Principles & implementation of automatic exposure …UKRC 2007 - CT teaching course - 3rd talks...
Transcript of Principles & implementation of automatic exposure …UKRC 2007 - CT teaching course - 3rd talks...
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UKRC June 07
Principles & implementation of automatic exposure control systems in CT
Maria LewisImPACT
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UKRC June 07
Overview
• Why AEC in CT?
• Principles of AEC in CT
• Implementation of AEC in CT
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UKRC June 07
Why AEC in CT?
Cruise Control
Small hillless fuel
flow
Steep hillmore fuel
flow
Courtesy GE
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UKRC June 07
Why AEC in CT?
• Adjust tube current (mA) for variations in patient attenuation to achieve required image quality
• The driving force behind development of AEC systems in CT has been dose reduction
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UKRC June 07
Why AEC in CT?
• CT offers ideal opportunity for tailoring mA to changes in patient attenuation
Power Data
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UKRC June 07
Why AEC CT?• The mA can be adjusted at three levels:
– for overall patient size
– for varying attenuation along z-axis
– for varying angular attenuation
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UKRC June 07
Why AEC in CT?• Benefits of AEC:
– More uniform image quality (noise)– Reduced dose to less attenuating regions– Reduced load on x-ray tube
55mAs
130mAs
110mAs
body axis
140mAs
Images courtesy Erlangen University, Germany
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UKRC June 07
Principles of AEC in CT
• Obtaining attenuation data and calculating required mA– patient size and z-axis – angular
• How much is the mA adjusted for changing patient size?– Do we want to keep image quality constant for different sizes?
• Defining image quality requirements– What image quality are we aiming for?
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UKRC June 07
Principles of AEC: patient size & z-axis
• Acquisition of attenuation data– SPR performed → attenuation data at each z-position
• Water equivalent diameter calculated for each level– max attenuation level compared to a standard size– allows relative mA to be calculated
Water equivalent diameter
Maximum attenuation
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UKRC June 07
Principles of AEC: patient size
• If adjusting for overall patient size mA calculated for level of maximum attenuation is used throughout the examination
Water equivalent diameter
Maximum attenuation
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UKRC June 07
Principles of AEC: patient size
• For different patient sizes the appropriate mA will be used
Water equivalent diameter
Maximum attenuation
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UKRC June 07
Principles of AEC: z-axis
• For z-axis modulation the attenuation at each level is calculated relative to maximum
• For each rotation the appropriate mA will be used
Maximum attenuation
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UKRC June 07
Principles of AEC: angular
• Method 1: Prospective calculation from SPR – x & y dimensions of ellipse calculated
from information in attenuation profile– tube current varied sinusoidally during
rotation
AP attenuation profile from SPR
APR Lat PAL Lat
max
min
mA
y = x
yxθ
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UKRC June 07
Principles of AEC: angular
• Method 2: ‘On line’ modulation– uses attenuation data from previous rotation– adapts tube current to patient attenuation ‘on the fly’
Diagram adapted from Siemens
X-ray tube
Detector
Attenuation information
Applied mA
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UKRC June 07
Principles of AEC: angular
• Noise in image is governed by most attenuating projections• Reducing mA from AP direction does not change noise
significantly but reduces dose
with angular mA modulation
171mAs~50% dose reduction
327mAs
without angular mA modulation
Courtesy Siemens
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UKRC June 07
Principles of AEC in CT
patient size
XX
ZZYY
Diagram courtesy GE
z-axis variation
angular variation (x-y)
x, y, z: 3D mA modulation
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UKRC June 07
How much is the mA adjusted for changing size?
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UKRC June 07
How much is the mA adjusted for changing size?
• To maintain constant image noise need constant signal to detectors
• Half value layer (HVL) of CT beam in tissue ≈ 4 cm – Double mA for every increase of 4 cm– Halve mA for every decrease of 4 cm
-4 cm34 cm: 120 mA
+ 4 cm 42 cm: 480 mA
Ref size: 38 cm Ref mA: 240
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UKRC June 07
How much does mA change with attenuation?
• Do we want to maintain constant noise with changing attenuation? – Smaller patients require lower noise– With larger patients can accept more noise
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UKRC June 07
How much is the mA adjusted for changing size?
Constant image noise
0.25 0.5 1.0 1.5 2.0 2.5 3.0Relative attenuation
More noise for obese patients
obeseslim
Courtesy Siemens
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UKRC June 07
Defining image quality requirements
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UKRC June 07
Defining image quality requirements
• AEC system requires a reference level from which to adjust the mA
• This must be defined by the user
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UKRC June 07
Defining image quality requirements
• You can have perfect adaptation of mA to patient attenuation • Inappropriate setting of image quality can result in dose increase
table position 0
500
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4000
atte
nuat
ion
I_0
/ I
0
50
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tube
cur
rent
AttenuationTube current
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UKRC June 07
Defining image quality requirements
• Two approaches used on AEC systems to define image quality:– standard deviation of CT numbers (noise level)– reference mA: mA for standard patient required to give
appropriate image quality
S.D. 9.0 HU 240 mA
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UKRC June 07
Implementations of AEC in CT
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UKRC June 07
Implementations of AEC in CT
Patient size z-axis
Auto mA
DoseRight ACS DoseRight ZDOM
CARE Dose 4D
SUREExposure 3D
angular
GE SmartmA
Philips DoseRight DDOM
Siemens
Toshiba
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UKRC June 07
GE: AutomA / SmartmA
• AutomA: Patient size and z-axis
• SmartmA: Angular modulation– can be selected additionally*– uses prospective attenuation from single
Scout View
• mA adjusted to maintain ~ constant noise
* On LS 5.X platforms
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UKRC June 07
GE: defining image quality requirements
Courtesy GE
10.0
• Specify a ‘noise index’ (NI)– NI defined as s.d. of CT numbers
in water phantom with ‘standard’ algorithm
– Set min & max mA• Patient s.d. ~ matches noise index
for standard algorithmScout view
mA calculated to match s.d. for ‘standard’ alg.
