SIEMENS MAGNETOM Avanto syngo MR B15

Similar documents
SIEMENS MAGNETOM Avanto syngo MR B15

SIEMENS MAGNETOM Verio syngo MR B15V

COBRE Scan Information

SIEMENS MAGNETOM Verio syngo MR B17

HST.583 Functional Magnetic Resonance Imaging: Data Acquisition and Analysis Fall 2008

SIEMENS MAGNETOM Skyra syngo MR D13

HST.583 Functional Magnetic Resonance Imaging: Data Acquisition and Analysis Fall 2008

SIEMENS MAGNETOM Symphony syngo MR A30

SIEMENS MAGNETOM TrioTim syngo MR B17

HST.583 Functional Magnetic Resonance Imaging: Data Acquisition and Analysis Fall 2006

SOP: Brain MRI Inital version Gorm Greisen. CONTENT 1.0 Timing of Brain MRI Informed consent...1

Siemens AG, Healthcare Sector. syngo MR D13 0. Supplement - Parameters and image text 0.

Lab Location: MRI, B2, Cardinal Carter Wing, St. Michael s Hospital, 30 Bond Street

Philips MRI Protocol Dump Created on Comment Software Stream

ADNI, ADNI_QH, SURVEY. Geometry. connection

ADNI GO - ADNI 2 Human7 (9) 38:30.1

Page 1 of 9. Protocol: adult_other_adni3basichumanprotocol25x_ _ _1. 3 Plane Localizer. 3 Plane Localizer PATIENT POSITION

Applications Guide for Interleaved

Orthopedic MRI Protocols. Philips Panorama HFO

Slide 1. Technical Aspects of Quality Control in Magnetic Resonance Imaging. Slide 2. Annual Compliance Testing. of MRI Systems.

A Virtual MR Scanner for Education

Scan Acceleration with Rapid Gradient-Echo

Module 4. K-Space Symmetry. Review. K-Space Review. K-Space Symmetry. Partial or Fractional Echo. Half or Partial Fourier HASTE

MRI image formation 8/3/2016. Disclosure. Outlines. Chen Lin, PhD DABR 3. Indiana University School of Medicine and Indiana University Health

MRI. When to use What sequences. Outline 2012/09/19. Sequence: Definition. Basic Principles: Step 2. Basic Principles: Step 1. Govind Chavhan, MD

Fast Imaging UCLA. Class Business. Class Business. Daniel B. Ennis, Ph.D. Magnetic Resonance Research Labs. Tuesday (3/7) from 6-9pm HW #1 HW #2

MR Advance Techniques. Vascular Imaging. Class III

White Pixel Artifact. Caused by a noise spike during acquisition Spike in K-space <--> sinusoid in image space

syngo MR E11 Operator Manual Ortho Answers for life.

CHAPTER 9: Magnetic Susceptibility Effects in High Field MRI

Midterm Review

Diffusion MRI Acquisition. Karla Miller FMRIB Centre, University of Oxford

M R I Physics Course

New Technology Allows Multiple Image Contrasts in a Single Scan

XI Signal-to-Noise (SNR)

MRI Physics II: Gradients, Imaging

Fast Imaging Trajectories: Non-Cartesian Sampling (1)

MR-Encephalography (MREG)

Lucy Phantom MR Grid Evaluation

Dynamic Contrast enhanced MRA

Sampling, Ordering, Interleaving

Role of Parallel Imaging in High Field Functional MRI

Patient Specific. Protocol Identification Number (PID) Must be on each individual. MRI Image

3-D Gradient Shimming

Field Maps. 1 Field Map Acquisition. John Pauly. October 5, 2005

ACQUIRING AND PROCESSING SUSCEPTIBILITY WEIGHTED IMAGING (SWI) DATA ON GE 3.0T

WE PROVIDE KNOWLEDGE, SERVICES AND PRODUCTS FOR ANY KIND OF PROCESS PLANTS

SPM8 for Basic and Clinical Investigators. Preprocessing. fmri Preprocessing

Basic fmri Design and Analysis. Preprocessing

(a Scrhon5 R2iwd b. P)jc%z 5. ivcr3. 1. I. ZOms Xn,s. 1E IDrAS boms. EE225E/BIOE265 Spring 2013 Principles of MRI. Assignment 8 Solutions

Error! Bookmark not defined. Error! Bookmark not defined.

