From 22174a1452406a40fa0918c5f3eb9a598bd688ad Mon Sep 17 00:00:00 2001 From: Mathieu Boudreau Date: Wed, 9 Oct 2024 13:47:51 -0300 Subject: [PATCH] Fix indice --- 2 T1 Mapping/2-3 MP2RAGE/01-Introduction.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/2 T1 Mapping/2-3 MP2RAGE/01-Introduction.md b/2 T1 Mapping/2-3 MP2RAGE/01-Introduction.md index 4cb1bc5..336af29 100644 --- a/2 T1 Mapping/2-3 MP2RAGE/01-Introduction.md +++ b/2 T1 Mapping/2-3 MP2RAGE/01-Introduction.md @@ -23,5 +23,5 @@ MP2RAGE is an extension of the conventional MPRAGE pulse sequence widely used in ```{figure} img/mp2rage_pulsesequence.png :label: mp2rageFig1 :enumerator: 2.14 -Simplified diagram of an MP2RAGE pulse sequence. TR: repetition time between successive gradient echo readouts, TR{sub}`MP2RAGE`: repetition time between successive adiabatic 180° inversion pulses, TI{sub}`1` and TI{sub}`2`: inversion times, {math}`\theta_{1}` and {math}`\theta_{1}`: excitation flip angles. The imaging readout events occur within each TR using a constant in-plane phase encode (“y”) gradient set for each TR{sub}`MP2RAGE`, but varying 3D phase encode (“z”) gradients between each successive TR. +Simplified diagram of an MP2RAGE pulse sequence. TR: repetition time between successive gradient echo readouts, TR{sub}`MP2RAGE`: repetition time between successive adiabatic 180° inversion pulses, TI{sub}`1` and TI{sub}`2`: inversion times, {math}`\theta_{1}` and {math}`\theta_{2}`: excitation flip angles. The imaging readout events occur within each TR using a constant in-plane phase encode (“y”) gradient set for each TR{sub}`MP2RAGE`, but varying 3D phase encode (“z”) gradients between each successive TR. ```