QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma...
Transcript of QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma...
![Page 1: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/1.jpg)
QC ProtocolsQC ProtocolsGamma Camera &Gamma Camera &
SPECT SystemsSPECT Systems
James R Halama, PhDJames R Halama, PhD
Loyola University Medical CenterLoyola University Medical Center
Maywood, ILMaywood, IL
![Page 2: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/2.jpg)
OutlineOutline
1.1. Gamma Camera ImagingGamma Camera Imaginga.a. Brief overview of Gamma Camera OperationBrief overview of Gamma Camera Operation
b.b. Brief overview of Camera CalibrationsBrief overview of Camera Calibrations
2.2. SPECT Phantom ImagingSPECT Phantom Imaginga.a. Acquisition & ReconstructionAcquisition & Reconstruction
b.b. EvaluationEvaluation
c.c. ACR & ICANL Accreditation RequirementsACR & ICANL Accreditation Requirements
3.3. Final RecommendationsFinal Recommendations
![Page 3: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/3.jpg)
Gamma Camera Imaging ofRadioactive Sources in Patients
Three major Components:
1. Collimator –channels the
-rays and localizes thesource in the patient
2. NaI(Tl) Crystal (single ormulti-crystal) over width ofpatient stops the -rays.
3. Array of PMT’s –localizes
-ray interaction in crystal
Collimator
PMTPMT
NaI Crystal
![Page 4: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/4.jpg)
Localize -ray Hit in Crystal byPosition Weighed Sum of PMT Pulses
Figure 4Figure 4--22
P2P1 P3 P4 P5 P6 P7 P8
p1
p2
p3
p4
p5
p6
p7
p8
r1
r2
r3
r4
r5
r6
r7
r8
X
p1r1+ p2r2+… + p7r7+ p8r8
p1+p2+… +p7+p8X =
X+
SummingAmplifier
pi - PMTi pulse
ri - positional weightNaI crystal
![Page 5: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/5.jpg)
Components of Gamma CameraSpatial Resolution
nn IntrinsicIntrinsic ResolutionResolution––Ability ofAbility ofthethe NaI(NaI(TlTl) crystal and PMT) crystal and PMTcombination to localizecombination to localize --rayrayinteractions in the crystal.interactions in the crystal.
nn CollimatorCollimator ResolutionResolution––Ability ofAbility ofthe collimator to localize thethe collimator to localize the --ray source in the patient.ray source in the patient.
nn ExtrinsicExtrinsic ResolutionResolution––OverallOverallresolution combining collimatorresolution combining collimatorand intrinsic factors. Totaland intrinsic factors. Totalresolution is quadratic sum ofresolution is quadratic sum ofthe twothe two componetscomponets..
PMTPMT
NaI Crystal
![Page 6: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/6.jpg)
Collimator Resolution
FWHMC
d
L
t
c
f
c
(l+f+c)d
l
d –hole diameterl –hole lengtht –septal thickness of leadf –collimator to sourcedistancec –collimator to crystalcenter
distance
Collimator Ratio –Resolving power of collimator
Source to CrystalDistance
l
![Page 7: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/7.jpg)
Available CollimatorsCollimator
TypeHole
Diameter(mm)
HoleLength(mm)
FWHMat 0 cm(mm)**
FWHMat 10 cm(mm)**
FWHMat 20 cm(mm)**
Sensitivity(CPM/ Ci)
Low Energy AllPurpose (LEAPor GAP)
1.43 23.6 4.4 9.1 15.3 360 (99mTc)
Low EnergyHigh Resolution
1.11 23.6 4.2 7.5 12.3 230 (99mTc)
Low EnergyUltra-HighResolution
1.08 35.6 4.2 5.9 8.6 100 (99mTc)
Medium Energy 3.02 40.6 5.6 12.1 19.7 288 (67Ga)
High Energy 4.32 62.8 6.6 13.8 22.0 176 (131I)
Ultra-HighEnergy
3.4 75.0 6.0 10.4 ~20.0 60 (18F)
** Siemens Orbiter Gamma Camera System with intrinsic resolution of 3.9 mm FWHM
![Page 8: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/8.jpg)
Gamma Camera Quality ControlGamma Camera Quality Control
nn Basic Planar QC ProceduresBasic Planar QC Procedures
![Page 9: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/9.jpg)
Intrinsic Spatial ResolutionMeasurement
GammaCamera
99mTc Point Source(400 –800 uCi)
4-Quad Bar Phantom
4-Quadrant barphantom replacesthe collimator –The image is theshadow of the leadbars on the crystal.