Breast MRI Accreditation Program Clinical Image Quality Guide

MRI Image Quality Assessment

An Introduction to Image Reconstruction, Processing, and their Effects in FMRI

MRI Imaging Options. Frank R. Korosec, Ph.D. Departments of Radiology and Medical Physics University of Wisconsin Madison

Tina Pavlin 12 March 2013

Sampling, Ordering, Interleaving

A Transmission Line Matrix Model for Shielding Effects in Stents

8/11/2009. Common Areas of Motion Problem. Motion Compensation Techniques and Applications. Type of Motion. What s your problem

3D3C & 2D3D Velocity Measurements Using Magnetic Resonance Velocimetry

SPM8 for Basic and Clinical Investigators. Preprocessing

Parallel Imaging. Marcin.

Short Tutorial for ODIN, the Object-oriented Development Interface for NMR

Outline: Contrast-enhanced MRA

University of Cape Town

Following on from the two previous chapters, which considered the model of the

Functional MRI. Jerry Allison, Ph. D. Medical College of Georgia

Functional MRI in Clinical Research and Practice Preprocessing

EPI Data Are Acquired Serially. EPI Data Are Acquired Serially 10/23/2011. Functional Connectivity Preprocessing. fmri Preprocessing

Supplementary methods

GE Healthcare CLINICAL GALLERY. Discovery * MR750w 3.0T. This brochure is intended for European healthcare professionals.

Fmri Spatial Processing

Compressed Sensing for Rapid MR Imaging

Gradient-Echo. Spin-Echo. Echo planar. Assessment of Regional Function Assessment of Global. Parallel Imaging. Function. Steady State Imaging

surface Image reconstruction: 2D Fourier Transform

Exam 8N080 - Introduction MRI

MAGNETOM C!

Motion Artifacts and Suppression in MRI At a Glance

Qualitative Comparison of Conventional and Oblique MRI for Detection of Herniated Spinal Discs

FOCUS. Image Based Automatic Shimming Using B 0 Gradients. Installation and Users Guide Version 0.9

Improved Spatial Localization in 3D MRSI with a Sequence Combining PSF-Choice, EPSI and a Resolution Enhancement Algorithm

Advanced Imaging Trajectories

Single Breath-hold Abdominal T 1 Mapping using 3-D Cartesian Sampling and Spatiotemporally Constrained Reconstruction

TOPICS 2/5/2006 8:17 PM. 2D Acquisition 3D Acquisition

Table of Contents MRI Neuro protocols

Head motion in diffusion MRI

E. Mark Haacke, PhD. The MRI Institute for Biomedical Research Detroit, Michigan Wayne State University Detroit, Michigan 48201

Super-resolution Reconstruction of Fetal Brain MRI

Magnetic Resonance Angiography

Generalized Autocalibrating Partially Parallel Acquisitions (GRAPPA)

Imaging Notes, Part IV

Accelerated MRI Techniques: Basics of Parallel Imaging and Compressed Sensing

QIBA Profile: Magnetic Resonance Elastography of the Liver

MB-EPI PCASL. Release Notes for Version February 2015

Release Notes. Multi-Band EPI C2P. Release HCP_v1 10 February 2014

Blipped-Controlled Aliasing in Parallel Imaging for Simultaneous Multislice Echo Planar Imaging With Reduced g-factor Penalty

Technological Advances and Challenges: Experience with Time-Of-Flight PET Combined with 3T MRI. Floris Jansen, GE Healthcare July, 2015

TOF-MRA Using Multi-Oblique-Stack Acquisition (MOSA)

Nuts & Bolts of Advanced Imaging. Image Reconstruction Parallel Imaging

VD-AUTO-SMASH Imaging

Transcription:

\\USER\INVESTIGATORS\Ravi\ADNI-Subject\Localizer TA: 0:10 PAT: Voxel size: 1.9 1.5 8.0 mm Rel. SNR: 1.00 SIEMENS: gre Properties Prio Recon Before measurement After measurement Load to viewer Inline movie Auto store images Load to stamp segments Load images to graphic segments Auto open inline display AutoAlign Spine Start measurement without further preparation Wait for user to start Start measurements single Routine Slice group 1 Slices 1 Dist. factor 20 % Position Isocenter Slice group 2 Slices 1 Dist. factor 20 % Position Isocenter Slice group 3 Slices 1 Dist. factor 20 % Position Isocenter 9 Phase oversampling 0 % FoV read 280 mm FoV phase 100.0 % Slice thickness 8.0 mm TR 20.0 ms TE 5.00 ms Averages 1 Concatenations 3 Filter Raw filter, Distortion Corr.(2D), Normalize Coil elements HE1-4 Contrast TD MTC Magn. preparation Flip angle Fat suppr. Water suppr. SWI 0 ms 40 deg Averaging mode Short term Reconstruction Magnitude Measurements 1 Multiple series Each measurement Resolution Base resolution 192 Phase resolution 75 % Phase partial Fourier Interpolation PAT mode Matrix Coil Mode Auto (CP) Distortion Corr. Mode 2D Unfiltered images Prescan Normalize Normalize Raw filter Intensity Weak Slope 25 Elliptical filter Geometry Multi-slice mode Series Sequential Ascending Saturation mode Special sat. Set-n-Go Protocol Inline Composing System Body HE1 HE3 HE2 HE4 H 0 mm Positioning mode MSMA Save uncombined Coil Combine Mode Auto Coil Select REF S - C - T Adaptive Combine Default Shim mode Adjust with body coil Confirm freq. adjustment Assume Silicone Ref. amplitude 1H Adjustment Tolerance Adjust volume Position Tune up 205.057 V Auto Isocenter 350 mm 263 mm 350 mm Physio 1st Signal/Mode Segments 1 Tagging Dark blood 1/+

