MRITool User`s Manual
Contents
1. suppl 2000 pp 87 102 A R FORMICONI E LOLI PICCOLOMINI G PARIGI F ZAMA G ZANGHIRATI Regularization methods in dynamic MRI 1999 submit ted E LOLI PICCOLOMINI F ZAMA G ZANGHIRATI A R FORMICONI S MARTINI MRITool a Matlab tool for functional Magnetic Resonance Imaging reconstruction Monografia n 2 MURST Project Numerical Analysis Methods and Mathematical Software Ferrara 2000 P C HANSEN Analysis of discrete ill posed problems by means of the L curve SIAM Rev 34 1992 pp 561 580 P MARCHAND Graphics and GUIs with Matlab Second edition CRC Press LLc Boca Raton 1999 D P O LEARY P C HANSEN The use of the L curve in the regular ization of discrete ill posed problems SIAM J Sci Comp 14 1993 pp 1487 1503 G WAHBA Spline models for observational data in CBMS NSF Regional Conference Series in Applied Mathematics SIAM 59 1990 Using Matlab Graphics version 5 The MathWorks Inc 19962. Load menu from the main menu bar e the Simulated data item loads data constituted of one reference set and one dynamic set each of 256 x 256 samples By considering only a reduced set of phase samples 32 phases from the dynamic set we simulate the undersampling process of the MRI system As an exception these data are contained in two ASCII files e the Real world data item loads four sequences of data Brain 1 Brain 2 Brain 3 Brain 4 They all are related to the same patient and each one has the following characteristics KeyHole 20 RFOV 70 Scan percentage 80 Scan matrix 128 Reconstruction matrix 256 Two reference sets of 128 x 70 samples section numbers 1 and 59 57 dynamic sets of 128 x 19 samples section numbers 2 58 UsING THE MRITOOL GRAPHICAL INTERFACE 11 Finally with the New data option Fig 4 3 it is possible to process other data sets As mentioned a preprocessing computation must be done in order to create appropriate MAT files necessary for the reconstruction with MRITool two of them are required i e the one for the initial baseline reference data set and the one for the dynamic sets the third file for the final active reference set can be omitted and in this case you will have not access to RIGR2 reconstruction methods The format for the contents of the three files is the following Insert new data filenames x Initial reference image filename MA T file Dynamic ima
3. MRITOOL USER S MANUAL CHAPTER 3 MRITool overview This toolbox provides some methods for the reconstruction of a sequence of fMRI images from the acquired data and some tools for the visualization of the reconstructed images Briefly the steps for the reconstruction of a MRI sequence of images are 1 choose a data set or retrieve the data saved from a previous session 2 choose the method for the images reconstruction 3 choose the sections to be visualized After the reconstruction you are allowed to choose in any order which and how many sections will be displayed and the 2D grid in which the images will appear Once all the images are displayed on the screen you are allowed to move or resize them You can perform a set of visualization operations on the figures all at once as described in section 4 5 Furthermore each image can also be independently elaborated When you want to leave the tool or to change the data you will have to 1 save the session with if you want to continue your job later 2 close the images on the screen 3 leave the tool With this version it is possible to reconstruct a a sequence of dynamic MRI images from available real data b a sequence of dynamic MRI images from your own data acquired in the frequency phase space and preprocessed to meet the required input format see the description in section 4 1 and the example file read_binary m in the mritool directory The method for the im
4. Matlab tree 4 GETTING HELP After these operations you have a new subdirectory called mritool that contains all the toolbox files By the same way if you want the demo data download the mritool_data zip file and repeat the uncompressing operation unsing this time as destination the subfolder files input of the existing mritool folder Start Matlab and add mritool to your Matlab path use the path browser or your startup m file if you want to add it permanently or use the command path from the command window if you want to add it only temporarily In the last case you can first move to the MRITool parent directory ad give the command gt gt path path fullfile pwd mritool or use the path command with the absolute mritool path from everywhere gt gt path path fullfile matlabpath toolbox mritool see the Matlab Reference manual or the on line help for a description of the fullfile command Remember that in this case you will have to repeat the procedure for any new Matlab session Now you are ready to use MRITool by giving the command gt gt mritool in the Matlab s command window This will open the graphical interface in a full screen style leaving the command window still opened in background so you will be able to perform further computation during your MRITool session All the MRITool functionalities are available from pup up menus and you do not need to type anything at the comman
