--ompl option in probtrackx2.

Peace,

Matt.

From: "Gopalakrishnan, Karthik" 
<gkart...@gatech.edu<mailto:gkart...@gatech.edu>>
Date: Friday, October 6, 2017 at 7:05 PM
To: Timothy Coalson <tsc...@mst.edu<mailto:tsc...@mst.edu>>
Cc: Matt Glasser <glass...@wustl.edu<mailto:glass...@wustl.edu>>, 
"hcp-users@humanconnectome.org<mailto:hcp-users@humanconnectome.org>" 
<hcp-users@humanconnectome.org<mailto:hcp-users@humanconnectome.org>>
Subject: Re: [HCP-Users] Distance between surface ROIs in MMP

This was useful and I shall make sure to go through the paper you referenced, 
Matt, thank you both Matt and Tim!

Tim, I notice you mention that tractography reports distances as well, which 
shouldn’t have the same bias as the reported number of streamlines/connection 
strength — I wasn’t really aware of this and I’ve only been working with 
connection strengths so far. My network inference procedure has just involved 
finding the right global threshold on the number of streamlines so far, so any 
actual distances available to me would be immensely useful w.r.t finding a 
better global threshold on the number of streamlines. Could you please share 
how I could obtain these distances? I suppose the files are already generated 
in my servers where I executed probtrackx, so could you maybe also share what 
the file names would look like?

Regards,
Karthik

On Oct 6, 2017, at 5:40 PM, Timothy Coalson 
<tsc...@mst.edu<mailto:tsc...@mst.edu>> wrote:

Right, I wasn't very precise in my wording.  I was thinking of the 
"tractography distance bias" as the amount of the bias that is above and beyond 
the real biological distance relationship.

Tim


On Fri, Oct 6, 2017 at 4:36 PM, Glasser, Matthew 
<glass...@wustl.edu<mailto:glass...@wustl.edu>> wrote:
It is worth noting that there IS a biological distance bias in connections that 
has been found with invasive tracers, though the mechanism by which this occurs 
in in tractography is different from the biological mechanism as Tim says.  
There’s more discussion of this in the paper I referenced.

Peace,

Matt.

From: Timothy Coalson <tsc...@mst.edu<mailto:tsc...@mst.edu>>
Date: Friday, October 6, 2017 at 5:30 PM
To: "Gopalakrishnan, Karthik" <gkart...@gatech.edu<mailto:gkart...@gatech.edu>>
Cc: Matt Glasser <glass...@wustl.edu<mailto:glass...@wustl.edu>>, 
"hcp-users@humanconnectome.org<mailto:hcp-users@humanconnectome.org>" 
<hcp-users@humanconnectome.org<mailto:hcp-users@humanconnectome.org>>

Subject: Re: [HCP-Users] Distance between surface ROIs in MMP

Tractography's distance bias is in its reported strengths.  The distances 
reported by tractography should not have a significant bias in the same way - 
while it takes longer paths less often, it doesn't often take paths that are 
even more windy and longer than the real path, and it generally can't take a 
shorter path, right?

Since these paths are through the white matter, and generally follow real fiber 
directions, they are more plausible than any other available method of 
computing connection distances between areas (3D distance is wrong because 
connections don't go through CSF, geodesic distance is wrong because 
long-distance connections aren't transmitted through gray matter the whole 
way).  Moreover, the tractography-reported distances should have a much better 
relationship to the tractography strength biases.

To put it another way, the distance bias of tractography is not a *biological* 
effect, it is an effect of the *method* of tractography.  In particular, the 
longer a probabilistic streamline gets, the wider the area that it could have 
hit gets, but much of this area gets intercepted by pieces of cortex before the 
streamline gets as long as it "should" be - therefore this spreading effect 
causes long streamlines to be rarer than they should be, by virtue of the 
streamline length itself (not as a function of the biological tract length).

Tim


On Fri, Oct 6, 2017 at 4:15 PM, Gopalakrishnan, Karthik 
<gkart...@gatech.edu<mailto:gkart...@gatech.edu>> wrote:
Hi Matt/Tim,

My goal is to improve network inference from tractography data by better 
accounting for the distance bias in tractography, so I want to use some proxy 
for actual connection distance between ROI pairs. Using tractography itself to 
account for its own bias against long-distance connections doesn’t make sense 
to me.

Do you have any suggestions on how I could best compute this proxy?

Regards,
Karthik

On Oct 5, 2017, at 8:50 AM, Glasser, Matthew 
<glass...@wustl.edu<mailto:glass...@wustl.edu>> wrote:

Indeed I think we would need to know what you needed the distance for to know 
how best to compute it.  For things like MR artifacts, a 3D distance might be 
most appropriate.  For something like smoothing, a geodesic distance would be 
appropriate.  For something neurobiological, the tractography distance might be 
most appropriate.

Peace,

Matt.

From: 
<hcp-users-boun...@humanconnectome.org<mailto:hcp-users-boun...@humanconnectome.org>>
 on behalf of Timothy Coalson <tsc...@mst.edu<mailto:tsc...@mst.edu>>
Date: Tuesday, October 3, 2017 at 6:30 PM
To: "Gopalakrishnan, Karthik" <gkart...@gatech.edu<mailto:gkart...@gatech.edu>>
Cc: "hcp-users@humanconnectome.org<mailto:hcp-users@humanconnectome.org>" 
<hcp-users@humanconnectome.org<mailto:hcp-users@humanconnectome.org>>
Subject: Re: [HCP-Users] Distance between surface ROIs in MMP

Since ROIs are not points, distance between them becomes a trickier question.  
Since areas are connected through white matter rather than gray matter, that 
also implies that the easy ways to calculate distance may not be all that 
biologically relevant.  This would point to using tractography to find 
distances.  So, I don't think there is an easy answer, sorry.

If you want to compute distance along the gray matter anyway, a possibility is 
to find the center of gravity of each ROI, translate them back to surface 
vertices (the centers will not actually be on the surface anymore, so you may 
want to double check them), and then find geodesic distances between those 
points (you can use -surface-geodesic-distance, running it once per area - you 
can then get the values from the other vertices near the centers to build the 
all-to-all matrix a row at a time).  Note, however, that this will not give you 
a distance to areas in the other hemisphere.

Tim


On Tue, Oct 3, 2017 at 5:06 PM, Gopalakrishnan, Karthik 
<gkart...@gatech.edu<mailto:gkart...@gatech.edu>> wrote:
Hi,

I’m working with the Glasser multi-modal parcellation and I’d like to know if 
there is some prevalent notion of distance between any two surface ROIs in the 
parcellation? If there is, could you please tell me how I could obtain it or 
point me to a source?

Thanks a lot!

Regards,
Karthik

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