scatter by creating gap

Question 180

how to use air gap technique

Answer 180

increase OID –> patient far from IR

Question 181

Pro and cons of conventional grid use

Answer 181

PRO: reduce scatter and increase contrast
CON: increase dose, stationary grid errors, and increase potential repeat

Question 182

when would a stationary grid be used

Answer 182

portable (mobile) imaging

Question 183

pro and con of digital IR

Answer 183

con: highly sensitive scatter
pro: good scatter correction with digital processing

Question 184

when to use a grid on a digital IR

Answer 184

tissue thickness greater than 13cm
extreme amounts of scatter produced

Question 185

when not to use a grid with examples
exceptions

Answer 185

aerated thorax
chest
thoracic spine
sternum
ribs above diaphragm
EXCEPT: if patient is very large

Question 186

what grid ratio do we use for digital IR

Answer 186

lower grid ratios (6:1 portable)

Question 187

types of noise

Answer 187

scatter and mottle

Question 188

how do we get mottle

Answer 188

not enough mAs to get interactions

Question 189

mottle effect on image

Answer 189

pixelated image
loses sharpness of image

Question 190

no technique compensation
what effects occur by removing grid

Answer 190

reduces probability of mottle

Question 191

what would the technique compensation be by removing the grid

Answer 191

mAs decrease by 1/2
or decrease all technique by 1/3

Question 192

can post processing feature remove scatter?

Answer 192

no just removes effects of scatter

Question 193

when was the virtual grid software created and by who?

Answer 193

2014 by Fujifilm

Question 194

virtual grid software steps

Answer 194

scatter xray estimation
grid effect calculations
granularity improvement processing

Question 195

how does scatter xray estimation work

Answer 195

estimates dose and thickness to estimate the amount of scatter will be produced

Question 196

how does grid effect calculation work

Answer 196

determines intensity of contrast correction is needed

Question 197

how does granularity improvement processing work

Answer 197

analyzes contrast-to-noise ratio to apply noise reduction algorithms

Question 198

what cannot be altered after exposure

Answer 198

grid ratio
amount of scatter

Question 199

virtual grid vs plain grid

Answer 199

virtual:
reduces dose
reduces possibility for grid errors
flexibility to compensate during exposure
reduces effects of scatter
accepts larger tissue thickness (13cm)
plain grid:
increase dose and grid errors
reduces scatter
cannot be changed after exposure
less tissue thickness (10cm)

Question 200

when would we use virtual grid software

Answer 200

knee
shoulder
c-spine –> not for swimmers
lat/oblique mandible
most pediatric procedures

Question 201

is grid the most important way to reduce patient dose? why?

Answer 201

no grid less important
most procedures can be done non grid and over 13 cm
grid ratio is less important –> lower ratios can be commonly used

Question 202

why is pathology important

Answer 202

diseases can alter body so technique needs to be altered
better patient care

Question 203

pathology is the study of what

Answer 203

study of disease process of how it affects structural and functional changes

Question 204

pathological conditions affects what

Answer 204

thickness and composition of tissues

Question 205

types of pathological conditions

Answer 205

additive and destructive

Question 206

how does additive condition affect the body

Answer 206

increases thickness
increase effective atomic number
increase tissue density

Question 207

how does additive conditions affect an image? why?

Answer 207

more attenuation = more white

Question 208

disease worsens for additive condition =

Answer 208

decrease in IR exposure

Question 209

____ technique for additive condition? why?

Answer 209

increase –> harder to penetrate tissue due to increase in thickness/atomic number/density

Question 210

if additive …. how much do we increase kVp

Answer 210

5-15% manually
or AEC system changes mAs automatically but not kVp

Question 211

how does destructive condition affects the body

Answer 211

decreases tissue thickness
decrease effective atomic number
disease density

Question 212

how does destructive conditions affect an image? why?

Answer 212

darkens image –> less attenuation so more photons go straight to IR

Question 213

disease worsens for destructive condition =

Answer 213

increase in IR exposure

Question 214

____ technique for destructive condition? why?

Answer 214

decrease because the photons go straight to IR already making image too dark

Question 215

abscess-encapsulated infection affects body how?

Answer 215

increase tissue thickness
can alter composition

Question 216

edema-swelling affects body how?

Answer 216

increases tissue thickness
can alter composition in lungs

Question 217

tumor-abnormal new growth affects body how?

Answer 217

increase tissue thickness
can alter composition in lungs and bone

Question 218

types of pathology that does not need change in technique

Answer 218

ulcers
diverticula
simple fractures

Question 219

pathology that does not need xray diagnosis

Answer 219

diabetes
anemia
meningitis

Question 220

kvp and mAs changes to accommodate pathology

Answer 220

5%-15% kVp
25%-50% mAs

Question 221

15% kVp increase = ___

Answer 221

2x exposure

Question 222

15% kVp decrease = _____

Answer 222

2x mAs to maintain exposure