5. de scribed in section 5 section 1 7 In this version of the tool three regularization methods are implemented each one having a set of rules for the choice of the optimal regularization parameter 1 TSVD Fig 4 4 starts the truncated singular values decomposition method for regularization The possible choices for the computation of the regu larization parameter are e GCV generalized cross validation method 9 This method is quite accurate but it needs long time for the execution e Customize you introduce a regularization parameter by typing a custom value The value must be an integer in the interval 1 Nm where N is the number of acquired phase samples for the dynamic sets The default value is Nm We plan to add the L curve criterion for this method in the next release Hedisplayimeges Sessions Sections lilobalchenges One Ref gt I UTE RIGA Two Refs gt Lavrentyev GCY CG type gt Custom Key Hole Figure 4 4 The TSVD menu from the menu bar 2 Lavrent yev Fig 4 5 starts the Lavrent yev regularization method The related regularization parameter can be computed by using one of the following approaches e L Curve it uses the L curve method 6 8 which is quite accurate but it needs long time for the execution e GCV it uses the generalized cross validation method e Customize you introduce a regularization parameter by typing a custom value The value must be a positive nu
6. the 1 5T wholebody Phillips system at the Careggi Hospital as well as on simulated data MRITool is freely available for non commercial use only from the URL http dm unife it mritool E LOLI PICCOLOMINI F ZAMA Dipartimento di Matematica Universita di Bologna P zza di Porta S Donato 5 40100 Bologna Italy E mail piccolom zama dm unibo it G ZANGHIRATI Dipartimento di Matematica Universita di Ferrara via Machiavelli 35 44100 Ferrara Italy E mail zng dns unife it A R FORMICONI S MARTINI Dipartimento di Fisiopatologia Clinica Universita di Firenze viale Morgagni 85 50134 Firenze Italy E mail arf s martini dfc unifi it MRITOOL USER S MANUAL Contents Contents i Introduction 1 Installation and getting started 3 2 1 eine help un a 2 wu eae ee REDD ERE Deere 4 MRITool overview 7 Using the MRITool graphical interface 9 21 Load Option 2 244428 6 nennen de beans 9 42 Method option 2 2 44 sisii ea Ra SERRE ES 11 4 3 Sessions option s sss sos a 24Gb e ee en 13 dA Sections OPON cocoa ake eee AA REE 14 4 5 Global changes option 2 44446444 00043 444 04 045 15 4 6 Redisplay images option o saa Ed ida 16 4 7 Close images option lt lt 4 au nn sadet k eS 17 WS Bat Option os a a AAA 17 4 9 A typical reconstruction session 2 2 22 17 Bibliography 23 MRITOOL USER S MANUAL CHAPTER 1 Introduction This software was developed during the work m
7. MRITool User s Manual Version 1 0 February 2000 E LOLI PICCOLOMINI F ZAMA Department of Mathematics University of Bologna Italy G ZANGHIRATI Department of Mathematics University of Ferrara Italy A R FORMICONI S MARTINI Department of Clinic Pathofisiology University of Florence Italy Supported by the 1998 2000 MURST Project Numerical Analysis Methods and Mathematical Software Abstract MRITool is a Matlab package for functional Magnetic Resonance Imaging fMRI reconstruction It implements different reconstruction methods and pro vides a quite flexible graphical interface The work was financed by the Italian MURST Project Numerical Analysis Methods and Mathematical Software 1998 2000 http www unife it AnNum97 The software developed by mathematicians in cooperation with other re serchers working at the Department of Nuclear Medicine of Careggi Hospital was firstly motivated by the fact that the reconstruction method available on the Phillips MRI system at the Hospital was not completely satisfactory In fact it is known in literature that this method the Keyhole method can produce artifacts in the reconstructed MRI images Our research started by investigat ing some alternative methods proposed in literature and the MRITool software is the mean to analyse with the medicians the results obtained With the tool box it is possible to test the methods on real data sets acquired for example by
8. ade for the Italian MURST project Numerical Analysis Methods and Mathematical Software 1998 2000 hitp www unife it AnNum97 One of the main results obtained with this work is that an interdisciplinary collaboration between medicians physicians engeneers and mathematicians has started on an interesting research topic The problem considered concerns functional Magnetic Resonance Imaging fMRI The work was mainly motivated by the fact that the reconstruction method available on the commercial systems is not completely satisfactory The aim of our work is to study alternative numerical methods for MR images reconstruction from the acquired data in the Fourier space 1 2 4 3 The final product of our work is a Matlab software package that provides a graphical interface some reconstruction methods alternative to the Keyhole and few instruments for the images visualization The package is available from the URL http dm unife it mritool The reconstructed images can then be used for an a posteriori analysis that can be executed with the existing instruments and software The toolbox is constituted of Matlab programs and functions We choose the Matlab environment for its easy use of numerical and graphical instruments and for its large diffusion In the last years some software packages have been pro duced to create virtual graphical environments for functional neuroimages such as Positron Emission Tomography PET or SPECT and
