week 2, lec 2: systems and components

Question 1

what is the physical process of CT

Answer 1

Gantry (x-ray tube to filter to collimator to detector array) to data acquisition to the operating console for post processing

Question 2

how are CT images formed?

Answer 2

• High voltage generator
• CT gantry (patient and table), attenuation measurements, digital data)
• Analogue to digital conversion (ADC)
• Computer processing of this data
• numerical CT image (DAC)
• CT console: image display
• PACS: electronic communication

Question 3

High voltage generator:

what do slip rings do

Answer 3

-Transmit data; electrical connections made by stationary brushes pressing against rotating circular conductor

Question 4

high voltage generator:

what are some consideration for slip ring scanners and what do we need to do to help

Answer 4

• Continuous rotation and scanning; increased heat being added to the tube and no cooling time between rotation
• What we need to do: greater heat capacity, faster cooling method (internal cooling fans and cold room)

Question 5

high voltage generator:

what is the process of the x-ray generator

Answer 5

• main power
• full wave rectifiers (ADC)
• capacitors
• invert circuit
• high voltage transformer
• full wave rectifiers (DAC)
• high voltage capacitors
• high frequency high voltage current
• x-ray tube

Question 6

x-ray tube(s):

what are the demands of the x-ray tube

Answer 6

High power levels leads to problems with: heat generation, heat storage and heat dissipation

Question 7

x-ray tube(s):

what was the problem with 1st/ 2nd gen x-ray tubes

Answer 7

1st and 2nd generation scanners had stationary anodes, oil tubes
- Problem: Poor heat dissipation

Question 8

x-ray tube(s):

what are the benefits of the modern (3rd gen) x-ray tubes

Answer 8

use rotating anodes; creates an increased heat loading on the tube

• Uses a much larger anode compared to earlier models (increase spatial resolution)
• Benefit: produces a heterogeneous x-ray beam

Question 9

x-ray tube(s):

3 characteristics of the straton x-ray tube

Answer 9

• Siemens innovation; revolutionary design
• Entire tube body rotates; allows all the bearings located outside the evacuated tube, and enables the anode to be cooled efficiently
• Oil cooled; anode directly oil cooled
• Enabled high speed volume scanning
• Utilises electron beam to strike anode at 2 focal spots

Question 10

what is a flying focal spot and what advantages does it have

Answer 10

Electronically change from 1 focal spot to another
-With the change of the FS, there is a resultant off-set of the x-ray beam

• Double the no. of slices / detectors
• Increases the spatial resolution
• Significantly suppresses artefacts
• Improves z axis resolution

Question 11

collimation and filtration:

what is filtration and why do we use it

Answer 11

Filtration removes greater % of low energy photon to create a monochromatic beam

Question 12

collimation and filtration:

problems with filtration

Answer 12

beam hardening; can lead to artefact

Question 13

collimation and filtration:

what is a bowtie filter used for and what are its benefits?

Answer 13

- head scans
Bowtie filter:
-removes low energy photons
- creates greater attenuation at the edges to compensate the body shape
- Hopefully a more uniform exit beam

Question 14

collimation and filtration:

what are pre and post patient collimation used for (3 for pre, 2 for post)

Answer 14

Pre patient:
- defines slice thickness
- affects patient dose and amount of scatter present (prevents patient over-irradiation)
Post patient:
- determines the beam width after passing through patient
- ensures proper beam width at the detector end
- reduces the number of scattered photons from entering detectors

Question 15

detectors:

how do CT detectors work

Answer 15

• Collects photon intensity and converts it to electrical signal for reconstruction
• Capture radiation that’s passed through the patient and converts it to electrical signal for reconstruction

Question 16

detectors:

what is needed for CT detectors to work

Answer 16

• Efficiency: ability to capture, absorb and convert x-ray photons to electrical signals
• Must have a high capture / absorption and conversion efficiency rate
• Dynamic range: ratio of the largest to smallest discernible
• High reproducibility and accuracy, stability and minimal afterglow

Question 17

detectors:

what are gas ionisation detectors?

Answer 17

• Individual gas chambers separated by plates: tungsten
• When attenuated, photons interact with the charged plates and the Xenon gas; ionisation occurs
• The ionisation of ions produces an electrical current
• The signal produced varies directly with the number of photons absorbed

Question 18

detectors:

how do solid state detectors work and why are they better than gas ionisation detectors

Answer 18

-All new MSCT use Solid State Detectors (99-100% efficient)

X-ray to crystals to light  photodiode to electrical signal to data recon

Question 19

detectors:

how does scintillation work

Answer 19

-A scintillator emits light when it is struck by x-ray photons

Question 20

detectors:

how is the slice thickness determined in multiple detector array scanners

Answer 20

-Minimum slice thickness determined by the width of the detectors in the slice thickness dimension

Question 21

detectors:

give an example of how slice thickness is determined in multiple detector array scanners

Answer 21

-Minimum slice thickness e.g. 0.5mm can bind to create larger slice/ thickness, e.g. 1mm thick slice

Question 22

detectors:

what is detector configuration

Answer 22

• Rows vs slices vs coverage
• 64 ‘Slice’ machines can have different coverage
• Coverage = Slice thickness x no. of detector rows
• No. of ‘slices’ can be twice the number of detector rows due to sampling
• More slices does not always mean more detail

Question 23

detectors:

what are 3 advantages of multi-slice detectors

Answer 23

• Increase speed and volume coverage
• Increase pitch and tube rotation times: shorter scan times
• Improved spatial resolution
• Thinner slices have better isotropic resolution: flawless MPR and 3D images
• Efficient x-ray beam: larger anodes have better heat dissipation  increases tube life
• Reduction in radiation exposure using dose reduction software

Question 24

data acquisition system:

what is it?

Answer 24

measures transmitted radiation, converts analogue measurements to digital (ADC) and transmits data to the computer

Question 25

data acquisition system:

how does it work and where is it located?

Answer 25

• Located between detector and computer
• Samples each detector and transmits the signal to the computer

1. Detector
2. Current to voltage converter
3. Pre amplifier 
4. Analogue integrator  5. ADC
5. Computer

-It amplifies the electrical signal due to it being very weak

Question 26

data acquisition system:

what does the computer do

Answer 26

• Data processing
• Image reconstruction
• Image display
• Image transmission, storage etc.
• Work station: setting protocols, deciding scanned body part/ how much is getting scanned, exposure factors etc.

Question 27

Couch:

what are its characteristics

Answer 27

• Must be radiolucent; carbon fibre
• Strong
• RT: Flat couch required (reproducible position)
• Various lengths available, depends on scans being performed (longer for ED scans if possible)