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FRCR LECTURES
Lecture I – 20/09/2016:
Nuclear Medicine and Image Formation
Lecture II – 22/09/2016:
Positron Emission Tomography & QA
Lecture III – 27/09/2016:
Radiation Detectors - Radiation Protection
Molecular Imaging
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BIBLIOGRAPHY Physics for Medical Imaging
P. Allisy-Roberts, J. Williams – Farr’s Physics for Medical Imaging
Radiological Physics
P. Dendy, B. Heaton – Physics for Radiologists
Medical Imaging
J. Bushberg et al – The Essential Physics of Medical Imaging
S. Webb – The Physics of Medical Imaging
Nuclear Medicine
S. Cherry – Physics in Nuclear Medicine
P. Sharp et al – Practical Nuclear Medicine
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Nuclear Medicine or…
Unclear Medicine ?
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Can you spot the difference?
Alive Dead
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Nuclear Medicine Brain Imaging
Alive Dead
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An Intro to Functional Imaging To investigate regional tissue function
non-invasively
Nuclear Medicine Imaging
SPECT, planar imaging
Positron Emission Tomography
PET
Injection/
inhalation of
radio-labelled
molecules
Detection of
emitted γ-rays
(photons) in
tomographic
scanner
Production of
image (“map”)
of radionuclide
distribution
Production of
functional
image
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Pharmaceutical Radionuclide
Physiological properties determine distribution in-vivo
Radiation emitter
Rapid and complete absorption by biological
system of interest
Allows location of tracer to be determined
e.g. MIBI, HDP, MAG3 e.g. 99Tcm, 123I, 201Tl
Radiopharmaceuticals
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Radiopharmacy
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The Ideal Radiopharmaceutical
Radionuclide should
have a half-life similar to length of test
emit γ or X-rays
have no charged particle emissions
have energy between 100-200 keV
be chemically suitable
be readily available
Pharmaceutical should
localise only in area of interest
elimination time similar to length of test
be simple to prepare
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Commonly Used Radionuclides
Radionuclide Production Photon Energy (keV) Half-life
67Ga Cyclotron 92, 182, 300, 390 78 hours
99Tcm Generator 140 6 hours
111In Cyclotron 173, 247 2.8 days
123I Cyclotron 160 13 hours
131I Reactor 280, 364, 640 8 days
201Tl Cyclotron 68-80 73.5 hours
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Radionuclide Generators
Solution to the problem of supply
of short-lived radionuclides
The principle is:
Daughter radionuclide with shorter half-life
Relatively long-lived parent radionuclide
Decay
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99Mo Decay Scheme
99Mo (T½ = 67h)
99Tcm (T½ = 6h)
99Tc
β- (91.4%)
β- (8.6%)
γ
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99Mo/99Tcm Generator
Na+Cl- Na+(TcO4)- Generator
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99Mo/99Tcm Generator
0
20
40
60
80
100
120
0 24 48 72 96 120 144 168 192
Time (Hours)
Ac
tiv
ity
99Mo
99Tcm
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99Mo/99Tcm Generator with Elution
0
20
40
60
80
100
120
0 24 48 72 96 120 144 168 192
Time (Hours)
Acti
vit
yMo99
Tc99m
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Radiolabelling with 99Tcm
Cold (non-radioactive) kits
pre-packed set of sterile ingredients designed for the
preparation of a specific radiopharmaceutical
Typical ingredients
compound to be complexed to 99Tcm
e.g. methylene diphosphonate (MDP)
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Confirms correct activity prior to patient administration
Well-type ionisation chamber
pressurised argon gas (increases efficiency)
Electrometer
measures small ionisation currents
Protective sleeve
removable if activity spilt
“Dipper”
reduces finger dose
ensures fixed geometry
Shielding
reducing background radiation
protects the user
Radionuclide Calibrator
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Nuclear Medicine Imaging
Administration of radiopharmaceutical
usually intravenously
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Localisation and uptake
over time tracer concentrates to area of interest
Nuclear Medicine Imaging
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Localisation and uptake
over time tracer concentrates to area of interest
Nuclear Medicine Imaging
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Localisation and uptake
over time tracer concentrates to area of interest
Nuclear Medicine Imaging
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Localisation and uptake
over time tracer concentrates to area of interest
Nuclear Medicine Imaging
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Localisation and uptake
over time tracer concentrates to area of interest
Nuclear Medicine Imaging