9. ages reconstruction can be chosen between the following e Reduced encoding Imaging by Generalized series Reconstruction with one reference image RIGR1 e Reduced encoding Imaging by Generalized series Reconstruction with two reference images RIGR2 8 MRITOOL OVERVIEW e Keyhole The methods RIGR1 and RIGR2 are combined with regularization meth ods for the solution of ill conditioned linear systems For each regularization method some choices for the automatic computation of the regularization pa rameter are proposed together with a custom setting Furthermore it is possible to show or hide the figure s toolbar by which you can access many other standard useful commands as saving or exporting the image on an external file printing zooming etc refere to the Matlab manual or to the on line help for more information MRITOOL USER S MANUAL CHAPTER 4 Using the MRITool graphical interface MRITool provides a graphical interface based on the powerful Matlab GUI sys tem 10 7 It consists of three main parts e a full screen frame that constitutes a workbanch for the visualization and elaboration of the reconstructed images e a main menu bar at the top of the screen which gives access to all the available functionalities of the tool as weel as to the help system e a set of five push buttons at the bottom of the screen to facilitate the use of the tool to beginners In fact The functions called by the five b
10. avail able figure s area In this case the appareance can be distorted but the zoom capabilities available from the figure s menubar are im proved 16 CLOSE IMAGES OPTION Images visualization grid Ed Drag the mouse on the grid beside then BE left click when done Rane Grid size 2 x 4 Cancel Figure 4 9 The mask appearing when choosing the Sections menu from the menu bar 6 RIGR2 images this submenu is available only for RIGR2 recontructions and allows you to choose from the following items e Show the difference images the images representing the changes from the baseline to the dynamic data are displayed e Show the completed images the dynamic images are displayed Each image can even be independently modified By clicking with the right mouse button while the pointer is on the single image the just described sub menu appears so that the corresponding actions can be now performed on the single image Fig 4 12 However some other items appear in this context menu e Dyn Sec shows the current image section number in the whole sequence e Image Size gives information about the displayed matrix e Section allows you to change the displayed section e History shows which reconstruction process was used for the current image 4 6 Redisplay images option This option acts by refreshing the graphical interface it firstly recall the MRI Tool background frame and then flush all the open figures
11. d line A brief description of all the commands is provided in the form of comments through the help system in the command window as described in the next section so you could also directly call the tool scripts and functions from the Matlab prompt However since in this first release we still make a rather wide use of global variables many functions need some variables and or arrays already defined in the Matlab global workspace and it can be difficult to use the functions independently from the prompt 2 1 Getting help MRITool help can be viewed from the graphical interface by clicking the Help button or by choosing the Help option from the main menu bar this will show you the main help window through the default hypertext browser of your system that you can use to read all the functions description If you have not a default browser configured on your system the standard Matlab help GUI will be opened From the Matlab command window you can get help for each function from the Matlab prompt For example if you want to get help for the keyhole function you just need to type gt gt help keyhole INSTALLATION AND GETTING STARTED 5 as usual in Matlab This version does not provide the same level of detail for all the scripts and functions so you could experience difficulties in some cases This will be fixed in a next release however all the reconstruction codes are based on the theory described in this work GETTING HI
