Chapter 10 - Computed Tomography Flashcards Preview

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Flashcards in Chapter 10 - Computed Tomography Deck (64)
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1
Q

Moving part of the scanner apparatus

A

Gantry

2
Q

The craniocaudal axis of the patient is parallel to the ____-axis

A

Z-axis

3
Q

A circle in the x-y plane but can extend considerably along the z-axis

A

Scanner field of view (FOV)

4
Q

A component in all modern CT scanners that allows the rotating gantry to have electrical connections to the stationary components

A

Slip ring

5
Q

The data that were collected in this scanning pattern correspond to attenuation measurements that are parallel to each other, this geometry is called _____.

A

Parallel beam projection

6
Q

Refers to the data collected at a specific angle of interrogation of the object; a collection of X-rays

A

Projection

*synonymous with the terms PROFILE or VIEW

7
Q

For typical 64 to 128 detector array CT scanners, the FAN ANGLE is approx. _______, while the full cone angle is about ______

A

60 degrees; 2.4 degrees

8
Q

Refers to a fan of data that converges on a vertex, and using rotate-rotate geometry

A

Fan-beam projection

*xray tube (apex of the fan)

9
Q

As modern scanners use more detector arrays, their width in the z-axis dimension give rise to a _______

A

Narrow cone beam geometry

10
Q

Some commercial cone beam CT scanners use flat panel detectors, and these systems may be considered as ______.; cone angle is almost as great as the fan angle

A

True cone beam scanners

11
Q

Center of rotation of the CT gantry

A

Isocenter

12
Q

Defined by the physical extent of the curve detector arrays (the fan angle)

A

Maximum FOV

13
Q

CT scan design where the X-ray tube and detector tube are attached rigidly to the rotating gantry

A

Third generation OR rotate-rotate geometry

14
Q

Product of the mass attenuation coefficient and density

A

Linear attenuation coefficient

*bone and pure iodine have high linear attenuation coefficient values than soft tissue, water or adipose

15
Q

Gray scale values in CT; average linear attenuation coefficient for a volume element (voxel) of tissue in the patient at location(x,y,z)

A

Hounsfield units (HU)

16
Q
HU of:
A. Air
B. Adipose tissue
C. Most organ parenchyma
D. Tissue with iodinated contrast and bone can run much higher
A

A. -1000
B. -80 to -30
C. +30 to +220
D. Can run much higher, to a maximum of +3,095 for most 12-bit CT scanners

17
Q

Term used when referring to a location in the body

A

Volume element (voxel)

18
Q

Picture element

A

Pixel

19
Q

Beam shaping filter

A

Bow tie filter

*the shape of the filter is designed to attenuate more toward the periphery of the field(where the attenuation path thru the patient is generally thinner), which tends to make the signal levels at the detector more homogeneous

20
Q

Using thicker CT slices for interpretation will _____ noise while keeping dose levels _____.

A

Reduce ; low

21
Q

The consequences of a finite focal spot and the highly magnified collimation gives rise to a ______ at the edge of the beam

A

Penumbra

22
Q

Process where X-rays essentially strike lead shielding on the sides of the detector assembly or inactive detectors

A

Overbeaming

23
Q

Preliminary scan in CT

A

CT radiograph(also known as TOPOGRAM/SCANOGRAM/LOCALIZER)

24
Q

The basic step-and-shoot mode of a CT scanner; the table is stationary during the axial data acquisition sequences

A

Axial (also called SEQUENTIAL) CT scan

25
Q

The table moves at a constant speed while the gantry rotates around the patient

A

Helical (also called SPIRAL) scanning

26
Q

Describes the relative advancement of the CT table per rotation of the gantry

A

Pitch

27
Q

Collimates the waste dose at the outer edges of a helical scan

A

Adaptive beam collimation

28
Q

CT scanner acquires data while it also records the ECG info

A

Retrospective cardiac gating

29
Q

The ECG is used to trigger the X-ray tube such that projection data are only acquired during the most quiescent part of the cardiac cycle, end-diastole

A

Prospective cardiac gating

30
Q

Allows a CT scanner to repeatedly image a volume of tissue that is wider than the detector array; the table rocks back and forth a prescribed distance, during the temporal acquisition procedure

A

Shuttle mode

*allows CT perfusion analysis to be performed over a large section of tissue

31
Q

The angular modulation as a function of gantry angle is _____ in ELLIPTICAL body parts and _______ in ROUND body regions

A

Quasi-sinusoidal; Constant

32
Q

Characterizes the influence of the bow tie filter; also characterize differences in individual detector response

A

Air scans

33
Q

Creating the projections from the central data is called ____.