![Page 10: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/10.jpg)
GammaCamera
4-QuadrantBar Phantom
Collimator
Extrinsic Spatial ResolutionMeasurement
Planar FloodSource
(10 mCi 99mTc or57Co)
![Page 11: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/11.jpg)
Planar Sheet Sources
57Co Shhet Source –T1/2
270 days; 122 keV ; 10-15 mCi at time ofpurchase.
99mTc Sheet Source(water filled) –T1/2 6hrs.; 140 keV ; 10-15mCi at time of filling.
![Page 12: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/12.jpg)
Measure Spatial Linearity withPLES Phantom
Images of PLES (parallel line equal spacing)phantom with 99mTc source
Deviation fromstraight line ofless than 1.0mmfor UFOV.
![Page 13: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/13.jpg)
Measure Linearity with 4-Quadrant Bar Phantom
Note wavey/curve-linear appearanceof lead barsthroughout theimage.
![Page 14: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/14.jpg)
Measuring Intrinsic Uniformity
GammaCamera
Point Source400-800 uCi
5 UFOVDiameterdistance
5-15 Million Counts1-3 min.
Edge Packing(higher sensitivity)
at edge
Statistical Variation:• 3 Mcts. ~ 1600 ct/cm2 (+ 2.5%)• 15 Mcts. ~ 4800 ct/cm2 (+ 1.4%)
No Collimator
Flood Image
![Page 15: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/15.jpg)
Measuring Extrinsic Uniformity
GammaCamera
Collimator
Planar SheetSource
10-15 mCi of57Co or 99mTc
5-15 Million Counts3-15 min.
Edge Packingshielded by
collimator ring.
![Page 16: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/16.jpg)
Gamma Camera CalibrationsGamma Camera Calibrations
1.1. PMT GainsPMT Gains
2.2. EnergyEnergy
3.3. LinearityLinearity
4.4. UniformityUniformity
![Page 17: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/17.jpg)
FirstPMT Gain
By FSE
PMT & Energy CalibrationsPMT & Energy Calibrations
SecondEnergy
CorrectionBy FSE
![Page 18: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/18.jpg)
Linearity & UniformityLinearity & UniformityCalibrationsCalibrations
ThirdLinearity
CorrectionBy FSE
FourthUniformityCorrectionBy Tech.
![Page 19: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/19.jpg)
Quality Control PracticesQuality Control Practices1. Photopeak –Daily ensure isotope energy level centered over
photopeak.2. Uniformity - Flood images of 5-15 million counts each day of
use, before imaging begins.a) Extrinsic flood image is preferred and tests heavily used
collimators.b) Intrinsic flood image to test detector only, especially at
the periphery of the FOV. Acquired at least one perweek.
3. Resolution - Intrinsic (preferred) or extrinsic images of 5-10million counts of four-quadrant bar phantom once per week.
4. Linearity - Intrinsic (preferred) or extrinsic images of 5-10million counts with PLES or four-quadrant bar phantomonce per week.
5. Uniformity Correction Matrix –Corrects residual non-uniformities. Flood images of 100 Mcts once per month foreach isotope used.
![Page 20: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/20.jpg)
QuantitateQuantitate Daily FloodsDaily Floods
Plot IU for UFOV or CFOV daily
![Page 21: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/21.jpg)
PrePre--Assigned Action LevelsAssigned Action LevelsI. Good – no further evaluation neededII. Marginal – repeat flood once; if still marginal next day/week contact Physicist
or supervisor to determine status; a re-calibration may be necessary.III. Unacceptable – repeat flood once; if still unacceptable contact Physicist or
supervisor to determine status; a re-calibration may be necessary
Gamma Camera Intrinsic Uniformity – IUin UFOV
Extrinsic Uniformity – IUin UFOV
VertexI – below 3.5II – 3.5 – 5.0III – above 5.0
I –below 5.0II – 5.0 – 6.0III – above 6.0
Forte II – below 3.5II – 3.5 – 5.0III – above 5.0
I – below 5.0II – 5.0 – 6.0III – above 6.0
Forte III – below 3.5II – 3.5 – 5.0III – above 5.0
I – below 5.0II – 5.0 – 6.0III – above 6.0
Forte III
Irregradless of IU, if a single tube is visible in the flood image, contact Physicist or supervisor todetermine status.
