pet/ct attenuation correction and image fusion · have utility in pet/ct if sufficient boundary...
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PET/CT Attenuation Correction and Image Fusion
Jonathan P. J. Carney, Ph.D.University of Tennessee, Department of Medicine
Continuing Education CourseAAPM Annual Meeting, July 28th 2004, Pittsburgh, PA
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Correct scatter & attenuation
process data
PET
Fusion
Spiral CTTopogram
CT PET
CT PET
Overview of a PET/CT Scan
Fusion
CT acquisition
PET acquisition
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Principles of attenuation correction (AC) in PET
PET images with and without AC
Principles of CT-based AC
Energy scaling and tissue characteristics
Optimized kVp dependent scaling
Benefits of shorter acquisition times
Respiration artifacts & protocols
CT contrast agents.
Part I – PET/CT Attenuation Correction
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Principles of PET imaging
PET scanner
neutron-deficient isotope
n
np p pp
np
n
nO H
OH
CH2HO
HO
H
H
HHOH
18F
18FDG
sinograms
p(s,φ)
s
zφ
reconstructed image
z
x
e+e-
P n + e+ + νe
glucose analoguepositron annihilation
e+ + e- γ + γ
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511 keV< 511 keV
Detector
Detector
e-e+
511 keV
Patient outlinex1
x2
Emission signal attenuation
Scatter (and absorption) of the emitted photons by the body cause the true emission signal to be attenuated measure a lower signal.
Correct with attenuation correction factors ACF.
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R
R
R
I(k) = I0(k) exp{-µ(x, EPET)dx} ACF = I0(k) / I(k)= B(k) / T(k)∫
x1
x2
Principle of Attenuation correction
Rotating rod sources
R
R
R
T: Transmission
PET scanners use sources to provide an essentially direct* measurement of the ACFs.
B: Blank scan
* May reconstruct transmission image and reproject to control noise.
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Magnitude of the Attenuation correction factors
0
50
100
150
200
250
300
350
0 10 20 30 40 50 60path length (cm)
ACF
Typical values for the ACFs through tissue:
20cm ~7
40cm ~50
60cm ~300
Attenuation correction factors for pathlengths through water
The ACFs are the factors by which the true source emission signal is suppressed by subsequent interaction with the body.
multiply measured true event rate by ACF.
So how large are these factors?
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Without attenuation correction
With attenuation correction
Can reconstruct PET images with or without attenuation correction applied:
Attenuation correction - PET images
Features (non AC):
• not quantitative
• lungs appear "hot"
• suppression of inner activity relative toouter surface e.g. in the liver, alsoskin is relatively hot
• focal uptake still apparent
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analytic inversion iterative (statistical) iterative (statistical) + attenuation weighting
image reconstruction method
Attenuation-weighted iterative reconstruction
Can additionally use the attenuation correction factors for statistical weighting in iterative reconstruction:
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Principles of CT-based attenuation correction
PET: Transmission-based AC:
PET/CT: CT-based AC:
reconstruct to control noise
measure line integrals at (or near) 511 keV
noisy 511 keVattenuation map
CT images correspond to attenuation map at ~70keV
energy scaling up to 511 keV
noiseless 511 keVattenuation map
reprojectACFs
may segment image and replace with known values to reduce noise
downsample and smooth to PET resolution
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PET transmission (TX) scans are done at or near 511 keV.
CT X-rays are much lower in energy <140keV.
Need to energy scale CT images to 511 keV
PET TX ACFs much noisier than CT-based ACFs
CT-based AC eliminates the need for a transmission scan.
Therefore no need for sources and blank scan.
Still need to calibrate the PET detectors, of course:(normalization, 20cm Germanium phantom acquisition)
CT-based attenuation correction - some key points
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CT scannners “measure” local photon linear attenuation µ(at ~70 kev, the effective energy of the x-ray beam)
Hounsfield unit: µ −> HU = 1000 x
-> air = -1000 HU, water = 0 HU
Calibrate using 20cm water phantom
CT number uniformity:
0 HU ± 4 HU ( < 0.5 %)
µ - µwater
µair - µwater
~10 HU difference
-> 10/1000 *100%
= ~1% difference inlinear attenuation
CT images - what are they?
X-rays used in CT have lower energy that PET 511 keV photons - will need to scale up in energy to perform AC.