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Localisation and uptake
over time tracer concentrates to area of interest
Nuclear Medicine Imaging
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Localisation and uptake
over time tracer concentrates to area of interest
Enhanced contrast between the area of
interest and the rest of body
Nuclear Medicine Imaging
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The Gamma (γ) Camera
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The Gamma (γ) Camera
Principal instrument
in Nuclear Medicine
Images distribution
of γ or X-ray emitters
Consists of:
a gantry
at least one detector
a computer
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The Detector
The components of a modern gamma camera are:
Collimator
Detector crystal
Optical light-guide
Photomultiplier tube array
Position logic circuits
Data analysis computer
Lead shield to minimise background radiation
Collimator
Lightguide
PMTs
Electronics
Lead Shield
Crystal
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The Collimator
The collimator consists of:
a lead plate
array of holes
Selects direction of photons
incident on crystal
Defines geometrical
field of view of the camera
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In the absence of collimation:
no positional relationship between source – destination
In the presence of collimation:
all γ-rays are excluded except for those travelling parallel to
the holes axis – true image formation
Patient Patient
Detector Detector
The Collimator
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Collimator Parameters
Spatial resolution (mm)
a measure of the sharpness of an image
Sensitivity (cps/MBq)
the proportion of the emitted photons which pass through
the collimator and get detected
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Spatial Resolution
FWHM
Full Maximum
Half Maximum
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Significance of FWHM
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Distance from Collimator
Image Object Object 2
Collimator
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Hole Size
Image Object
Collimator
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Hole Size
Image Object
Collimator
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Hole Length
Image Object
Collimator
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Hole Length
Image Object
Collimator
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Types of Collimators
There are several types of collimators:
Parallel-Hole collimator
Converging collimator
Diverging collimator
Pin-Hole collimator
Depending on the energy:
LE: 0 keV < energy < 200 keV
ME: 200 keV < energy < 300 keV
HE: 300 keV < energy < 400 keV
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Type Hole Size
(mm) Number of
Holes Hole Length
(mm) Septal Thickness
(mm)
LEHR 1.5 86,300 35 0.20
LEGP 1.9 56,560 35 0.20
MEGP 3.0 15,210 58 1.05
HEGP 4.0 7,410 66 1.80
Collimators: Performance Factors
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Collimators: Performance Factors
Type Resolution* (mm) Sensitivity (cps/MBq)
LEHR 7.4 72.0
LEGP 9.0 121.5
MEGP 9.4 64.8
HEGP 10.7 65.25
*spatial resolution at 10 cm from collimator face
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The Scintillation Crystal
γ-ray photon
detected by interacting with crystal
converted into scintillations
Crystal shape:
circular
rectangular
The crystal size
~ 60 x 45 cm2
FOV ~ 54 x 40 cm2
Crystal thickness
~ 9.5 mm (3/8 inch)
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Scintillation Crystal Properties
Desirable Properties of the scintillation crystal:
High stopping efficiency for γ-rays
Stopping should be without scatter
High conversion of γ-ray energy into visible light
Wavelength of light should match response of PMTs
Crystal should be transparent to emitted light
Crystal should be mechanically robust
Thickness of scintillator should be short
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Properties of NaI(Tl) Scintillator
The crystal – NaI(Tl)
emits blue light at 415 nm
high attenuation coefficient
intrinsic efficiency:
90% at 140 keV
conversion efficiency:
10-15%
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Disadvantages of NaI(Tl) crystal
NaI(Tl) crystal suffers from the following drawbacks:
Expensive (approximately £50,000)
Fragile
sensitive against mechanical stresses
sensitive against temperature changes
Hygroscopic
encapsulated in aluminium case
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Lightguide and Optical Coupling
Lightguide
acts as optical coupler
usually quartz doped plexiglass (transparent plastic)
should be as thin as possible
should match the refractive index of scintillation crystal
Silicone grease between
exit window of scintillation crystal and lightguide
lightguide and the PMTs
No air bubbles trapped in the grease
photon reflections
reduced light transmission
