| 1 |
Overview of Imaging
Imaging Radiation |
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| 2 |
Interactions of Radiation with Matter |
Homework 1 out |
| 3 |
X-ray Generation and Planar Imaging |
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| 4 |
X-ray CT Overview |
Homework 1 due
Homework 2 out |
| 5 |
Fourier Transforms and Convolution |
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| 6 |
Central Slice Theorem and Projection/Reconstruction |
Homework 2 due
Homework 3 out |
| 7 |
Class Demo: X-ray CT |
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| 8 |
Application: Quantitative Anatomy from CT |
Homework 3 due
Homework 4 out |
| 9 |
Tracers for Nuclear Imaging |
Homework 4 due
Homework 5 out |
| 10 |
Nuclear Imaging Detectors and Cameras |
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| 11 |
Principles of PET and SPECT |
Homework 5 due
Homework 6 out |
| 12 |
Application: Binding Measurements with PET |
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| 13 |
Application: Functional Imaging using FDG Uptake |
Homework 6 due
Homework 7 out |
| 14 |
Nuclear Magnetic Resonance Physics I |
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| 15 |
Nuclear Magnetic Resonance Physics II |
Homework 7 due
Homework 8 out |
| 16 |
Magnetic Resonance Imaging I |
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| 17 |
Magnetic Resonance Imaging II |
Homework 8 due
Homework 9 out |
| 18 |
MRI Contrast Agents |
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| 19 |
Application: BOLD Effect in Functional MRI |
Homework 9 due
Homework 10 out |
| 20 |
Application: Neural Fiber Tracking with MRI |
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| 21 |
Class Demo: MRI |
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| 22 |
Diffuse Optical Tomography I |
Homework 10 due |
| 23 |
Diffuse Optical Tomography II |
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| 24 |
Optical Molecular Imaging |
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| 25 |
Final Presentations |
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