Re: [HCP-Users] where are the head shape file for MEG

[Elizabeth Anne Bock, Ms]

Thanks, Jan-Mathijs.
It isn't so much that we need the location of the fiducials, but more that we 
need to be able to do the co-registration.  Since we do not have the headshape 
file, I was under the impression that we could use the fiducials provided and 
the transformations to get the fiducial points onto the MRI.  Mostly because we 
would like to offer Brainstorm users an analysis pipeline and therefore we 
require the users to confirm accurate co-registration.  If I would like to 
compute my own source models and I cannot use the fiducials and the 
transformations, maybe you can suggest how I can do the co-registration on the 
raw data.
Thanks,
Beth


------------------------------------------------------------------------------------------

Elizabeth Bock / MEG System Engineer

McConnell Brain Imaging Centre / Montreal Neurological Institute

McGill University / 3801 University St. / Montreal, QC H3A 2B4


MEG Lab: 514.398.6056

Mobile: 514.718.6342

________________________________
From: jan-mathijs schoffelen [jm.schoffe...@gmail.com]
Sent: Friday, June 19, 2015 1:44 PM
To: Elizabeth Anne Bock, Ms
Cc: Georgios Michalareas; Denis-Alexander Engemann; Jair Montoya; 
hcp-users@humanconnectome.org; Alexandre Gramfort; Francois Tadel
Subject: Re: [HCP-Users] where are the head shape file for MEG

Hi Beth,

Allow me to chime in here: I would discourage you to rely on the fiducial and 
landmark locations as provided. These I have clicked in the 1mm anaromical 
images at their rough locations, so they are not very accurate (and I use them 
for an initial coregistration). Even if you had the 1 mm image available, they 
are pretty useless. (by the way, the vox2vox transform can be obtained by an 
appropriate combination of the vox2bti and vox07mm2bti, I would guess that  
vox2vox07mm = vox07mm2bti\vox2bti in MATLAB terminology, or equivalently 
bti2vox07mm*vox2bti)
It sounds between the lines that Brainstorm needs the location of the 
fiducials? If their exact location on the X/Y/Z-axes is not too crucial I would 
do an inverse warp (with the bti2vox07mm transformation matrix of a few ‘well 
chosen’ points on the X and Y-axes (e.g. (60,0,0), (0,-60,0) and (0,60,0) for 
the NAS,RPA and LPA, respectively).

Best,
Jan-Mathijs


On Jun 19, 2015, at 7:01 PM, Elizabeth Anne Bock, Ms 
<elizabeth.b...@mcgill.ca<mailto:elizabeth.b...@mcgill.ca>> wrote:

Hi Georgios,
I am trying to work with the transformations provided in the anatomy directory, 
as you mentioned, below.  I understand the the fiducials are in 'vox' space, 
and I assume they are in the 1mm vox space.  The anatomy file provided, however 
is in 0.7mm vox space.  How do I get the fiducials in the 0.7mm vox space since 
I do not see a vox2vox transform?

Thanks,
Beth

------------------------------------------------------------------------------------------
Elizabeth Bock / MEG System Engineer
McConnell Brain Imaging Centre / Montreal Neurological Institute
McGill University / 3801 University St. / Montreal, QC H3A 2B4

MEG Lab: 514.398.6056
Mobile: 514.718.6342
________________________________
From: Georgios Michalareas 
[giorgos.michalar...@esi-frankfurt.de<mailto:giorgos.michalar...@esi-frankfurt.de>]
Sent: Friday, May 15, 2015 10:47 AM
To: Elizabeth Anne Bock, Ms; Denis-Alexander Engemann
Cc: hcp-users@humanconnectome.org<mailto:hcp-users@humanconnectome.org>; Jair 
Montoya; Alexandre Gramfort; Francois Tadel
Subject: Re: [HCP-Users] where are the head shape file for MEG

I am not sure I fully understood what you would like to do in MNE and 
Brainstorm bur maybe the following are of help :

In the anatomy directory there is an ascii file

 177746_MEG_anatomy_transform.txt

containing the structure variable "transform",  which contains a big list of 
transformation matrices contained in fields:


               vox2bti: [4x4 double]
               bti2vox: [4x4 double]
               vox2spm: [4x4 double]
               spm2vox: [4x4 double]
               spm2bti: [4x4 double]
               bti2spm: [4x4 double]




The 2D and 3D source models I mentioned in my earlier email (see below) are 
defined on the HEAD coordinate system (nasion, left and right peri-auricular 
points (NAS, LPA and RPA, respectively)).
This means you dont need to apply any transform on them in order to perform 
source analysis wth the  MEG data.
Now if you want to transform the source models to MNI ( anterior / posterior 
commissural line) space you can apply to the source model positions the
"bti2spm" transformation matrix.