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The Photomultiplier Tube
A PMT is an evacuated glass envelope
It consists of:
a photocathode
an anode
~ 10 dynodes
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The Photomultiplier Tube
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The Photomultiplier Tube
Hexagonal array of detectors
PMTs mounted on the crystal
Cross Section of PMT
Circular or hexagonal
Arrays of 7, 19, 37, 61 and 91
The number of PMTs affects the spatial resolution of the camera
smaller diameter – improved resolution
increased number – uniformity problems
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Positional and Energy Co-ordinates
PMT signals processed
spatial information – X and Y signals
energy information – Z signal
Z signal – the sum of the outputs of all PMTs
proportional to the total light output of the crystal
Electronic signal
PMTs
Scintillation Crystal Light
Scintillation
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Pulse Height Analysis
Z-signal goes to PHA
PHA sets
energy window
PHA checks
the energy of the γ-ray
If Z-signal acceptable
γ-ray is detected
position determined by X
and Y signals
20% energy window
30% scattered photons
a b΄ c΄ d΄
A
B C
D
b
d
c
Scintillation crystal
Collimator
Lightguide
PMTs
Electronics
Lead Shield
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140 keV Energy
THEORETICAL 99Tcm SPECTRUM
Energy (keV)
Nu
mb
er
of
Pu
lse
s
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Actual 99Tcm SPECTRUM
Energy (keV)
Nu
mb
er
of
Pu
lse
s
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ENERGY WINDOWS
Energy (keV)
Nu
mb
er
of
Pu
lse
s
![Page 57: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/57.jpg)
Physical Measures of Image Quality
Noise
Statistical uncertainty in the number of counts
recorded
Contrast
Difference in intensity in parts of the image
corresponding to different concentrations of activity
within the patient
![Page 58: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/58.jpg)
An imaging system is subject to statistical variations
at all of its stages
Radioactive decay
Number of scintillation photons in crystal
Number of photoelectrons emitted from PMT
photocathode / dynodes
Image Quality: Noise
![Page 59: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/59.jpg)
Image Quality: Noise
Increased Counts → Reduced Noise
Mean Pixel
Count
Absolute
Noise Noise (%)
100 10 10
10,000 100 1
![Page 60: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/60.jpg)
Image Quality: Contrast
R2: Background
R1: Lesion
![Page 61: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/61.jpg)
Image Quality: Recorded Counts
Administered activity
diagnostic reference levels – ARSAC
Uptake of tracer
radiopharmaceutical properties
Attenuation / Scatter
patient size
Acquisition time
typical imaging times: 3-60 minutes
![Page 62: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/62.jpg)
Image Quality: Patient Motion
Long imaging times
limit to time patient
can remain still
Physiological motion
cardiac gating
respiratory gating
![Page 63: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/63.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 64: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/64.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body / Continuous
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 65: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/65.jpg)
Camera FOV divided into regular matrix of pixels
Each pixel stores number of gamma rays detected at corresponding location on detector
Typical matrix sizes: 2562, 1282, 642
Camera Computer Memory Image Display
1
Static Imaging (Planar)
![Page 66: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/66.jpg)
Camera FOV divided into regular matrix of pixels
Each pixel stores number of gamma rays detected at corresponding location on detector
Typical matrix sizes: 2562, 1282, 642
Camera Computer Memory Image Display
1
1
Static Imaging (Planar)
![Page 67: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/67.jpg)
Static Imaging (Planar)
Camera FOV divided into regular matrix of pixels
Each pixel stores number of gamma rays detected at corresponding location on detector
Typical matrix sizes: 2562, 1282, 642
Camera Computer Memory Image Display
1
1
1
![Page 68: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/68.jpg)
Camera FOV divided into regular matrix of pixels
Each pixel stores number of gamma rays detected at corresponding location on detector
Typical matrix sizes: 2562, 1282, 642
Camera Computer Memory Image Display
1
1
1
1
Static Imaging (Planar)
![Page 69: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/69.jpg)
Camera FOV divided into regular matrix of pixels
Each pixel stores number of gamma rays detected at corresponding location on detector
Typical matrix sizes: 2562, 1282, 642
Camera Computer Memory Image Display
1
1
1
1
2
Static Imaging (Planar)
![Page 70: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/70.jpg)
