Image Acquisition - Spatial Resolution and Distortion

examples where distortion is used advantageously: 1. sigmoid colon 2. clavicle 3. oblique lumbar spine

all of the above

spatial resolution is influenced by which of the following: 1. OID 2. SOD 3. SID

all of the above

The area on the anode where the high speed electrons hit is called the

actual focal spot

refers to the size of the area on the anode target that is exposed to electrons from the filament

actual focal spot

which focal spot is larger

actual focal spot

what type of shape distortion would be caused by angling the xray tube along the long axis of the part being examined

elongation

two types of shape distortion

elongation and foreshortening

how does increasing SID affects spatial resolution

increase spatial resolution

which one of these maneuvers would cause the least magnification of the thoracic spine on a radiographic image

placing the patient on the xray table face up (supine)

true or false: the effective focal spot is always smaller than the actual focal spot

true

what is the average anode angle range of a diagnostic xray tube

15-17 degrees

spatial resolution is directly related to: 1. mAs 2. Focal-spot size 3. SID

3 only

images of objects that appear longer than the true object

elongation

types of shape distortion include: 1. foreshortening 2. magnification 3. elgonation

1 and 3

which of the following will contribute to the production of longer (low) scale of contrast: 1. an increase in kVp 2. an increase in grid ratio 3. an increase in photon energy

1 and 3

how many focal spots are generally found in an xray tube

2

which of the following will produce the greatest distortion

37 degree PA axial projection of the skull

magnification factor

M= SID/SOD

single most important factor controlling size distortion

OID

If the radiographer is unable to achieve a short OID because of the structure of the body part or patient condition, which of the following adjustments can be made to minimize magnification distortion?

a longer SID should be used

how does OID affect size distortion

as OID increases, the size increases and spatial resolution decreases

at which portion of the xray beam is the effective focal spot the largest (least spatial resolution)

at the cathode end

how does a large focal spot compare to a small focal spot as it relates to anode heat capacity

can handle heat produced by large exposures

where is focal spot blue the greatest

cathode side

how does increase OID affect spatial resolution

causes magnification

how does SID affect size distortion

decreasing SID will cause more distortion

focal spots are represented in mm's. Example 0.3, 0.6, 1.0, or 1.2. Which focal spot doe these numbers represent: actual or effective focal spot

effective focal spot

refers to focal spot size as measured directly under the anode target

effective focal spot

the radiographic misrepresentation of either the size or the shape of the anatomic part

distortion

what determines focal spot size

filament size

as focal spot size increases, distortion would

focal spot does not affect magnification

a condition caused by angling the xray tube against the main axis of the part is

foreshortening

images that appear shorter than the true objects

foreshortening

what type of shape distortion would be caused by angling the xray tube against the main axis of the part being examined

foreshortening

to get a magnification factor of 2, where should the object be placed

half way between the image receptor and xray tube

A table top radiograph of the knee is made using 6 mAs, 70 kVp and a 40 inch SID. If a repeat image of the same knee needs to be done in the Bucky, with compensation of exposure factors to maintain receptor exposure, magnification/distortion will

increase

how to best reduce size distortion if there is a large OID

increase SID

states that by angling the target on the anode, one makes the effective focal spot smaller than the actual focal spot

line focus principle

which of the following terms/units is used to express the spatial resolution of a diagnostic image

line pairs per millimeter (lp/mm)

another name for size distortion

magnification

indications how much size distortion or magnification is demonstrated on the IR

magnification factor

what is considered the greatest enemy of spatial resolution

motion

an undistorted radiographic image will result when the object plane and the image place are

parallel

unsharpness/blur produced by xray tube focal spots

penumbra

two types of distortion

size and shape

misrepresentation of the shape of the structure recorded as compared to the actual shape of the structure

shape distortion

an increase in the image size of an object compared with its true or actual size

size distortion

does a small or large focal spot create a higher spatial resolution

small

the sharpness of the structural edges recorded in the image

spatial resolution

OID is related to spatial resolution in which of the following ways?

spatial resolution is inversely related to OID

the Line-Focus Principle expresses the relationship between

the actual and the effective focal spot

how does part thickness and body part location affects spatial resolution

the larger the OID, the less spatial resolution

how do part/object thickness affect distortion

thick objects have more distortion

ow does distortion affect spatial resolution

when an image is distorted, spatial resolution is reduced