If you want to use the fiducial and landmark locations you can use the files 
from the anatomy directory

177746_MEG_anatomy_fiducials.txt (NAS, LPA and RPA,)
177746_MEG_anatomy_landmarks.txt (AC, PC)

The positions of the fiducials there are defined on a voxel space which you do 
not hae accesss to. (An MR with full facial features).
So to use them you need to first apply to their voxel coordinates the "vox2bti" 
for HEAD space or "vox2spm" for MNI space.

I hope this helps
Best
Giorgos









On 15/05/2015 15:54, Elizabeth Anne Bock, Ms wrote:
We would like to use the HCP data in brainstorm.  Ideally we would like to use 
the head-shape file and/or coil coordinates to generate a transform - but I 
understand the restrictions.  What you suggest could be a viable solution - 
having the transforms and coreg would be very helpful.
Beth

------------------------------------------------------------------------------------------
Elizabeth Bock / MEG System Engineer
McConnell Brain Imaging Centre / Montreal Neurological Institute
McGill University / 3801 University St. / Montreal, QC H3A 2B4

MEG Lab: 514.398.6056
Mobile: 514.718.6342
________________________________
From: Denis-Alexander Engemann 
[denis.engem...@gmail.com<mailto:denis.engem...@gmail.com>]
Sent: Friday, May 15, 2015 9:44 AM
To: Georgios Michalareas
Cc: Elizabeth Anne Bock, Ms; 
hcp-users@humanconnectome.org<mailto:hcp-users@humanconnectome.org>; Jair 
Montoya; Alexandre Gramfort
Subject: Re: [HCP-Users] where are the head shape file for MEG


I was wondering wheather the transforms would be suitable for mapping the 
freesurfer surface coordinates to the helmet space.
If this step would work, the transforms and the coreg would be usable with 
other software such as for example the MNE suite.
We could then write a routine that skips the regular conversion of BTI files 
and adds identity matrices instead to the related transform fields that usually 
map from BTI to Neuromag space. The transforms provided could then be used to 
map the sensors to the source models created in MNE.


Any hint wold be appreciated.

Best,
Denis



2015-05-15 15:35 GMT+02:00 Georgios 
Michalareas<giorgos.michalar...@esi-frankfurt.de<mailto:giorgos.michalar...@esi-frankfurt.de>>:
Dear Beth,

the head shape files are not provided with the data.
The reason for this is that headshape digitization includes points around the 
nose, the eyes, the forehead and the entire head. This means that this 
information could lead to identification of a subjects identity.
This is also the reason why the structural MR images provided by the MR 
modality have also such external features stripped off the data in order to 
avoid a possible subject identification.
Following this constraint, in the MEG team we provide both surface(2D) and 
volumetric(3D) source models so that the community can perform source 
localization on them.
You can find them in the anatomy directory of the released data.
The surface source model is called
177746_MEG_anatomy_sourcemodel_2d.mat

while there are  3 volumetric models with different voxel sizes (4,6,8 mm)
177746_MEG_anatomy_sourcemodel_3d4mm.mat
177746_MEG_anatomy_sourcemodel_3d6mm.mat
177746_MEG_anatomy_sourcemodel_3d8mm.mat

I hope this helps.
Let me know for anything else.
Giorgos




On 15/05/2015 15:18, Elizabeth Anne Bock, Ms wrote:
I just downloaded the MEG data from the 500 Subjects + MEG2 Data Release.  I 
see from the documentation that the MEG data should include a head shape file.  
This is not present in my downloaded set.  Where can I get these?
Thanks,
Beth
------------------------------------------------------------------------------------------
Elizabeth Bock / MEG System Engineer
McConnell Brain Imaging Centre / Montreal Neurological Institute
McGill University / 3801 University St. / Montreal, QC H3A 2B4

MEG Lab: 514.398.6056
Mobile: 514.718.6342
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