MRIs Surfaces Curves (MSC dataset)
The objective of this website is to provide researchers with a high
quality cross checked dataset of brain MRIs, surfaces and sulcal curves.
What is available?
We provide, for 12 subjects, T1 MRI brain scans (skull extracted), the
corresponding mid cortical surfaces, manually traced sulcal curves. All the data is cross checked by expert neuroanatomists.
Description
The structural scans of subjects were obtained as part of a functional
imaging study and comprised 12
subjects (6 males, 6 females) with mean age 26 years
and range 22 to 28 years. They were all right-handed (score of +70 or
more on the Edinburgh Handedness Inventory). The subjects were scanned at the Dornsife Cognitive Neuroscience
Imaging Center at the University of Southern California using a 3-T
Siemens MAGNETOM Trio scanner. High-resolution
T1-weighted anatomical volumes were acquired for each subject with an
MPRAGE scan using the following protocol: TR = 2350 ms,
TE = 4.13 ms, 192 slices, field of view = 256 mm, voxel size =
1.0×1.0×1.0
mm. Preprocessing included transforming mris the 12 subjects into the
Talairach coordinate system, as required by the BrainVoyager automatic
registration procedure for optimal results. This transformation, an
affine registration aligning the anterior and posterior commissures and
forcing each brain in the same bounding box, was performed in
BrainVoyager. Cortical surfaces were then extracted with the FreeSurfer
software using default parameters. The mid cortical surfaces were
computed by averaging inner and pial surfaces.
The sulcal curves were then traced using the brainsuite software. Our
protocol uses the 26 sulcal curves. The sulci are consistently seen
in normal brains and are distributed throughout the entire
cortical surface. A thorough description of the sulcal curves with
instructions on
how to trace them is available on our Web site: http://neuroimage.usc.edu/CurveProtocol.html.
Download
The data can be downloaded from:
http://sipi.usc.edu/~ajoshi/MSC/download.tar.gz
Reading the data
The surfaces and curves are availabe in dfs and dfc file formats
respectively. The MRI data is in ANALYZE format. All the data can be
visualized in Brainsuite software. The download above also includes code
(readdfc.m, readdfs.m) for reading the surfaces and curves in Matlab.
The MRI ANALYZE data can be read in MATLAB using NIFTI
Toolbox.
Please include the following acknowledgement and citations in your works:
Acknowledgement:
The authors would like to thank the Biomedical Imaging Research Lab (http://neuroimage.usc.edu/) and Brain and Creativity Institute (http://www.usc.edu/schools/college/bci/) for providing the MRIs Surfaces and Curves dataset. The data sets are available at http://sipi.usc.edu/~ajoshi/MSC. The BrainSuite software is
available at http://brainsuite.usc.edu/. This work was supported by grants from NIBIB (EB002010), NCRR (P41RR013642), and NIDCD (DC008583).
References
[1] Joshi AA, Pantazis D, Li Q, Damasio H, Shattuck DW, Toga AW, Leahy
RM, Sulcal set optimization for cortical surface registration,
Neuroimage. (2010); 50(3): 950-9.
[2] Pantazis D, Joshi AA, Jintao J, Shattuck DW, Bernstein LE, Damasio
H, and Leahy RM, Comparison of landmark-based and automatic methods for
cortical surface registration, NeuroImage (2009), Vol. 49(3): 2479-2493.
Please feel free to contact us with your questions:
Contact Information
Richard M Leahy
Professor
Signal and Image Processing Institute,
(Fellow, Brain and Creativity Institute)
University of Southern California
3740 McClintock Ave., Room 400
Los Angeles, CA 90089-2564.
email: leahy@sipi.usc.edu
213 740 4659(t) 213 740 4651(f)
http://neuroimage.usc.edu
Contributors
Dimitrios Pantazis, Anand A Joshi, Hanna Damasio, David Shattuck, Richard Leahy