![Page 22: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/22.jpg)
Intrinsic and/or Extrinsic Floods?Intrinsic and/or Extrinsic Floods?
Det 2 –Co-57
Det 2 - Tc-99m
Det 1 –Co-57
Det 1 –Tc-99m
![Page 23: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/23.jpg)
Routine Bar Pattern ImagesRoutine Bar Pattern Images ––Why?Why?
3.5 mm
2.5 mm 2.0 mm
3.0 mm
3.5 mm
2.5 mm
2.0 mm
3.0 mm
90 Deg. Rotation
![Page 24: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/24.jpg)
Intrinsic and/or Extrinsic Bars?Intrinsic and/or Extrinsic Bars?
Co-57Extrinsic
3.5 mm
2.5 mm
2.0 mm
3.0 mm
Tc-99mIntrinsic
3.5 mm
2.5 mm
2.0 mm
3.0 mm
![Page 25: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/25.jpg)
Intrinsic BarsIntrinsic Bars ––Better Assess X/YBetter Assess X/YResolutionResolution
Tc-99m
3.5 mm
2.5 mm2.0 mm
3.0 mm
3.5 mm
2.5 mm
2.0 mm
3.0 mm
![Page 26: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/26.jpg)
Intrinsic BarsIntrinsic Bars ––Better AssessBetter AssessLinearityLinearity
Note –wavy barswrapped around
PMT’s
![Page 27: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/27.jpg)
Rotating Gamma Camera SPECTRotating Gamma Camera SPECT
![Page 28: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/28.jpg)
SPECT AcquisitionWhole Body Planar Bone Bone SPECT
• 256x1024 image• 20 min.• 2.3 million counts
• 120 128x128images
• 3o step & shootrotation over360o
• 30sec/image/head
• 32 min. totalacq.
• 60,000cts/image
![Page 29: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/29.jpg)
Reconstructed Bone SPECT ImagesReconstructed Bone SPECT Images
Each line across the imagecorresponds to onetransaxial slice in thetomographic volume.
• 4 mm slice thickness for 128matrix over 50 cm field-of-view.
![Page 30: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/30.jpg)
FPB vs. Iterative Reconstructions
Iterative - OSEM FBP
![Page 31: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/31.jpg)
Gamma Camera SPECT QCGamma Camera SPECT QC
nn Uniformity CorrectionsUniformity Corrections
nn COR CorrectionsCOR Corrections
nn SPECT Phantom ImagingSPECT Phantom Imaging
![Page 32: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/32.jpg)
Concentric rings of alternating high and lowcount densities appear in the transaxial imagesdue to insufficient gamma camera uniformity.
Bullseye Ring ArtifactBullseye Ring Artifact
![Page 33: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/33.jpg)
Uniformity CorrectionUniformity Correction
Acquire High CountFlood Image
Generate FloodCorrection Matrix
30-100 million count flood images,10 times daily flood requirements
![Page 34: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/34.jpg)
Uniformity Correction is aUniformity Correction is aCalibrationCalibration
•Uniformity correction applied
to all patient images
•Both planar and SPECT
imaging
![Page 35: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/35.jpg)
Intrinsic Uniformity CalibrationIntrinsic Uniformity Calibration
1.1. Performed for TcPerformed for Tc--99m and/or other99m and/or other
isotope used clinicallyisotope used clinically
2.2. Precise point sourcePrecise point source
3.3. Low background and scatter freeLow background and scatter free
4.4. Correct count rateCorrect count rate
5.5. Correct total countsCorrect total counts
6.6. FOLLOW THE MANUALFOLLOW THE MANUAL
![Page 36: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/36.jpg)
Fractured Point Sources?Fractured Point Sources?
• Isotope in 0.1 - 0.2 ml in hub ofsyringe or in end of the needle cap.
• Requires exchange of needle.
• Do not mishandle and fracturesource.
![Page 37: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/37.jpg)
Can this be used?Can this be used?
Acquired at 100 Kcps
![Page 38: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/38.jpg)
Intrinsic Uniformity Correction –May Mask Underlying Problems!
