Re: [caret-users] How to export the template image of Macaque in "hdr/img" form

Fri, 12 Dec 2008 07:35:56 -0800 

Sorry I didn't get to this yesterday; I was busy breaking a colleague's
computer.  As I explained off-list, there are several parcellation schemes
for the macaque, and it isn't obvious which is the best choice for you,
since we don't have a "AAL" scheme.  There is a Brodmann scheme with this
comment: "Brodmann (1905) cytoarchitectonic areas initially mapped onto
manually generated flat map by Van Essen & Maunsell (1980) then registered
to atlas map using surface-based registration constrained by sulcal/gyral
landmarks."  But other schemes, like LVE00, might better serve your
purpose.  I've attached an excerpt (label_columns.txt) from the F99
composite paint file that lists some candidates with their comments.

If you decide the LVE00 scheme works for you, then you're in luck, because
the September 2006 tutorial dataset includes a volume with that scheme
(see attached capture).  Browse the PDF file in the CARET_TUTORIAL_SEPT-06
directory (http://sumsdb.wustl.edu/sums/directory.do?id=6585200) to see
how to access it.

Otherwise, if you decide to stick with Brodmann, say, then here is how you
would project the surface paint parcellation to a volumetric ribbon:

1.  Launch caret5 and navigate to the downloaded and extracted
CARET_TUTORIAL_SEPT-06 directory, MACAQUE subdirectory.

2.  Open spec file Macaque.F99.BOTH-HEMS.STANDARD-SCENES.73730.spec; press
the Load Scenes button.

3.  Double-click the "Lobes + geo-blend on Flat (Macaque F99 BOTH)" scene
in the D/C menu (list of scenes).

4.  Select Paint Selection from the D/C Page Selection menu (top).

5.  Select the "Brodmann - Macaque.F99UA1.R" column.

6.  Select Attributes: Paint: Convert paint column to paint volume.

7.  Adjust the ribbon thicknesses, if desired; the default +/- 1.5mm works
well for humans, but is probably too thick for monkeys.  Someone who knows
the right thickness should chime in (e.g., DVE).

8.  The choice of target volume is worth considering, and it should match
the surface.  You probably don't have a preference now, but might in the
future.  For now, if you use
Macaque.F99UA1.RIGHT.FIDUCIAL.Std-MESH.73730.coord for your surface, then
choosing Macaque.F99UA1.LR.03-11+orig.BRIK as your volume (via Get
parameters using volume file) should work well.  Before clicking OK, make
sure the paint column is correct.

9.  Save the resulting Volume Paint file as AFNI or WUNIL ifh format.  I
think those are the only two formats that work for paint volumes.  Once
you write the volume, then you can open it in Caret as a Volume Anatomy or
Volume Functional, and then save it in another format like NIfTI or
Analyze, if desired.  But the label-number lookup won't be included.

Repeat this process for the left hemisphere, using
Macaque.F99UA1.LEFT.FIDUCIAL.Std-MESH.73730.coord (the same volume should
work for both).  Note that you'll have separate left and right volumes. 
You could combine them into a single volume, but there are no guarantees
that the label-number lookup will be the same across hemispheres.

The .ifh or .HEAD header of the resulting paint volume does contain the
lookup (LUT) information; I'm not certain that it matches the lookup near
the header of the surface paint file.

Donna
>
> How to export the template image (such as Brodamnn) of Macaque in
analyzed
> form (hdr/img) with the label of each ROI reserved?In another word, is
it
> possible to obtain a template image with every ROI labled for the
Macaque,
> which is similar to the AAL or Brodmann template images available from
MRICro for human?
> The version of caret is 5.5. Windows XP system. As a rookie, detail
steps
> of caret are highly appreciated.
>
>
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tag-column-name 2 Identified Sulci - Macaque.F99UA1.R
tag-column-comment 2 2 March 03 - junction of POS, LS revised   OCCIPITAL: 
calcarine (pink); lunate (brown);    parieto-occipital (violet); inferior 
occcipital (dark green);   occipito-temporal (brown-green)intraparietal (light 
green)      TEMPORAL: superor temporal (brown); Sylvian (dark blue);        
hippocampal (red)       PARIETAL: intraparietal (light green); central 
(yellow-green)   cingulate (light blue)  FRONTAL: arcuate (green); principal 
(blue-green)        Deformed with: 
Resampled_Macaque.F99UA1.R.REGISTER-with-73730-RESAMPLED-F99UA1.35946.spec.deform_map