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ADIPOSE TISSUE -50 to -100 HUyellow marrow, fat
lots in between
trabecular bone 100-300 HU(a.k.a. spongy, cancellous)
at end of long bones in adults
blood 40 HU
kidney 30 HUwater, cysts 0 HU
liver 40-50 HUmuscle 10-40 HU
SOFT TISSUES 0 to 80 HUcerebrospinal fluid 15 HU
grey matter 46 HU
white matter 43 HU
BONE TISSUE 100 to 1800 HU
cortical bone 1200+ HU
Hounsfield units of human tissues
Need to relate HU for these tissues to attenuation values at the PET energy of 511 keV
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µ (511 keV) = µ (CT) x scale_factor
data based on ICRP 1975 tissue chemical compositions
Tissue characteristics: energy scaling CT PET
soft tissue grouping
soft tissues all similar, bone scale factors lower
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Threshold model:
0
0.02
0.04
0.06
0.08
0.1
0.12
0.14
0.16
0.18
-1000 -500 0 500 1000 1500
Hounsfield unit
511
keV
linea
r at
tena
utio
n(c
m-1
) water-air mix
water-bone mix
Mixing model:
Assume Hounsfield unit is determined by a mixture of two components with known densities & scale factors.
Breaking point H.U. < 0 water-air mixture
Breaking point H.U. > 0 water-dense bone mixture
Scale each separately to 511 keV, combine to form 511 keV image
Threshold to separate bone and soft tissue in CT images (~300HU).
These methods as described not account for different kVp & make assumptions about the locations of thresholds and breaking points.
0
0.1
0.2
0.3
0.4
0.5
0 100 200 300 400 500
energy (keV)
linea
r at
ten
uat
ion
/ den
sity
(cm
2 /g
)
soft tissue / water
bone
Scaling algorithms
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Reference tissues in a Gammex 467 electron density phantom are measured at all kVp.
Scaling function is a bilinear fit to measured data at each kVp.
Breaking point found to be at ~60 H.U.
kVp dependent energy scaling
CT scans at different kVp settings correspond to different effective energies generalize to kVp dependent scaling.
possible values:
80,100,110,120, 130,140 kVp
0
0.02
0.04
0.06
0.08
0.1
0.12
0.14
0.16
0.18
0 500 1000 1500 2000 2500 3000measured HU + 1000
511
keV
linea
r atte
naut
ion
(1/c
m)
140 kVp120 kVp100 kVp 80kVp
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BGO (ART)
BGOLSO
10 20 30 40 50 60 min
0
BGO PET/CTLSO PET/CT
transmission emission
Progression of clinical whole-body scan times
CT-based AC obviates the need for a transmission scan
faster total scan times
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Mismatch between full inspiration CT and PET can lead to the "vanishing chest wall" artifact.
CT respiration protocols in PET/CT
During the PET acquisition the patient is breathing shallowly - averaged over many cycles.
Usual CT protocol is full (deep) inspiration breathold:
eliminates motion, but leads to maximum mismatch with PET.
Other possibilities are CT with shallow breathing (a.k.a. tidal, quiet) or partial inspiration breathold.
typical max. excursion:
deep ~10cmshallow ~2cm
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“The effect of respiratory motion on PET/CT image quality”, Blodgett et al., SNM 2002, Paper No. 209.
CT image PET image fused imagePET acquisition: “step and shoot”
attenuation correction
Single slice CT with tidal breathing can lead to geometric distortions:
Respiration artifacts: propagation into PET
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16 slice CT, tidal breathing single slice CT, tidal breathing
Whole-body (neck through pelvis) CT study ~16 sec (16 slice), 90sec (single slice).
Geometric distortions in CT images less severe with 16 slice compared to single slice.
single slice CT
tidal breathing throughout spiral acquisition
Respiration artifacts: multislice CT
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Type of motion & typical timescale
cardiac ~ 1s
respiration ~ 4s
peristalsis minutes
muscular spasms unpredictable
patient motions unpredictable
Other types of patient motion
CT
AC PET
non AC PET
Example:
AC PET shows "shadowing" of focal uptake?
NON AC PET shows patient moved shoulders ~midway through PET acquisition.
