Pulse Sequences: EPG and Simulations-ISMRM 2010 Edu: Miller, Weigel -ISMRM 2011 Edu: Miller, Weigel...
Transcript of Pulse Sequences: EPG and Simulations-ISMRM 2010 Edu: Miller, Weigel -ISMRM 2011 Edu: Miller, Weigel...
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Pulse Sequences:EPG and Simulations
M229 Advanced Topics in MRI Holden H. Wu, Ph.D.
2019.04.18
Department of Radiological Sciences David Geffen School of Medicine at UCLA
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Class Business
• Homework 1 due 4/26
• Homework 2 due 5/3
• Final project - start thinking - come to office hours - discussion on 4/23 Tue - proposal due 5/10 (not graded)
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Outline
• Multi-Pulse Experiments
• Extended Phase Graphs (EPG)
• EPG Simulations - Homework 2
• Spin Bench Demo
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Multi-Pulse Experiments
• Multiple RF pulses - always have echoes (many types) - do not need perfect 90o+180o to form SE, etc.
• Analysis - Bloch Equations - Extended Phase Graphs (EPG)
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Spin Echo (2 pulses)
x y
z
x y
z
90ox FP, T2
180oy
x y
z
FP, T2
x y
z
x y
z
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Stimulated Echo (3 pulses)
x y
z
90ox FP, T2
FP, T2 90oy FP, T2
x y
z
T1
90oy
x y
z
x y
z
x y
z
x y
z
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Multiple Pulse Experiments
Scheffler, Concepts in MR 1999
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Multiple Pulse Experiments
Scheffler, Concepts in MR 1999
SE
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Multiple Pulse Experiments
Scheffler, Concepts in MR 1999
STE
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Multiple Pulse Experiments
• RF pulses act on an ensemble of spins - Mz to Mxy - Mxy to Mz, Mxy and Mxy*
• Transverse F states - F = Mx + iMy = Fpos; F* = Mx - iMy = Fneg
• Longitudinal Z states
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Multiple Pulse Experiments
Scheffler, Concepts in MR 1999
Echo F0
Signal Pathways on a Phase Diagram (i.e. EPG)
Z states appear as broken lines; F0 states are echoes
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Extended Phase Graphs
• MR signal is a sum of all dephased spins
• Bloch equation - tracks evolution of magnetization for each spin - exact, but hard to visualize intuitively
• EPG - considers groups of spins under constant
gradients - decomposes the spin system into several
dephased states: Fk and F-k; Zk
Hennig, JMR 1988; 78:397-407
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Extended Phase Graphs
• Based on Fourier space coordinate k
• Magnetization represented by Fourier transforms
• Complete magnetization is described by vector F of various EPG partitions states with different k
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Gradient Dephasing
Weigel, JMRI 2015;41:266–295.
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Gradient Dephasing
Weigel, JMRI 2015;41:266–295.
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Gradient Dephasing
Weigel, JMRI 2015;41:266–295.
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Gradient Dephasing
Weigel, JMRI 2015;41:266–295.
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Gradient Dephasing
Brian Hargreaves and Karla Miller ISMRM 2013: Educational E-Poster #3718
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“Discrete” Gradient Dephasing
Brian Hargreaves and Karla Miller ISMRM 2013: Educational E-Poster #3718
transition between states
k is the number of twists/cycles across a voxel
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RF Pulse
• Woessner Decomposition magnetization after an RF pulse can be regarded as a composition of 3 components: - transversal component that is unaffected (0o-pulse) - transversal component that is refocused (180o-pulse) - a longitudinal component
Woessner DE. J Chem Phys 1961; 34: 2057–2061.
rephasing
dephasing
longitudinal
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RF Pulse
• The RF pulse operator splits any given EPG state with dephasing order k into 3 different new states: - a transversal state with identical k - a transversal state with inverted k - a longitudinal state with identical k
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RF Pulse
Brian Hargreaves and Karla Miller ISMRM 2013: Educational E-Poster #3718
mixes F and Z states!
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RF Pulse
Weigel, JMRI 2015;41:266–295.
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EPG Concept SummaryFourier based
configuration states RF pulse partitioning
Phase graph approach that depicts the evolution of a complete isochromat ensemble.
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EPG “Calculus”
• RF pulse for state k: -Produces signal in longitudinal state k and transverse states k and -k
• Gradient dephaser for state k: -Moves transverse magnetization to k+1 -Does not affect longitudinal magnetization
FkFk
F-k
Zk
Fk
Fk+1
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EPG: Spin Echo90o
F0
F1
F-1
Z1
180o
SE
F2
T1,T2 T1,T2
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90o
F0
F1
F-1
Z1
θ
STE
θ
EPG: Stimulated Echo
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EPG: 3-Pulse Experiment
Weigel, JMRI 2015;41:266–295.