Resp. control Inline Subtract Liver registration Std-Dev-Sag Std-Dev-Cor Std-Dev-Tra Std-Dev-Time MIP-Sag MIP-Cor MIP-Tra MIP-Time Save original images Wash - In Wash - Out TTP PEI MIP - time Sequence Introduction Dimension 2D Phase stabilisation Asymmetric echo Contrasts 1 Bandwidth 180 Hz/Px Flow comp. No RF pulse type Gradient mode Excitation RF spoiling Normal Slice-sel. 2/+

\\USER\INVESTIGATORS\Ravi\ADNI-Subject\MPRAGE TA: 7:42 PAT: Voxel size: 1.3 1.3 1.2 mm Rel. SNR: 1.00 SIEMENS: tfl Properties Prio Recon Before measurement After measurement Load to viewer Inline movie Auto store images Load to stamp segments Load images to graphic segments Auto open inline display AutoAlign Spine Start measurement without further preparation Wait for user to start Start measurements single Routine Slab group 1 Slabs 1 Dist. factor 50 % Phase oversampling 0 % Slice oversampling 20.0 % Slices per slab 160 FoV read FoV phase 100.0 % Slice thickness 1.20 mm TR 2400 ms TE 3.5 ms Averages 1 Concatenations 1 Filter Coil elements HE1-4 Contrast Magn. preparation TI Flip angle Fat suppr. Water suppr. Non-sel. IR 1000 ms 8 deg Averaging mode Long term Reconstruction Magnitude Measurements 1 Multiple series Resolution Base resolution 192 Phase resolution 100 % Slice resolution 100 % Phase partial Fourier Slice partial Fourier Interpolation PAT mode Matrix Coil Mode Auto (CP) Distortion Corr. Prescan Normalize Normalize Raw filter Elliptical filter Geometry Multi-slice mode Series Single shot Set-n-Go Protocol Inline Composing System Body HE2 HE4 HE1 HE3 SP4 SP2 SP8 SP6 SP3 SP1 SP7 SP5 H 0 mm Positioning mode MSMA Save uncombined Coil Combine Mode Auto Coil Select REF S - C - T Sum of Squares Default Shim mode Adjust with body coil Confirm freq. adjustment Assume Silicone Ref. amplitude 1H 205.057 V Adjustment Tolerance Auto Adjust volume 192 mm Physio 1st Signal/Mode Dark blood Resp. control Inline Subtract Std-Dev-Sag Std-Dev-Cor Std-Dev-Tra Std-Dev-Time MIP-Sag MIP-Cor MIP-Tra MIP-Time Save original images 3/+

Sequence Introduction Dimension 3D Elliptical scanning Asymmetric echo Bandwidth 180 Hz/Px Flow comp. No Echo spacing 7.9 ms RF pulse type Gradient mode Excitation RF spoiling * Non-sel. 4/+