A

Forward projection

34
Q

Computing the image matrix from the projection values

A

Backprojection

35
Q

Th blurring caused by the geometry of the Backprojection can be corrected by deconvolving the measured projection data prior to back projection, resulting in the process of _______.

A

Filtered backprojection

36
Q

Starting point in designing the shape of the filter in the filtered backprojection

A

Ramp function

37
Q

Reduces the high frequency component of the reconstructed image, and tends to abate the noise as a result

A

Roll-off

38
Q

Basic cone beam reconstruction process; reconstructs the entire volume data set simultaneously

A

Feldkampt algorithm OR FDK

39
Q

Projection data is _____ , and the CT image is the _____

A

Known; unknown

40
Q

***page 357

A

Iterative reconstruction

41
Q

A more scientific measure of the spatial resolution characteristics of an imaging system

A

Modulation transfer function (MTF)

42
Q

Defined as the shape of the system response to a point input in the z-dimension

A

Slice sensitivity profile (SSP)

43
Q

The traditional method for quantifying contrast resolution in CT is to visually assess a _____.

A

Contrast detail phantom

44
Q

The direct measurement of “noise”

A

Standard deviation

45
Q

Describes how the noise propagates though an imaging system; a spatial-frequency dependent function

A

Noise power spectrum (NPS)

46
Q

A term referring to the frequency dependence of the noise in an image

A

Noise texture

47
Q

Smaller detector dimensions and oversampling methods can _____ spatial resolution

A

Improve

48
Q

Primary factors that affect contrast resolution (noise) in CT (4):

A
  1. Technique factors
  2. Slice thickness
  3. Reconstruction filter (filtered backprojection)
  4. Reconstruction method
49
Q

Fundamental determinants of the dose levels used for CT scanning

A
  1. kV (does not have a linear relationship with NOISE)

2. mA and 3. Time (have a linear relationship with DOSE)

50
Q

Thicker images are less noisy than thinner images acquired at the same technique levels because _______.

A

Combine signals from more detected X-ray quanta

51
Q

Refers to one with higher average X-ray energies

A

“Hard” X-ray spectrum

52
Q

Has lower average X-ray energies

A

“Soft” spectrum

53
Q

The presence of dense (and higher Z) structures in the X-ray path cause the lower energies in the X-ray spectrum to be preferentially attenuated compared to the higher X-ray energy photons; results in artifacts that appear as WEBBING BETWEEN DENSE REGIONS IN THE IMAGE

A

Beam hardening

54
Q

Occur when the attenuation levels of a region in the patient are excessive

A

Streak artifacts

55
Q

Refers to the use of too few projection images acquired to reconstruct high-frequency objects in the image

A

View aliasing

56
Q

Occur when the CT voxels are large enough to encompass several types of tissues, such as bone or tissues from different organs

A

Partial volume

57
Q

Cone beam acquisition strategies can lead to undersampling in the cone beam angle dimension

A

Cone-beam artifact

*remedy: acquire a more complete data set

58
Q

A stack of attenuating disks separated by low density material; can be used to evaluate cone beam artifacts

A

Defrise phantom

59
Q

ROTATE-TRANSLATE geometry using the pencil beam is referred to as the _____.

A

First-generation CT

60
Q

Rotate-translate geometry with more detectors added forming a narrow fan beam geometry

A

Second-generation CT

61
Q

Rotate-rotate geometry; the X-ray tube and detector array are mounted in a fixed position with respect to each other on a rotating gantry

A

Third-generation CT

62
Q

Uses an entire 360-degree ring of detectors mounting in the stationary frame, with a rotating X-ray tube; rotate-stationary geometry

A

Fourth-generation CT scan

63
Q

Slows the CT gantry to rotate freely and therefore eliminates the need to deal with gantry inertia between scans

A

Slip ring

64
Q

Occurs in third-generation CTs when CT detectors are not properly calibrated with respect to each other

A

Ring artifact