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90o
F0
F1
F-1
Z1
θ
SE
F2
θ θ
SE
EPG: Train of Spin Echo
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EPG: CPMG
F0 = observable signal (“Echo”)
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EPG: Matrix formulation
• Phase states - Can represent as a matrix:
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EPG: Matrix formulation
• RF pulses - invert state (e.g., F3 to F-3) or can transfer
between F and Z states - Simple pre-multiplication P’ = RP, where R is
Scheffler, Concepts in MR 1999
for an RF pulse with flip angle α and phase ϕ
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EPG: Matrix formulation
• Gradients (in discretized units) - Increase number of states by 1 - Replace all Fk states with Fk-1
(e.g., F0 becomes F1) - Replace F0 using F0* - Do not change Z states
# phase states grow linearly w.r.t. TSE ETL
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EPG: Matrix formulation
• Relaxation - Transverse:
All F states attenuated by E2 = exp(-T/T2) - Longitudinal:
All Z states attenuated by E1 = exp(-T/T1) Z0 state only has recovery of M0(1-E1)
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EPG: Extensions
• Non-ideal slice profiles
• Variable RF flip angle and phase
• Motion / flow effects
• Diffusion effects - Weigel M, et al., JMR 2010; 205: 276-285
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EPG Simulation
• Phase state propagation - RF pulse - T1, T2 decay - free precession - gradient pulse
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EPG SimulationPhase states:
P =
2
4F0 F1 F2 ...F0⇤ F�1 F�2 ...Z0 Z1 Z2 ...
3
5
R{✓,�} =
2
4cos2 ✓
2 e2i� sin2 ✓2 �iei� sin ✓
e�2i� sin2 ✓2 cos2 ✓
2 ie�i� sin ✓� i
2e�i� sin ✓ i
2ei� sin ✓ cos ✓
3
5
RF pulse (θ, ϕ), P+ = RP:
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EPG SimulationGradients:
P =
2
4F0 F1 F2 ...F0⇤ F�1 F�2 ...Z0 Z1 Z2 ...
3
5
Relaxation:
Fk → E2 Fk
Zk → E1 Zk (k>0)
Z0 → E1 Z0 + M0(1 - E1)
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EPG Simulation
• Transient state; steady state
• Different seq/tissue params
• Brian’s MATLAB EPG sim code - will be emailed to class mailing list
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EPG Simulation
• Example: Turbo Spin Echo - epg_rf.m - epg_grelax.m, epg_grad.m, epg_mgrad.m - epg_cpmg_hhw.m - EPGSim_CPMG_hhw.m
- can look at different refocusing RF trains
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EPG Simulations: FSE
• non-CPMG 180s: 90x-180x-180x-…
• CPMG 180s: 90x-180y-180y-…
• non-CPMG 120s: 90x-120x-120x-…
• CPMG 120s: 90x-120y-120y-…
• CPMG 120s +prep: 90x-150y-120y-…
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EPG Simulations: FSE
T1 = 1000 ms, T2 = 100 ms, ETL = 50, ESP = 10 ms
non-CPMG 180s CPMG 180s
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EPG Simulations: FSE
T1 = 1000 ms, T2 = 100 ms, ETL = 50, ESP = 10 ms
non-CPMG 120s CPMG 120s
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EPG Simulations: FSE
T1 = 1000 ms, T2 = 100 ms, ETL = 50, ESP = 10 ms
F0 vs. echo number
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EPG Simulation
• Homework 2, part 2A - Gradient-spoiled GRE (SSFP-FID)
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EPG Simulation
• Homework 2, part 2B - RF-spoiled GRE
Scheffler, Concepts in MR 1999, Fig. 11
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Homework 2
• Pulse Sequence Simulations - 1. Bloch: Steady state comparison,
bSSFP transient state and catalyzation - 2. EPG: SSFP-FID, RF-spoiled GRE
• Due 5 pm, Fri, 5/3 by email - PDF and MATLAB code
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Summary
• Multiple RF pulses -> multiple echoes
• EPG analysis - consider groups of spins - explicit treatment of pathways and echoes - flexible and powerful - you can do it!
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Spin Bench Demo
• bSSFP and other examples - phase cycling, …
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Thanks!
• Web resources - ISMRM 2010 Edu: Miller, Weigel - ISMRM 2011 Edu: Miller, Weigel
• Further reading - Bernstein et al., Handbook of MRI Sequences - Haacke et al., Magnetic Resonance Imaging - Scheffler, Concepts in MR 1999; 11:291-304 - Hennig, JMR 1988; 78:397-407 - Weigel, JMRI 2015; 41:266-295
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Thanks!
• Acknowledgments - Brian Hargreaves’s EPG slides and code - Kyung Sung’s EPG slides - Isabel Dregely’s EPG slides
Holden H. Wu, Ph.D.
http://mrrl.ucla.edu/wulab