12. e CG type option and the CG regularization method up to the Heuristic 1 criterion option as in Fig 4 6 4 when the reconstruction is completed select the sections to be displayed on the screen with the Sections menu using the two masks of figg 4 9 and 4 10 The selected sections are displayed with the default settings Fig 4 14 18 A TYPICAL RECONSTRUCTION SESSION Colormap Sort images Reset to default Visualization mode gt FiGRZineges gt Figure 4 11 A possible choice from the Global changes menu the available colormaps 5 you can now change some properties of all the figures with one of the Global changes menu options For example in Fig 4 15 the colormap is globally changed to hot Otherwise you can act on the single image by changing its size and or its properties with the figure s menubar or with the context menus obtained by clicking with the right mouse button while the pointer is on the image As an example in Fig 4 16 some characteristics of the section 32 was modified the figure s Menubar was added and a zoom was performed With the Export option from the figure s File menu you can save the image in one of the standard graphic formats provided by Matlab Moreover from the Matlab command window you can even perform any type of computation on the reconstructed images by accessing them in the images structure in the Matlab global workspace as described in the MRITool help However given th
13. e complexity of the tool code we discourage this practice and we strongly recommend that you make your computation on a copy of that structure 6 You can finally save the current status of your work session with the Save option of the Sessions menu 7 you can now close the figures with the Close menu or the corresponding push button without leaving the tool At this stage you can still make a copy of the images structure for your own computations 8 now you can try a different reconstruction method on the same data with the Method menu or push button or you can load a different data set with the Load menu or push button 9 When you have done you will exit MRITool with the Exit option UsING THE MRITOOL GRAPHICAL INTERFACE 19 5 33 Ox File Edit Tools Window Help bsusxar leen Dyn Sec 33 Image Size v Menubar Defaults on Initial Ref Colormap 2 10 History 11 20 Visualization 21 30 v 31 40 41 50 51 58 Figure 4 12 The context menu available for a single image the Menubar option is ON for that image 20 A TYPICAL RECONSTRUCTION SESSION Eimear Close Images Help Exit Image Menubar Colormap Sort images A Reset to default Descending section number Visualization mode Undo last sort AGRE images 2 Figure 4 13 A possible choice from the Global changes menu the ordering of the sections displayed on the screen with respect to their number oad Method Redisplay images Ses
14. ection is identified by the number of its position in the sequence With the OK button the visualization process starts it can take a little expecially if you have an high resolution screen and you select a large number of sections to display or if you are working on a remote system UsING THE MRITOOL GRAPHICAL INTERFACE 15 uno mat Nome fie Tipo file MAT files mat hs Annulla Figure 4 8 The window for loading a previously saved work session 4 5 Global changes option Through menu allows you to control the visualization properties of all the images on the screen Available submenus are 1 Image Menubar switch on off the figure s menubar 2 Colormap changes the colormap Fig 4 11 In this release only standard colormaps are available 3 Sort Images allows the sorting in ascending descending order with re spect to the section number together with a last operation undo Fig 4 13 4 Reset to default restore the default situation by redisplaying the images in their initial state Menubars and visualization mode are taken from the current setting 5 Visualization mode this property affects the images aspect with respect to axis scaling and figure size Available choices are e Maintain the aspect ratio the images are displayed by keeping the proprtion between horizontal and veritcal size as in the corresponding matrix e Fill all figure windows the images are displayed filling all the
15. fMRI V3 produced by the Liang s group and written in C language http mri beckman uiuc edu Lyngby a Matlab fMRI analysis toolbox http hendrix imm dtu dk software written at the Thor Center for Neuroinformatics of the Technical University of Denmark and the fMRI analysis package by Pawel Skudlarski http mri med yale edu from the Division of Imaging Sciences Diagnostic Radiologies of the Yale University However while the former does not provide a graphical inter face and it does not enable the use of different regularization methods the latters perform the analysis of reconstructed images without implementing methods for the images reconstruction The key is that PET and fMRI probes in vivo patterns of activity in the human brain Anything short of an interactive real time display will not fully be able to represent the richness of these spatio temporal phenomena Virtual envi ronments play a fundamental role in mediating the dialogue between medicians engineers and physicists 2 INTRODUCTION Further details and deeper treatement of the subject together with a larger bibliography can be found in 5 MRITOOL USER S MANUAL CHAPTER 2 Installation and getting started The only software resource necessary to use MRITool is the Matlab package ver sion 5 2 or higher At present MRITool has been tested on Unix systems Dec ALPHA based and SUN and on Windows platform WindowsNT Windows95 and Windows98 The so