DMSA Renal Imaging
Radiopharmaceutical
99Tcm-DMSA
Imaged at 3-4 hours
Effective dose
0.7 mSv
Investigates
renal scarring
non-functioning tissue
divided renal function
Useful post UTIs
![Page 71: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/71.jpg)
Divided function
Normal range: 45 - 55%
Normal scan
bilateral smooth renal
outlines
equal sized kidneys
Case 1 – Normal Scan
![Page 72: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/72.jpg)
Case 2 – Renal Scarring
More sensitive than
ultrasound
Focal scarring in
left kidney
Atrophic
right kidney
![Page 73: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/73.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body / Continuous
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 74: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/74.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body / Continuous
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 75: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/75.jpg)
Dynamic Imaging
Series of sequential static images
e.g. 90 frames each of 20sec
Images
changing distribution of activity within
the patient
Examples include:
gastric emptying studies
lymphoscintigraphy
diuretic renography
![Page 76: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/76.jpg)
Diuretic Renography
Radiopharmaceutical
99Tcm-MAG3
Imaged immediately
Effective dose
0.7 mSv
Investigates
suspected obstruction
dilated system
pre-transplant donor assessment
![Page 77: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/77.jpg)
Regions of Interest
(ROI)
Curves showing changing
renal activity over time
Split Renal Function
Case 1: Normal Study
![Page 78: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/78.jpg)
Case 2: Obstructed System
Rising time-activity
curves on both kidneys
![Page 79: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/79.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body / Continuous
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 80: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/80.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body / Continuous
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 81: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/81.jpg)
Multiple Gated Imaging (MUGA)
Multiple images/frames acquired over set time period
Acquired over many cycles
![Page 82: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/82.jpg)
Radiopharmaceutical
Tc-99m labelled red cells
Imaged immediately
Effective dose
6 mSv
Investigates
left ventricular function
regional wall motion
Allows precise/repeatable measurement of LVEF
left venrtricular ejection fraction
Radionuclide Ventriculography
![Page 83: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/83.jpg)
Radionuclide Ventriculography
![Page 84: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/84.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body / Continuous
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 85: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/85.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body / Continuous
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 86: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/86.jpg)
Whole Body / Continuous Imaging
• A window (or ramp)
– opens along the camera face
– and then slowly scans down the body
• Ramps down as camera
– reaches the preset end of the body
• Sensors on the camera
– ensure detectors remain close to the patient
![Page 87: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/87.jpg)
Case 1 Radiopharmaceutical
99Tcm-HDP
Imaged at 3-4hrs
High Bone/Soft tissue ratio
Effective dose 3 mSv
Symmetry
Kidneys and bladder
![Page 88: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/88.jpg)
Case 2 Focal uptake
throughout axial skeleton
Osteoblastic metastases
breast and prostate
high sensitivity
Osteolytic metastases
Renal, breast, lung, myeloma
Reduced sensitivity
![Page 89: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/89.jpg)
Case 3 Superscan
Non-visualisation of
kidneys
soft tissue
Poor visualisation of
limb bones
Diffusely increased
Skeletal uptake
Causes
widespread metastases
![Page 90: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/90.jpg)
Pitfalls of Planar Imaging
Planar imaging
2D representation of 3D
distribution of activity
No depth information
Structures at different depths
are superimposed
Loss of contrast
![Page 91: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/91.jpg)
Pitfalls of Planar Imaging
Planar imaging
2D representation of 3D
distribution of activity
No depth information
Structures at different depths
are superimposed
Loss of contrast
![Page 92: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/92.jpg)
Pitfalls of Planar Imaging
Planar imaging
2D representation of 3D
distribution of activity
No depth information
Structures at different depths
are superimposed
Loss of contrast
![Page 93: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/93.jpg)
