Principles of SPECT

Zeng, Larry

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Introduction
To see what's inside
SPECT: functional imaging
Use of SPECT to find the infection site (1)
Use of SPECT to find the infection site (2)
Use of SPECT to find the infection site (3)
Radiopharmaceuticals
Emission computed tomography (1)
Emission computed tomography (2)
X-rays
X-rays generation
Gamma ray "generation"
Radioactivity
Production of radionuclides - Cyclotron
Production of radionuclides - Nuclear reactor
Neutron capture
Disintegration
Types of radioactive decay: beta(-) emisson (1)
Types of radioactive decay: beta(-) emission (2)
Tc-99m
Electron capture
SPECT instrumentation (1)
SPECT instrumentation (2)
SPECT camera
Collimators
Types of collimators
A SPECT Collimator's image
Scintillator and photo multiplier tubes
How do photo multiplier tubes work
The electric circuits
Anger logic (1)
Anger logic (2)
Detected photon energy distribution
PHA (Pulse Height Analyzer)
Image quality (degradation factors) SPECT
Attenuation
Scatter
Energy spectrum with patient in place
Collimator blurring
Poisson noise
Image reconstruction (1)
Iterative reconstruction - projection
Iterative reconstruction - back projection
Image reconstruction (2)
Image reconstruction (3)
Iterative reconstruction principle
FBP: an example
Summary: SPECT is functional imaging
Summary: nuclear tracers emit gamma-rays
Summary: in the body, radioactive nucleus decays
Summary: Gamma-rays are detected by a camera
Summary: images reconstructed from projections
Summary: many factors can affect image quality
Thank you

Topics Covered

SPECT is functional imaging
Emission tomography
Basics of nuclear physics
SPECT instrumentation
SPECT imaging
SPECT image reconstruction

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Series:

Medical Imaging

Categories:

Methods

Talk Citation

Zeng, L. (2010, April 1). Principles of SPECT [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved April 12, 2025, from https://doi.org/10.69645/JMUG5828.
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