Single Detector VS Multidetector CT Scans Flashcards Preview

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Flashcards in Single Detector VS Multidetector CT Scans Deck (31)
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1
Q

Milestone of multidetector row CT

A

increased scan speed
improved z-axis spatial resolution,
better utilization of the available x-ray power

2
Q

The single-row design was used in

A

both third- and-fourth generation systems

3
Q

How many elements that were arranged in an arc in third generation systems

A

approximately 700 detector elements were arranged in an arc.

4
Q

Fourth-generation systems used ____ in a single row arranged in a complete ring.

A

as many as 4,800 detectors

5
Q

Each detector element is quite wide in the z direction

A

approximately 15 mm

6
Q

Slice thickness in single detector ct scans is controlled by

A

opening or closing of the collimator.

7
Q

The width of the detector limits

A

Slice thickness

8
Q

The largest allowable slice thickness

A

less than the detector width, typically 10 mm.

9
Q

The radiation emitted from the collimated x-ray source in these systems is commonly referred to as

A

fan beam

10
Q

Each gantry rotation produces data for

A

a single slice

11
Q

calculating the area of patient anatomy to be covered

A

multiply the slice increment selected by the number of slices acquired.

12
Q

If slices are contiguous the slice increment will be equal to

A

slice thickness

13
Q

MULTIDETECTOR ROW SYSTEMS also known as

A
  • Multi-slice CT or MSCT
  • Multi-detector CT or MDCT
  • Multi-channel CT or MCCT
  • Multi-row CT or (MRCT less common as abbreviation)
14
Q

How many parallel rows of detectors do multidetector row systems have?

A

4 to 64 parallel rows

15
Q

MDCT provides

A

longer and faster z axis coverage per gantry rotation.

16
Q

What is the scanning slices per year?

A
1991 - 2
1998 - 4
2002 - 16
2003 - 32
Now - 64 with 0.4s rotation
17
Q

Slice thickness in multidetector ct scans is determined by

A

combination of x-ray beam width and the detector configuration

18
Q

The radiation emitted from the collimated x-ray source in these systems is commonly referred to as

A

cone beam

19
Q

Multiple detector channels can be used for

A

either axial or helical data acquisitions

20
Q

Depending on the scanner manufacturer and the number of detector rows, the parallel rows may be:

A
  • Uniform array with equal size

- Variable, with thinner rows centrally and wider rows peripherally.

21
Q

variable-width detector rows are also called

A

adaptive arrays,
non-uniform arrays, or
hybrid arrays.

22
Q

used determine the slice thickness and number of slices that can be acquired simultaneously.

A

size and number of segments

23
Q

Compared with SDCT, for a given slice thickness

A

MDCT results in a fourfold increase in the volume of data acquired in a single rotation

24
Q

the slice thickness of an MDCT scanner is determined by the

A

degree of physical collimation of the x-ray beam and the width of the detectors in the slice thickness (z axis) dimension.

25
Q

The width of the slice is changed by

A

combining different numbers of individual detector elements together.

26
Q

When combined, the electronic signals generated by adjacent detectors are

A

summed

27
Q

currently being used in clinical setting

A

256-row detectors

28
Q

256-row scanners have the ability to

A

image the heart, brain, and many other organs in a single rotation

29
Q

were responsible for the demise of fourth-generation scanning systems

A

MDCT designs

30
Q

To form a complete ring

A

many separate detector elements were required

31
Q

In MDCT, how many detectors will be used?

A

307,200 detectors