Pitfalls of Planar Imaging
Planar imaging
2D representation of 3D
distribution of activity
No depth information
Structures at different depths
are superimposed
Loss of contrast
![Page 94: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/94.jpg)
Pitfalls of Planar Imaging
Planar imaging
2D representation of 3D
distribution of activity
No depth information
Structures at different depths
are superimposed
Loss of contrast
![Page 95: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/95.jpg)
Pitfalls of Planar Imaging
Planar imaging
2D representation of 3D
distribution of activity
No depth information
Structures at different depths
are superimposed
Loss of contrast
Image contrast 2:1
Object Contrast 4:1
![Page 96: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/96.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body / Continuous
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 97: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/97.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body / Continuous
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 98: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/98.jpg)
Planar Imaging
Static
Dynamic
Multiple Gated (MUGA)
Whole Body / Continuous
Tomographic Imaging
Single Photon Emission Tomography (SPECT)
Positron Emission Tomography (PET)
Image Acquisition Techniques
![Page 99: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/99.jpg)
Isotope Half-life (hr) Energy (keV)
99Tcm 6.0 140
111In 67.3 171 & 245
123I 13.2 159
201Tl 73.0 69-83
γ/X-rays SPECT
Tomographic Imaging - SPECT
![Page 100: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/100.jpg)
Tomographic Imaging - SPECT
![Page 101: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/101.jpg)
Multiple planar images
(projections)
acquired at several angles
around the patient
Projections processed
Filtered Backprojection
Iterative Reconstruction
Tomographic Imaging - SPECT
![Page 102: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/102.jpg)
Multiple planar images
(projections)
acquired at several angles
around the patient
Projections processed
Filtered Backprojection
Iterative Reconstruction
Tomographic Imaging - SPECT
![Page 103: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/103.jpg)
Filtered Backprojection
• Simple Backprojection
– mathematical method to reconstruct a tomographic image
![Page 104: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/104.jpg)
Backprojection
![Page 105: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/105.jpg)
Backprojection
3 3
3
3
3
3
3 3
6
6 6
6
Backproject each planar image onto three dimensional image matrix
![Page 106: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/106.jpg)
Backprojection
3 3 6
1
1
1
1
1
1
2
2
2
Backproject each planar image onto three dimensional image matrix
![Page 107: FRCR Nuclear Medicine - hullrad Medicine - Manos...FRCR LECTURES Lecture I – 20/09/2016: Nuclear Medicine and Image Formation Lecture II – 22/09/2016: Positron Emission Tomography](https://reader036.vdocuments.net/reader036/viewer/2022062415/5fe4694bce6a0f1622548ba5/html5/thumbnails/107.jpg)
Backprojection
3 3 6
1
1
1
1
1
1
2
2
2
3
3
2 3 2
3 4 3
2 3 2
6
Backproject each planar image onto three dimensional image matrix
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Backprojection
3 3
3
3
3
3
3 3
6
6 6
6
4 4
4 4
6 6
6
6
8
Backproject each planar image onto three dimensional image matrix
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Backprojection
3 3
3
3
3
3
3 3
6
6
6
4 4
4 4
6 6
6
6
8 6
Backproject each planar image onto three dimensional image matrix
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More views – better reconstruction
Blurring, even with infinite number of views
Backprojection
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Sampling Theorem
Angular sampling interval should be
approximately same as linear sampling distance
L=πD/2
L
D
Linear sampling distance is
pixel size, Δr
Nviews > L/Δr
Nviews > πD/2Δr
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Filtered Backprojection
• Utilises a RAMP filter
– Used to supress blurring
– Used for all routine tomographic reconstructions
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Filtered Backprojection
• RAMP filter + User selected filter is used
– goal is to create an image easier to “read”
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Pitfalls of Filtered Back Projection
Back projection is mathematically correct but
introduces noise and streaking artefacts
cannot apply attenuation correction techniques
Filtered Back Projection can reduce noise and
artefacts
but may degrade resolution
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Iterative Reconstruction
It is NOT a new technique
pre-dates filtered backprojection
Computationally intensive
long reconstruction times
requires fast computers for reconstruction
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What is Iterative Reconstruction?