\\USER\INVESTIGATORS\Ravi\ADNI-Subject\MPRAGE Repeat TA: 7:42 PAT: Voxel size: 1.3 1.3 1.2 mm Rel. SNR: 1.00 SIEMENS: tfl Properties Prio Recon Before measurement After measurement Load to viewer Inline movie Auto store images Load to stamp segments Load images to graphic segments Auto open inline display AutoAlign Spine Start measurement without further preparation Wait for user to start Start measurements single Routine Slab group 1 Slabs 1 Dist. factor 50 % Phase oversampling 0 % Slice oversampling 20.0 % Slices per slab 160 FoV read FoV phase 100.0 % Slice thickness 1.20 mm TR 2400 ms TE 3.5 ms Averages 1 Concatenations 1 Filter Coil elements HE1-4 Contrast Magn. preparation TI Flip angle Fat suppr. Water suppr. Non-sel. IR 1000 ms 8 deg Averaging mode Long term Reconstruction Magnitude Measurements 1 Multiple series Resolution Base resolution 192 Phase resolution 100 % Slice resolution 100 % Phase partial Fourier Slice partial Fourier Interpolation PAT mode Matrix Coil Mode Auto (CP) Distortion Corr. Prescan Normalize Normalize Raw filter Elliptical filter Geometry Multi-slice mode Series Single shot Set-n-Go Protocol Inline Composing System Body HE2 HE4 HE1 HE3 SP4 SP2 SP8 SP6 SP3 SP1 SP7 SP5 H 0 mm Positioning mode MSMA Save uncombined Coil Combine Mode Auto Coil Select REF S - C - T Sum of Squares Default Shim mode Adjust with body coil Confirm freq. adjustment Assume Silicone Ref. amplitude 1H 205.057 V Adjustment Tolerance Auto Adjust volume 192 mm Physio 1st Signal/Mode Dark blood Resp. control Inline Subtract Std-Dev-Sag Std-Dev-Cor Std-Dev-Tra Std-Dev-Time MIP-Sag MIP-Cor MIP-Tra MIP-Time Save original images 5/+

Sequence Introduction Dimension 3D Elliptical scanning Asymmetric echo Bandwidth 180 Hz/Px Flow comp. No Echo spacing 7.9 ms RF pulse type Gradient mode Excitation RF spoiling * Non-sel. 6/+

\\USER\INVESTIGATORS\Ravi\ADNI-Subject\B1-calibration Head TA: 0:42 PAT: Voxel size: 2.3 2.3 2.5 mm Rel. SNR: 1.00 SIEMENS: gre Properties Prio Recon Before measurement After measurement Load to viewer Inline movie Auto store images Load to stamp segments Load images to graphic segments Auto open inline display AutoAlign Spine Start measurement without further preparation Wait for user to start Start measurements single Routine Slab group 1 Slabs 1 Dist. factor 20 % Phase oversampling 0 % Slice oversampling 0.0 % Slices per slab 96 FoV read 300 mm FoV phase 100.0 % Slice thickness 2.50 mm TR 3.3 ms TE 1.08 ms Averages 1 Concatenations 1 Filter Coil elements HE1-4 Contrast MTC Magn. preparation Flip angle Fat suppr. Water suppr. SWI 2 deg Averaging mode Long term Reconstruction Magnitude Measurements 1 Multiple series Each measurement Resolution Base resolution 128 Phase resolution 100 % Slice resolution 100 % Phase partial Fourier Slice partial Fourier Interpolation PAT mode Matrix Coil Mode Auto (CP) Distortion Corr. Prescan Normalize Normalize Raw filter Elliptical filter Geometry Multi-slice mode Series Saturation mode Special sat. Set-n-Go Protocol Inline Composing System Body HE2 HE4 HE1 HE3 SP4 SP2 SP8 SP6 SP3 SP1 SP7 SP5 H 0 mm Positioning mode MSMA Save uncombined Coil Combine Mode Auto Coil Select REF S - C - T Sum of Squares Default Shim mode Adjust with body coil Confirm freq. adjustment Assume Silicone Ref. amplitude 1H 205.057 V Adjustment Tolerance Auto Adjust volume 300 mm 300 mm Physio 1st Signal/Mode Segments 1 Tagging Dark blood Resp. control Inline Subtract Liver registration Std-Dev-Sag Std-Dev-Cor Std-Dev-Tra Std-Dev-Time 7/+

MIP-Sag MIP-Cor MIP-Tra MIP-Time Save original images Wash - In Wash - Out TTP PEI MIP - time Sequence Introduction Dimension 3D Elliptical scanning Phase stabilisation Asymmetric echo Contrasts 1 Bandwidth 980 Hz/Px Flow comp. No RF pulse type Gradient mode Excitation RF spoiling Non-sel. 8/+