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0
0.1
0.2
0.3
0.4
0.5
0 100 200 300 400 500
energy (keV)
linea
r atte
nuat
ion/
dens
ity (c
m2 /g)
soft tissue / water
bone
atomic iodine
Contrast agent:
is a solution of a highly attenuating high atomic number (Z) element
tolerable agents: iodine (Z=53) , barium (Z=56)
locally raises HU
Oral contrast agent: dilute solution of barium sulphate or organically bound iodine is swallowed, generally well tolerated
IV contrast agent: automated intravenous injection of an iodinated contrast bolus, small risk of an adverse reaction
Properties of CT contrast agents
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with IV contrast
without IV contrast
with oral contrast
without oral contrast
Use of CT contrast agents
CT contrast agents can improve the diagnostic utility of the CT images.
Do not affect PET except may introduce generally small biases through attenuation correction.
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Oral contrast agent bias in PET images
contrast
CT
PET
PET
The correct attenuation at 511 keV can be approximated by replacing the enhanced CT values by the value for water, which will scale to the correct attenuation value for water at 511 keV.
TX-AC
CT-based AC
Tissue scaling
Enhanced voxelsset to 0 HU
water
900 HUsame activity
For typical values in patients (<900 HU) bias is generally modest. Will be larger in cases of contrast precipitation and IV bolus.
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Part II - PET/CT Image Fusion
Review of fused image display
Software versus hardware fusion
Localization utility of CT in PET/CT
Interpretation of fused images:
Understanding artifacts
Use of software fusion in PET/CT.
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Review of fused image display
CT image:
greyscale
report Hounsfieldunits
PET image:
inverse greyscale
report SUV or bq/ml
Fused image:
alpha-blended
greyscale(CT) & blackbody(PET)
• Typically have CT, PET, fused images
• transverse, sagittal, coronal sections
• linked cursors, pixel and ROI values
Alpha Blending: method for fused display of two (color) images
α (0 1) gives opacity of overlayed image [α=1 fully opaque, α=0 fully transparent]
inverse greyscale
greyscale
blackbody
multicolor, e.g. NIH
COLOR TABLES
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Access to image archives required
Carefully-controlled patient positioning
Different scanner bed profiles
Internal organ movement
Disease progression in time
Limited registration accuracy
Inconvenience for patient (2 scans)
Labour intensive registration algorithms
Software fusion Hardware fusion
Images immediately available
Single-patient positioning
Same bed for both scans
Little internal organ movement
Scans acquired close in time
Improved registration accuracy
Single, integrated scan
No further alignment required
PET images +CT images versus PET/CT scan images
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Localization advantages of PET/CT - example 1
incidental finding in right pelvis on PET
correlation with CT shows focus within right colon
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Localization advantages of PET/CT - example 2
Ovarian cancer:
CT shows post surgical changes in the pelvis
PET reveals focal uptake at surgical site -suspicious for tumor
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Localization advantages of PET/CT - example 3
Ovarian: CT shows small lymph node at the left neck base, within normal limits:
PET scan shows corresponding focal increase uptake specific to same node
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Tissue scaling of non-tissue high H.U. features in the CT images can lead to artifactual increased focal uptake.
Can be interpreted through review of the CT images and, for further confidence, the non-AC PET images.
prosthetics, metal, bolus IV contrast, contrast precipitate
Interpretation of artifacts in fused images
IV contrast bolus artifact
Subcutaneous titanium-lined chemotherapy port artifact
CT
CT
AC PET
AC PET
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Suspected artifactual uptake in the stomach is seen to correlate with very high H.U. on CT (due oral contrast precipitation in the stomach).
The non-AC image shows no increased focal uptake confirming the suspicion of an artifact.
Interpretation of artifacts in fused images contd.
AC PET non AC PETCT
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original image deformable registration displacement map
Deformable registration procedures in particular can have utility in PET/CT if sufficient boundary conditions (or matched reference points) can be defined.
Use of software fusion in PET/CT
Whereas PET/CT may provide a very good overall (rigid) registration, differences between PET and CT (due to e.g. respiration, peristalsis) can persist.
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Cancer Imaging and Tracer Development Program University of Tennessee, Knoxville Tennessee
David Townsend
David Barker
Jeffrey Yap
Nathan Hall
Misty Long
Linda Paschal
Contributions from Vitaliy Rappoport at CPS Innovations are greatly appreciated.
MRI respiration image courtesy of Dr. D. Atkinson, Radiological Sciences & Medical Engineering Guy’s Hospital, London UK.
Work supported by NCI grant CA-65856.
Acknowledgments