tag-column-name 3 LVE00 (Lewis-VE) - Macaque.F99UA1.R
tag-column-comment 3 Architectonic areas from   Lewis, J.W. and Van Essen, D.C. 
(2000a)          Architectonic parcellation of parieto-occipital cortex and 
interconnected cortical regions in the Macaque monkey.       J. Comp. Neurol. 
428: 79-111   
http://www3.interscience.wiley.com/cgi-bin/fulltext/74500473/HTMLSTART  
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed&cmd=Retrieve&dopt=AbstractPlus&list_uids=11058226
       Area 8Am, 8As corrected 2 March 03      Deformed with: 
Resampled_Macaque.F99UA1.R.REGISTER-with-73730-RESAMPLED-F99UA1.35946.spec.deform_map

tag-column-name 5 PHT 00 (PaxinosEtAl) - Macaque.F99 RIGHT

tag-column-comment 5 Paxinos et al (2000) cortical areas, mapped from:  
Paxinos, G., Huang, X.-F. and Toga, A.W.,       The Rhesus Monkey Brain in 
Stereotaxic Coordinates, Academic Press, San Diego, 2000     
http://www.amazon.com/Rhesus-Monkey-Brain-Stereotaxic-Coordinates/dp/0123582555/ref=sid_dp_dp/102-9423502-4152142
       1 Sept 2006: Deformed with: 
Resampled_Macaque.PHT00.R.REGISTER-with-F99.41218.spec.deform_map

tag-column-name 6 Brodmann - Macaque.F99UA1.R
tag-column-comment 6 Brodmann (1905) cytoarchitectonic areas initially mapped 
onto      manually generated flat map by Van Essen & Maunsell (1980)      then 
registered to atlas map using surface-based registration   constrained by 
sulcal/gyral landmarks.  Deformed with: 
Resampled_Macaque.F99UA1.R.REGISTER-with-73730-RESAMPLED-F99UA1.35946.spec.deform_map

tag-column-name 7 Bonin-Bailey - Macaque.F99UA1.R
tag-column-comment 7 von Bonin G., & P. Bailey (1947).  The neocortex of macaca 
mulatta. Urbana, IL: Univ. of Illinois  Deformed with: 
Resampled_Macaque.F99UA1.R.REGISTER-with-73730-RESAMPLED-F99UA1.35946.spec.deform_map

tag-column-name 8 OrbitoFrontal - Macaque (FerryEtAl, 2000 om43)
tag-column-comment 8 Ferry AT, Ongur D, An X, Price JL. Prefrontal cortical 
projections to the striatum in macaque monkeys: evidence for an organization 
related to prefrontal networks.        J Comp Neurol. 2000 Sep 25;425(3):447-70 
       http://www3.interscience.wiley.com/cgi-bin/fulltext/73000262/HTMLSTART  
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed&cmd=Retrieve&dopt=AbstractPlus&list_uids=10972944
       Outdated orbitofrontal areas (suboptimally registered from om40 removed, 
leaving the better registration from om43.R


tag-column-name 13 Preuss & Goldman-Rakic 91 Fig 4
tag-column-comment 13 Preuss, T.M., and P.S. Goldman-Rakic (1991a) Myelo- and 
cytoarchitecture of the granular  frontal cortex and surrounding regions in the 
strepsirhine primate galago and the       anthropoid primate macaca. J. Comp 
Neurol. 310:429-474  
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed&cmd=Retrieve&dopt=AbstractPlus&list_uids=1939732
        Mapped from their Fig 4 to the atlas left hemisphere using slice-based  
registration (Caret Tutorial 10).       Deformed with: 
Resampled_Macaque.F99UA1.R.REGISTER-with-73730-RESAMPLED-F99UA1.35946.spec.deform_map
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