It is a method based on
successive “guesses” of the image
Processing computer forms
image
by refining expected projections in
comparison to those recorded
This form of iterative
reconstruction is known as
“Maximum Likelihood Expectation
Maximisation” (MLEM)
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Iterative Reconstruction
Filtering
post reconstruction – data may need smoothing
Since iterative reconstruction makes estimates
it can be used to correct for image degradation
due to
Attenuation
Scatter
Loss of image resolution
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PHOTON ATTENUATION
The removal of photons from a
beam of photons
as it passes through matter
Attenuation is caused by
absorption
scattering of photon beam
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PHOTON ATTENUATION
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Aim
to correct for attenuation from tissue surrounding the organ of interest
Attenuation correction
reduces the artifactual decrease in activity
image appearance represents actual activity in area of interest
leads to
improved quantitation
improved image quality
ATTENUATION CORRECTION
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Attenuation effects
can be interpreted correctly through
references to normal images and training
Correction
may improve the diagnostic accuracy of a
study
ATTENUATION CORRECTION
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A Computed Tomography image is
a measure of attenuation profiles at different
angular projections
The reconstructed image is
a 2D map of linear attenuation coefficients
CT-BASED METHOD
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CT-BASED METHOD
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Attenuation Correction
SPECT
Inherent Image
Registration (Fusion) CT
1) AC image
2) Fused image
CT-BASED METHOD
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Resolution Recovery
Spatial resolution
worsens with increasing distance
from the collimator
Resolution losses modelled
put into iterative reconstruction
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Resolution Recovery
Better modelling means better images
Fewer counts needed to get acceptable images
shorter acquisitions
lower doses
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SPECT Applications
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SPECT Applications
Cardiology
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Myocardial Perfusion Scintigraphy Coronary artery blood flow
proportional to uptake of radiopharmaceutical in heart
Stress and rest studies performed
Stress exercise
pharmacologic stress
Gated SPECT (unless in Atrial Fibrillation)
Radiopharmaceuticals
99Tcm-MIBI or Tetrofosmin
201Tl (thallous chloride)
Can be used to look at wall motion, thickening and ejection fraction
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Case 1: Reversible Ischemia
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Case 2: Infarct
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SPECT Applications
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SPECT Applications
Oncology
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Bone SPECT
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SPECT Applications
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SPECT Applications
Neurology
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Radiopharmaceutical
123I-Ioflupane
Imaged at 3-6 hours
Effective dose 4.4 mSv
Differentiates between
ET, Drug-induced parkinson’s
and Parkinsonian syndromes
Assesses the severity of Parkinsonian syndromes
DaTSCAN Brain Imaging
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Case 1: Normal Scan
Ioflupane binds to
pre-synaptic dopamine
transporters
Normal appearance is
comma shaped putamen
Abnormal
“full stop” shape of one or
both putamen
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Case 2: Abnormal Scan
Ioflupane binds to
pre-synaptic dopamine
transporters
Normal appearance is
comma shaped putamen
Abnormal
“full stop” shape of one or
both putamen
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Case 3: Abnormal Scan
Ioflupane binds to
pre-synaptic dopamine
transporters
Normal appearance is
comma shaped putamen
Abnormal
“full stop” shape of one or
both putamen
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End of Part 1: Thank you for listening!