Detector with intrinsic linearity problems
![Page 39: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/39.jpg)
Extrinsic Uniformity CalibrationExtrinsic Uniformity Calibration
1.1. Ideally the bestIdeally the best -- Corrects for bothCorrects for both
collimator and intrinsic detectorcollimator and intrinsic detector
2.2. Requires planar flood sourceRequires planar flood source
3.3. Ideally TcIdeally Tc--99m, Co99m, Co--57 is only a surrogate57 is only a surrogate
4.4. Required for each collimatorRequired for each collimator
5.5. FOLLOW THE MANUALFOLLOW THE MANUAL
![Page 40: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/40.jpg)
Extrinsic Uniformity Correction –May Mask Collimator Problems!
Damaged collimator with crushed lead septa
![Page 41: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/41.jpg)
Extrinsic or Intrinsic Correction?
Co-57 Extrinsic
Tc-99m Intrinsic
![Page 42: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/42.jpg)
SPECT Center-of-Rotation
The center ofthe gamma
camera in allacquired
images must beknown
![Page 43: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/43.jpg)
SPECTSPECTCOR Acquisition is a CalibrationCOR Acquisition is a Calibration
1.1. Used to correct patient imagesUsed to correct patient images
2.2. Extrinsic calibration for both 180 and 90 degreeExtrinsic calibration for both 180 and 90 degreedetector separationsdetector separations
3.3. Must follow manufacturer recommendationsMust follow manufacturer recommendationsregarding number and placement of sourcesregarding number and placement of sources
4.4. Sources must have sufficient activitySources must have sufficient activity
5.5. Completed monthly, or per manufacturerCompleted monthly, or per manufacturerspecificationsspecifications
![Page 44: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/44.jpg)
Jaszczak Phantom:Cold Rods: 12.7, 11.1, 9.5, 7.9, 6.4, 4.8 mmCold Spheres: 31.8, 25.4, 19.1, 15.9, 12.7, 9.5 mm
SPECT Phantom ImagingSPECT Phantom Imaging
![Page 45: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/45.jpg)
ACR SPECT PhantomPlanar Extrinsic Spatial Resolution
Planar Images 500 K
5000 K
1. Determine smallest rod sections visible2. Compare count rates –for multiple detectors, must
be within 5% of one another (remember to decaycorrect for Tc-99m)
![Page 46: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/46.jpg)
1. Acquire SPECT phantom studies with 2-3 times
counts obtained clinically (24 million for ACR).
2. Reconstruct at highest resolution filter. Use FBP
for ACR.
SPECT Phantom Imaging ProtocolSPECT Phantom Imaging Protocol
![Page 47: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/47.jpg)
• Look for bullseyeartifacts. If present,new intrinsiccorrection floodmust be acquired.
• Spatial resolution –number of rodsections observed.
• Contrast –numberof spheresobserved.
ReconstructedReconstructedSPECT PhantomSPECT Phantom
ImagesImages
![Page 48: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/48.jpg)
180 Degree Orbit SPECT180 Degree Orbit SPECT
SPECT PhantomAcquisitions for dualhead SPECT system offixed heads and 180degree acquisition only.
![Page 49: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/49.jpg)
Uniformity Problems!Uniformity Problems!
