Date post: | 15-Jan-2016 |
Category: |
Documents |
Upload: | erick-baker |
View: | 218 times |
Download: | 0 times |
ACRIN-6684ACRIN-6684 - - MRS data acquisition and Raw
Data Handling Instructions –
For GE Data
In vivoIn vivo MR Spectroscopy MR Spectroscopy
Representative MRS of a normal human brain @3T
NAA
Glu/Gln
Cho Cr
MI
Lipids, macromolecules
Proton MRS is able to detect the following metabolites:
N-Acetyl Aspartate (NAA) at 2 ppm: Marker of neuronal density and viability
Creatine (Cr) at 3 ppm: Energy metabolism, generation of ATP
Choline (Cho) at 3.2 ppm: Pathological alterations in membrane turnover, increased in tumors
Lipids (Lip) between 0.8 – 1.5 ppm: Breakdown of tissue, elevated in brain tumors - lipids indicate necrosis
Lactate (Lac) at 1.3 ppm, inverted at 144ms: produced by an anaerobic metabolism, found in tumor containing zones of necrosis
1000 950 900 850 800
-1.00E+008
0.00E+000
1.00E+008
2.00E+008
3.00E+008
Y A
xis
Title
X Axis Title
fft(real)
/ ppm
1000 950 900 850 800
-1.00E+008
0.00E+000
1.00E+008
2.00E+008
3.00E+008
Y A
xis
Title
X Axis Title
fft(real)
/ ppm
Lac
NAA
Cr
Cho
The Sequence The Sequence
3D Volumetric Spectroscopy preferred 2D CSI Spectroscopy is acceptable
Optimal Voxel PlacementOptimal Voxel Placement The ROI will be placed at the center
of the enhancing tumor covering the lesion and the normal brain as much as possible but excluding the subcutaneous fat and sinuses.
Suboptimal Voxel Suboptimal Voxel PlacementPlacement
Proximity to sinuses can result in signal broadening and susceptibility artifacts
Proximity to scull can result in contaminating lipid signal
ParametersParametersTR ~1100 ms and TE 144 ms, Phase encoding arrays 12 x 12 x 8:
For GE scanners: Freq = 12, Phase = 12 and Locs per Slab = 8
FOV > 160 mm2 Click Graphic Rx and select Spacing: 10 Voxel Thickness: e.g. 60.0
Make smaller than the width of the 8 slabs
Saturation BandsSaturation Bands
Click SAT and place up to 6 SAT bands to eliminate signal from subcutaneous fat
Thickness of SAT bands 4 – 5 cm
ParametersParametersTo accomplish partial or elliptical k-space
sampling reduce NEX below 1 (there will be a drop down menu) which will reduce the acquisition time.
Prescan is recommended before the acquisition to check for full width at half maximum (FWHM)
ShimmingShimming “Shimming” = adjusting the magnetic field to make it
more homogeneous 1.5T: Signal line width or full width at half maximum
(FWHM): <15 Hz for 3D MRSI 3 T: FWHM < 25 Hz for 3D MRSI
Cho&Cr NAA
Better signal separation, thus better quantification of metabolites
Better water suppression
Suboptimal shimming
Saving the dicom dataSaving the dicom data
In Browser, select spectroscopy exam Click on Functool
In Browser, highlight the image series used for localizing spectroscopy
Click OK
Select Protocol - 2D Brain
Make screen saves from image and spectroscopy voxels
• To do that: right click on the image • A scroll down window will appear• Select save screen shot
Repeat for every slice
How to save raw data (p How to save raw data (p files)files)
The GE spectroscopy data is saved as so-called p file on the scanner in a directory /usr/g/mrraw
How to make sure that p-files will not be overwritten. On the MRI console, go to the Browser Right mouse-click on the background A scroll down window appears, select Service tools and
Command Window
In the terminal window that pops up type: cd /usr/g/mrraw (this is the directory in which all p-files are temporarily stored)
Type: ls –ltr (this command lists all p-files including time stamps in chronological
order)
Command Tool
How to save raw data (p How to save raw data (p files)files)
Type: mkdir backup (this generates a backup folder in which p-files can be stored, this only needs to be done once)
Type: cp Pxxxxx.7 backup (this command copies the p-file in your backup directory. The x’s represent the 5 digit code for the p file you are interested in.)
Type: cd backup Type: mv Pxxxxx.7 PatientID.date.Pxxxxx.7 (this command
renames your p file, this way you make sure that the file will not be overwritten during later experiments.)
How to transfer the P-How to transfer the P-FilesFiles
FIRST: Once isolated, the P-Files will need to be sent from your scanner to a PC
You can use any PC with a network connection to transfer the p-files.
An ftp client is required. The easiest way to transfer the files is by using a program called WinSCP which can be downloaded free at http://winscp.net/eng/index.php
CONFIGURATION:
Open the program and setup: Host name: IP address of your MRI scanner Login and password will be likely sdc and
adw2.0 Login: sdc Password: adw2.0 Protocol: SFTP (allow SCP fallback)
On the right side you see your scanner’s directory and on your left side your own computer’s directory (see below)
Change the directory on the right site to /usr/g/mrraw/backup
Transfer the p-files from that directory to your computer by clicking on the file, then drag it to a designated data storage folder on your computer (to the left). A window will pop up, select the option to copy.
Done!
How to transfer the P-How to transfer the P-FilesFiles
TIPS: Once you have setup that connection you can save the
session and you do not need to remember the IP address, login and password anymore.
Go to session, save session and type in scanner name. Next time you want to transfer files you can you load the
session.
How to transfer the P-How to transfer the P-FilesFiles
1. Rename P file to “ACRINCase#, TimepointXweeks” For example: case15_baseline OR case09_16weeks Again, this MUST be the ACRIN CASE NUMBER assigned at registration.
2. Login to ACRIN via ftp:
On your web browser, go to ftp://xray.acrin.org User Name: (CONTACT ACRIN FOR USERNAME) Password: (CONTACT ACRIN FOR PASSWORD)
(If not prompted, click file, “Login As…”)
3. Find your folder: It will be identified by your ACRIN Insitution Name Contact Kesha Smith at ACRIN at [email protected] for assistance
4. Store your file in the folder:(BE SURE YOU HAVE NAMED IT as Case#,Timepoint)
Sending P-Files to ACRINSending P-Files to ACRIN