s.d.≈ 10.0 in patient with ‘standard’ algorithm
10.0
s.d. = 10.0 in water phantom for ‘standard’ algorithm
10.0
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UKRC June 07
GE: defining image quality requirements
• Different algorithms: patient s.d. will not match the noise index
40.0
Scout view
mA for patient calculated to match s.d. for ‘standard’ alg.
Noise index = 10.0
10.0
s.d.≈ 40.0 in patient with ‘bone’ algorithm
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UKRC June 07
GE: defining image quality requirements
• Increasing Noise Index (NI):– increases noise– decreases dose
NI 7.83 CTDIvol 29.1 mGy
NI 15.0 HUCTDIvol 7.9mGy (-73%)
NI 9.0 CTDIvol 21.8 mGy (-25%)
NI 11.1 CTDIvol 14.6 mGy (-50%)
Images courtesy GE
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UKRC June 07
Toshiba: SUREExposure 3D• SUREExposure 3D
– incorporates all three levels of modulation – angular (x-y) modulation: ON/OFF
• uses prospective attenuation from Scanogram
• Two Scanograms required – use same kV as for scan
• mA adjusted to maintain ~constant noise
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UKRC June 07
Toshiba: defining image quality requirements
• Specify s.d. level (or ‘image quality level)– patient mA calculated to achieve this noise level at any
scan parameter settings• Set min & max mA
Courtesy Toshiba
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UKRC June 07
Siemens: CARE Dose 4D
• CARE Dose 4D: all three levels of AEC applied – some exceptions
e.g.adult head protocols: z-axis only• Angular modulation uses ‘on-line’ attenuation
data• Use same kV for Topogram as for scan
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UKRC June 07
Siemens: CARE Dose 4D• Adapting mA for attenuation variation
Courtesy Siemens
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UKRC June 07
Siemens: defining image quality requirements
• Specify ‘Quality reference mAs’ in each protocol– effective mAs for required image quality in standard patient
• Effective mAs is determined only by ‘Quality reference mAs’ and patient size
• Independent of scan parameter settings
Following TopogramEffective mAs is adjusted
for patient attenuation
Quality ref mAs
Eff. mAs
200
150
CARE Dose 4DTopogramperformed
Prior to TopogramEffective mAs =Quality ref mAs
Quality ref mAs
Eff. mAs
200
200
CARE Dose 4D
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UKRC June 07
Philips: DoseRight
Protocol mAs• ACS: Automatic Current Selector– patient size
• Z-DOM: Z-axis modulation– must be used initially with ACS
• D-DOM: Angular modulation– D-DOM can be used independently or
with ACS– uses ‘on-line’ modulation
• D-DOM & Z-DOM cannot be implemented simultaneously
• Aims to keep image quality fairly constant with varying attenuation
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UKRC June 07
Philips: defining image quality requirements
• Specify mAs/slice in protocol– defines image quality (s.d.) in water
phantom for settings in protocol – following SurView mAs/slice for similar
s.d. in patient is calculated
s.d.
33 cm
Surview
s.d.
mAs required to give ≈ s.d. as in standard size
Courtesy Philips
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UKRC June 07
A few practical tips….
• To obtain correct attenuation data from SPR always centre the patient carefully
Courtesy Siemens
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UKRC June 07
A few practical tips….
• Ensure nothing but the patient is in the beam• Always check CTDIvol info• Check system is not over-ranging – may not be able to
achieve the range of mA values required
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UKRC June 07
Conclusions
• Manufacturers differ in their approach to AEC• Know your AEC system: read manual, talk to applications
specialist• AEC systems can increase as well as decrease dose• Define image quality requirements carefully for each
protocol• Review image quality and dose continuously
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UKRC June 07
Acknowledgements
• The manufacturers for providing information & material; in particular:– Thomas Toth & Sandie Jewell, GE– Iris Sabo-Napadensky & Derek Tarrant, Philips– Christoph Suess & Susie Guthrie, Siemens– Henk de Vries & Craig Hagenmaier, Toshiba
• The physicists & radiographers who gave me their time & time on their scanners; in particular:– Grace Keltz, St. George’s Hospital– Claire Skinner, Royal Free Hospital– CT department, Royal National Orthopaedic Hospital– Lynn Martinez & Nina Arcuri, Royal Mardsen Hospital– Trupti Patel, Harefield Hospital
• Sue & Jim, my colleagues at ImPACT, for helpful comments