![Page 50: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/50.jpg)
Phantom Reconstruction no ACPhantom Reconstruction no AC
![Page 51: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/51.jpg)
Phantom Reconstruction & ACPhantom Reconstruction & AC
![Page 52: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/52.jpg)
ACR SPECT Phantom Formatting
Summing of Slices
Uniformity(3 slices)
Resolution(12 slices)
Contrast(2 slices)
![Page 53: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/53.jpg)
NonNon--Aligned Detectors in XAligned Detectors in X
Sinogram
![Page 54: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/54.jpg)
NonNon--Aligned Detectors in YAligned Detectors in Y
Linogram
![Page 55: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/55.jpg)
ACR QC GuidelinesACR QC Guidelines ––TechnologistTechnologist1. Intrinsic or System Uniformity - each day of use
2. Intrinsic or System Spatial Resolution - weekly
3. Center-of-Rotation or Multiple Detector Registration
Calibration/Test for SPECT Systems - monthly
4. High-Count Floods For Uniformity Correction for SPECT
Systems - frequency as recommended by a qualified medical
physicist
5. Overall System Performance for SPECT Systems –quarterly
SPECT Phantom; Tc-99m must be done at least semiannually;
other radionuclides may be tested on alternate quarters.ACR Nuclear Medicine/PET Accreditation Program Requirements 3/28/2008
![Page 56: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/56.jpg)
ACR QC GuidelinesACR QC Guidelines ––Annual TestsAnnual Tests
ACR Nuclear Medicine/PET Accreditation Program Requirements 3/28/2008
1. Intrinsic Uniformity
2. Intrinsic or System Spatial Resolution
3. System Uniformity - check all collimators
4. Sensitivity - verify that count rate per unit activity is satisfactory
5. Energy Resolution
6. Count Rate Parameters
7. Overall System Performance for SPECT Systems –SPECTPhantom
8. Formatter/Video Display
9. System Interlocks
![Page 57: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/57.jpg)
ICANL QC GuidelinesICANL QC Guidelines
1. Energy peaking - Daily prior to use; documentation notrequired)
2. Intrinsic or extrinsic uniformity - Daily prior to use;(approximately 2-5 million counts)
3. Resolution and linearity –Weekly bar phantoms
4. Uniformity calibration - Monthly or per manufacturer’srecommendations
5. Center of rotation (SPECT) - Monthly
6. Collimator integrity - Annually
7. Preventive maintenance - Every 6 months
The ICANL Standards for Nuclear Cardiology, Nuclear Medicine and PET Accreditation, 2007
![Page 58: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/58.jpg)
Recommended QC GuidelinesRecommended QC Guidelines --TechnologistTechnologist
1.1. Energy peakingEnergy peaking -- Daily prior to useDaily prior to use
2.2. Intrinsic or extrinsic uniformityIntrinsic or extrinsic uniformity -- Daily prior to use; (4Daily prior to use; (4--1010million counts)million counts)
3.3. Uniformity CalibrationUniformity Calibration -- Monthly, or per manufacturer’sMonthly, or per manufacturer’srecommendations:recommendations:
a.a. IntrinsicIntrinsic ––YesYes
b.b. ExtrinsicExtrinsic ––only when necessaryonly when necessary
4.4. Intrinsic uniformity, resolution and linearity QCIntrinsic uniformity, resolution and linearity QC ––QuarterlyQuarterly
5.5. SPECT Center of rotationSPECT Center of rotation ––Monthly, or per manufacturer’sMonthly, or per manufacturer’srecommendationsrecommendations
6.6. SPECT PhantomSPECT Phantom (quarterly)(quarterly)
7.7. Preventive maintenancePreventive maintenance ––semisemi--annual by FSEannual by FSE
![Page 59: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/59.jpg)
RecommendedRecommended ––SPECT Phantom ImagingSPECT Phantom Imaging
1.1. Assesses intrinsic and collimator uniformity,Assesses intrinsic and collimator uniformity,
altogether. If only Tcaltogether. If only Tc--99m intrinsic uniformity99m intrinsic uniformity
correction is applied and not ring artifactscorrection is applied and not ring artifacts ––nono
collimator flood correction is needed.collimator flood correction is needed.
2.2. Assesses sensitivity differences in detectorsAssesses sensitivity differences in detectors
3.3. Assesses adequacy of COR corrections observedAssesses adequacy of COR corrections observed
inin sinogramsinogram andand linogramlinogram
4.4. Assesses overall SPECT resolution and contrastAssesses overall SPECT resolution and contrast
![Page 60: QC Protocols Gamma Camera & SPECT Systemsaapm.org/meetings/amos2/pdf/35-9798-70158-156.pdfGamma Camera Imaging of Radioactive Sources in Patients Three major Components: 1. Collimator](https://reader031.fdocuments.net/reader031/viewer/2022022014/5b4b09f07f8b9a691e8c8f0c/html5/thumbnails/60.jpg)
RecommendedRecommended ––QC Guidelines AnnuallyQC Guidelines Annually
1. Intrinsic uniformity, spatial resolution, & linearity
2. System uniformity - check all collimators
3. Sensitivity - verify that count rate per unit activity per detector issatisfactory
4. Detector energy resolution
5. Count rate parameters
6. Overall SPECT performance –SPECT Phantom and possiblyfor additional isotope
7. Formatter/Video display & system interlocks