Difference between revisions of "Anatomy Pipeline"
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We collect a high resolution T1-weighted image on every subject, and use this image to define the coordinate space for all subsequent analyses. This section describes the processing steps for a subject's T1-weighted anatomy and should be performed before analyzing the rest of their MRI data. | We collect a high resolution T1-weighted image on every subject, and use this image to define the coordinate space for all subsequent analyses. This section describes the processing steps for a subject's T1-weighted anatomy and should be performed before analyzing the rest of their MRI data. | ||
=AC-PC Alignment= | =AC-PC Alignment= | ||
| − | Data can come off the scanner with arbitrary header information and the subject might not be properly position. So for each subject we start by defining a coordinate frame where 0,0,0 is at the anterior commissure, the anterior and posterior commissure are in the same X and Z planes, and the mid-line is centered in the image. Bob Dougherty wrote a nice tool to help with this. See [https://github.com/vistalab/vistasoft/blob/master/mrAnatomy/VolumeUtilities/mrAnatAverageAcpcNifti.m mrAnatAverageAcpcNifti] | + | Data can come off the scanner with arbitrary header information and the subject might not be properly position. So for each subject we start by defining a coordinate frame where 0,0,0 is at the anterior commissure, the anterior and posterior commissure are in the same X and Z planes, and the mid-line is centered in the image. Bob Dougherty wrote a nice tool to help with this. See [https://github.com/vistalab/vistasoft/blob/master/mrAnatomy/VolumeUtilities/mrAnatAverageAcpcNifti.m mrAnatAverageAcpcNifti]. The subject's T1-weighted image should be ac-pc aligned, resliced (preserving its resolution), and saved in the subject's anatomy directory. |
| + | |||
| + | <syntaxhighlight lang="python"> | ||
| + | test | ||
| + | </syntaxhighlight> | ||
Revision as of 19:48, 14 August 2015
We collect a high resolution T1-weighted image on every subject, and use this image to define the coordinate space for all subsequent analyses. This section describes the processing steps for a subject's T1-weighted anatomy and should be performed before analyzing the rest of their MRI data.
AC-PC Alignment
Data can come off the scanner with arbitrary header information and the subject might not be properly position. So for each subject we start by defining a coordinate frame where 0,0,0 is at the anterior commissure, the anterior and posterior commissure are in the same X and Z planes, and the mid-line is centered in the image. Bob Dougherty wrote a nice tool to help with this. See mrAnatAverageAcpcNifti. The subject's T1-weighted image should be ac-pc aligned, resliced (preserving its resolution), and saved in the subject's anatomy directory.
<syntaxhighlight lang="python"> test </syntaxhighlight>
