| SES # | TOPICS | KEY DATES |
|---|---|---|
| 1 |
Introductory Remarks, Course Requirements Introduction to NMR Classical Model of the NMR Phenomenon The Bloch Equations |
|
| 2 | Relaxation Mechanisms and Measurement Proton Relaxation Enhancement Effects of Magnetic Susceptibility Introduction to Pulse Sequences |
|
| 3 | Review of Rotating Frame Spin Echos Ernst Angle Off-resonance Effects |
Assignment 1 due |
| 4 | Image Contrast (T1, T2 Weighting) Basic NMR Spectroscopy Chemical Shifts, J-coupling Basic Pulse Sequences in Uncoupled and Coupled Systems |
Assignment 2 due |
| 5 | Image Encoding Fourier Transforms and Properties Image Resolution - Point Spread Function |
|
| 6 | Review of k-space Formalism Review of Resolution and Sampling - Nyquist Rate MR Image Reconstruction Gradient and RF Waveforms |
|
| 7 | Errors in Imaging (Ghosting) | Assignment 3 due Midterm Quiz |
| 8 | MRI Hardware Overview | |
| 9 | Additional Pulse Sequences Chemical Shift Imaging and Flow Imaging Techniques 2-D and 3-D CSI Time of Flight and Phase Contrast Flow Imaging |
|
| 10 |
Guest Lecturer - Van Wedeen, PhD Diffusion-weighted MR Techniques |
|
| 11 | Parallel Imaging MR Encoding Matrix Formalism Multiple Coil Formalism SMASH and SENSE |
Assignment 4 due |
| 12 |
Guest Lecturer - Alan Jasanoff, PhD Molecular Imaging Techniques Guest Lecturer - Elfar Adalsteinsson, PhD Advanced Image Reconstruction |
|
| 13 |
Guest Lecturer - Robert Savoy, PhD Introduction to fMRI and Experiment Design |
Assignment 5 due |
| 14 | Class Presentations | Final Project due |