\\USER\INVESTIGATORS\Ravi\ADNI-Subject\B1-calibration Body TA: 0:42 PAT: Voxel size: 2.3 2.3 2.5 mm Rel. SNR: 1.00 SIEMENS: gre Properties Prio Recon Before measurement After measurement Load to viewer Inline movie Auto store images Load to stamp segments Load images to graphic segments Auto open inline display AutoAlign Spine Start measurement without further preparation Wait for user to start Start measurements single Routine Slab group 1 Slabs 1 Dist. factor 20 % Phase oversampling 0 % Slice oversampling 0.0 % Slices per slab 96 FoV read 300 mm FoV phase 100.0 % Slice thickness 2.50 mm TR 3.3 ms TE 1.08 ms Averages 1 Concatenations 1 Filter Coil elements BC Contrast MTC Magn. preparation Flip angle Fat suppr. Water suppr. SWI 2 deg Averaging mode Long term Reconstruction Magnitude Measurements 1 Multiple series Each measurement Resolution Base resolution 128 Phase resolution 100 % Slice resolution 100 % Phase partial Fourier Slice partial Fourier Interpolation PAT mode Matrix Coil Mode Auto (CP) Distortion Corr. Prescan Normalize Normalize Raw filter Elliptical filter Geometry Multi-slice mode Series Saturation mode Special sat. Set-n-Go Protocol Inline Composing System Body HE2 HE4 HE1 HE3 SP4 SP2 SP8 SP6 SP3 SP1 SP7 SP5 H 0 mm Positioning mode MSMA Save uncombined Coil Combine Mode Auto Coil Select REF S - C - T Sum of Squares Default Shim mode Adjust with body coil Confirm freq. adjustment Assume Silicone Ref. amplitude 1H 205.057 V Adjustment Tolerance Auto Adjust volume 300 mm 300 mm Physio 1st Signal/Mode Segments 1 Tagging Dark blood Resp. control Inline Subtract Liver registration Std-Dev-Sag Std-Dev-Cor Std-Dev-Tra Std-Dev-Time 9/+

MIP-Sag MIP-Cor MIP-Tra MIP-Time Save original images Wash - In Wash - Out TTP PEI MIP - time Sequence Introduction Dimension 3D Elliptical scanning Phase stabilisation Asymmetric echo Contrasts 1 Bandwidth 980 Hz/Px Flow comp. No RF pulse type Gradient mode Excitation RF spoiling Non-sel. 10/+

\\USER\INVESTIGATORS\Ravi\ADNI-Subject\Axial PD-T2 TSE TA: 6:50 PAT: Voxel size: 0.9 0.9 3.0 mm Rel. SNR: 1.00 SIEMENS: tse Properties Prio Recon Before measurement After measurement Load to viewer Inline movie Auto store images Load to stamp segments Load images to graphic segments Auto open inline display AutoAlign Spine Start measurement without further preparation Wait for user to start Start measurements single Routine Slice group 1 Slices 48 Dist. factor 0 % Position L0.9 A20.9 H8.2 9 Phase oversampling 0 % FoV read FoV phase 89.1 % Slice thickness 3.0 mm TR 3000 ms TE 1 12 ms TE 2 97 ms Averages 1 Concatenations 4 Filter Prescan Normalize, Elliptical filter Coil elements HE1-4 Contrast TD MTC Magn. preparation Flip angle Fat suppr. Fat sat. mode Water suppr. Restore magn. 0.0 ms 150 deg Strong Averaging mode Long term Reconstruction Magnitude Measurements 1 Multiple series Resolution Base resolution 256 Phase resolution 100 % Phase partial Fourier Trajectory Cartesian Interpolation PAT mode Matrix Coil Mode Auto (CP) Distortion Corr. Unfiltered images Prescan Normalize Normalize Raw filter Elliptical filter Mode Geometry Multi-slice mode Series Inplane Special sat. Set-n-Go Protocol Inline Composing System Body HE2 HE4 HE1 HE3 SP4 SP2 SP8 SP6 SP3 SP1 SP7 SP5 H 0 mm Positioning mode MSMA Save uncombined Coil Combine Mode Auto Coil Select REF S - C - T Sum of Squares Default Shim mode Adjust with body coil Confirm freq. adjustment Assume Silicone Ref. amplitude 1H 205.057 V Adjustment Tolerance Auto Adjust volume Position L0.9 A20.9 H8.2 9 214 mm 144 mm Physio 1st Signal/Mode Dark blood Resp. control Inline Subtract Std-Dev-Sag Std-Dev-Cor Std-Dev-Tra Std-Dev-Time MIP-Sag 11/+

MIP-Cor MIP-Tra MIP-Time Save original images Sequence Introduction Dimension 2D Compensate T2 decay Reduce Motion Sens. Contrasts 2 Bandwidth 163 Hz/Px Flow comp. No Allowed delay 30 s Echo spacing 12.1 ms Define Turbo factor Turbo factor 7 Echo trains per slice 33 RF pulse type Low SAR Gradient mode Normal 12/+

Table of contents \\USER INVESTIGATORS Ravi ADNI-Subject Localizer MPRAGE MPRAGE Repeat B1-calibration Head Turn Body Coil on. B1-calibration Body Turn Head Coil Array on. Axial PD-T2 TSE 13/-

2024 © technodocbox.com Privacy Policy | Terms of Service | Feedback