16. ges filename MAT file Final reference image filename if exists MAT file Cancel Figure 4 3 The window appearing for the loading of new data Initial reference image this file must contain the baseline reference data set It must be stored in a matrix of size N x M where N is the number of frequency samples and M is the number of phase samples Dynamic images this file must contain the dynamic data acquired at time instants t to The data must be stored in a N x Nm x Q array where N is the number of frequency samples and Nm is the reduced number of phase samples acquiresd at each time instant tj j 1 Q Final reference image this file if present must contain the active reference data set It must be stored in a matrix of size N x M where N is the number of frequency samples and M is the number of phase samples 4 2 Method option With the Method menu you can choose a reconstruction method for the se quence of fMRI images The available choices are the following 1 Keyhole loads the Keyhole method 5 section 1 4 2 RIGR One Ref loads the Reduced encoding Imaging by Generalized series Reconstruction method with one reference image 5 section 1 5 12 METHOD OPTION 3 RIGR Two Refs loads the RIGR method with two reference images 5 section 1 6 Both the RIGR1 and the RIGR2 methods require a regularization method for the solution of the hermitian and positive semidefinite linear systems as
17. is item you can save your work during a MRITool session and reload it when necessary When at least one work session is saved as a MAT file you can load or delete the related file The available submenu are Fig 4 7 1 Save it allows to save in a MAT file the main MRITool variables arrays and structures from the Matlab workspace in order to restart later from the same situation A mask appears where you can type the filename 14 GLOBAL CHANGES OPTION Method Redisplayimeges Sessions Sections Elobalchenges loselm RIGR One Ref RIGA Two Ref CG type Figure 4 6 The conjugate gradient type menu from the menu bar 2 Load it loads in the Matlab workspace a previously saved work session The current Matlab workspace is substituted by the loaded workspace and the saved state is completely retrieved Fig 4 8 3 Delete it allows the deletion of a previously saved file Sections Globalch Figure 4 7 The Sessions menu from the menu bar 4 4 Sections option From this menu item a mask appears as in Fig 4 9 containing a 2D grid that shows you how many images can be represented on the screen and how they can be positioned The number of images that can be displayed depends on the screen resolution as well as on the image size You can select with the mouse how many images you want to view then a new mask appears Fig 4 10 where you can choose by clicking with the mouse which sections you want to be displayed each s
18. mber the default is 0 1 3 CG type starts one of the four implemented conjugate gradient type reg ularization methods described in 5 section 1 7 Fig 4 6 UsING THE MRITOOL GRAPHICAL INTERFACE 13 SE Hedisplay images Sessions Sections alobal changes RIGR One Ref gt RIGA Two Refs gt Lavrentyey gt Figure 4 5 The Lavrent yev menu from the menu bar CG is the standard conjugate gradient method applied to the linear system MR is the minimum residual method applied to the linear system CGNE is the conjugate gradient method applied to the standard normal equations CGME is the minimum residual method applied to the normal equa tions of the second kind For each of the CG type methods four rules for the computation of the regularization parameter are available stopping rules in this case e Heuristic 1 is a criterion proposed by Hanke based on the behaviour of the Ritz polynomials one of the rules R1 R2 R3 R4 in 5 section 1 71 Heuristic 2 heuristic criterion based on the residuals behaviour rule R5 in 5 section 1 7 Heuristic 3 heuristic criterion based on the residuals behaviour rule R6 in 5 section 1 7 Customize you introduce a regularization parameter by typing a custom value The value must be a positive number in the interval 1 Nm where Nm is the number of phase samples acquired for the dynamic images The default value is 5 4 3 Sessions option With th
19. on foreground USING THE MRITOOL GRAPHICAL INTERFACE 17 Fre Ms se Moss Moss Moss Mosz7 Check the boxes to select which i images you want visualized in the grid meen mesi Mein mea Blsiz Ie 3 72 Bis Else 516 E Sy E sie M s 20 F 5 21 522 mea IV Se la 3 25 la 57251 IV 3 me _ Grid size 2x5 F s293 M s 30 F s31 M 5 32 F S 534 35 Selected sections 10 out of 10 Ess Elsa E 6 38 119 39 5 5 5 42 Remaining 0 FT 5 44 MT 5 45 546 5 5 48 S 49 E s5 E 52 M 6 53 SE 5 55 118166 FT s5 M 5 56 M Ref Cancel Clear OK Figure 4 10 The grid for the choice of the sections 4 7 Close images option It closes the displayed images but does not leave the tool You can still access the reconstructed images by choosing the Sections menu to redisplay them 4 8 Exit option Exit from MRITool The Matlab workspace is cleared from the tool variables arrays and structures but any other entity is left in place so you will not miss your own variables and computation results apart from unfortunate name matching 4 9 A typical reconstruction session We test on the Brain 1 sequence the RIGR2 method associated with the CG regularization method stopped with Heuristic 1 criterion see 5 section 1 7 The reconstruction session can proceed as follows 1 load the Brain 1 data set with the Load button or menu as in Fig 4 2 2 choose the RIGR Two Refs reconstruction method from the Method menu 3 go through th
20. sions Sections Global changes Closelmages Help Exit Figure 4 14 The selected sections are displayed with the default settings UsING THE MRITOOL GRAPHICAL INTERFACE 21 MRITool Method Redisplay images Sessions Sections REI Image Menubar 2 SM Ciona Sort images H D Beset to default Copper Visualization mode gt Gray RIGRZimages Hsv Jet Figure 4 15 The colormap has been changed to hot ic Edit Tools Window Help S2HS k AAs P E22 Export Salvain lt miitool ex Tipo file Enhanced metatiles emf Tear Figure 4 16 Section 32 with some characteristics modified 22 A TYPICAL RECONSTRUCTION SESSION MRITOOL USER S MANUAL Bibliography 1 A R FORMICONI A PASSERI S MARTINI A PUPI E LOLI PICCOLO 10 MINI F ZAMA G ZANGHIRATI Regularization methods for the quantifi cation of regional cerebral blood flow with MRI Eur J Nucl Med 25 1998 p 1154 A R FORMICONI A PASSERI S MARTINI A PuPI E LOLI PIC COLOMINI F ZAMA G ZANGHIRATI Regularization methods in dynamic MRI reconstruction Eur Radiology 1 suppl 1999 pp s121 s122 A R FORMICONI E LOLI PICCOLOMINI S MARTINI F ZAMA G ZANGHIRATI Numerical methods and software for functional magnetic resonance images reconstruction in Proceedings of the Conference Analisi Numerica Metodi e Software Matematico Jenuary 19 21 2000 Ferrara Italy Ann Univ Ferrara XLVI
21. urce files are the same for all the platforms compressed in different forms for the different systems while the data files for demos are different because they are stored in binary format Matlab files with extension mat The software is available at the URL http dm unife it mritool The installation procedure is the following Unix systems Move to your favourite directory or to the Matlab s toolbox directory download the source tar file mritool_src tar gz and give the following commands at the line prompt gunzip mritool_src tar gz tar xvf mritool_src tar These will expand the MRITool directory tree as a child called mritool of the current directory If you want the demo data from the same directory download also the data file mritool_data tar gz and repeat on this file the previous commands gunzip mritool_data tar gz tar xvf mritool_data tar These commands will add the MAT files in the files input subdirectory of the mritool tree Note that if you have gtar GNU tar installed you can replace the two commands gunzip and tar xvf with the gtar xvzf command Now you can remove the tar files from your directory If you are per forming a multiuser installation remember to adjust the permissions of the directory tree Windows systems Download the compressed source file mritool_src zip and uncompress it with WinZip or another suitable program using as destination your favorite folder or the toolbox folder of your
22. uttons are essentially the same as those called by the menu items but the push buttons use a more friendly approach through successive GUI windows each having its own help button to briefly explain some details of the related reconstruction step Some examples of the graphical interface during a work session is given in figures 4 1 4 14 and 4 15 It can be noticed that buttons and menus are automatically enabled disabled depending on the current state of your work In the following subsections we ll give an overview of the main features avail able through the main menu items 4 1 Load option The Load menu loads a data set to be processed There are some demo data sets already available from the MRITool web site as MAT files for different platforms but the user can process its own data once they are provided as MAT files in the correct format This is obtained by using a suitable function that reads the raw data acquired by the MRI device and then converts them in a 3D array we give below a brief description of this preprocess and we refer the reader to the self explaining function read binary m for a more detailed description The available demo data are of two types Fig 4 2 and they are both ac quired from a 1 5T wholebody MR Phillips system 10 LOAD OPTION MRITool Bee Load Method Redsplayimages Sessions Sections Globalchanges Dioselmages Help Exit Figure 4 1 The basic MRITool graphical interface Figure 4 2 The
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