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Jordan Hamm (BA, BSc) University of Georgia, Athens, Georgia
Alexandra Reichenbach (MSc, Dipl-Ing)Max Planck Institute for Biological Cybernetics, Tuebingen, Germany
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Technical considerations Mean ADC values, FA, and tract volume as
measurements
Application Rationale of the project Approaches
▪ Automatized / manual▪ Tract / ROI based
Results Conclusions
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What is b-value?-higher b-values may probe different diffusion -more sensitive to differences in restricted
(Assaf, 2004)
Do more angles provide any benefit beyond more SNR?-i.e. are more gradient directions just redundant?-6 dir(8 times) or 50 directions (1 time)?
Is motion correction effective?- Leemans vector table rotation
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What effect does b-value, angular resolution, and motion correction have on common diffusion metrics?
- Scanned 2 subjects- Compared parameters in
-tract reconstructions-5x5mm ROIs
for maximum sensitivity
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6 dir, b1200 50 dir, b1200 50 dir, b2400
Raw
MotionCorrected
Qualitative analyses
-Tracts produced with FACT algorithm (BF approach) using tensors in 6 direction data and using non-negativity constrained spherical de-convolution in 50 direction data.
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First compared average FA of a tract to
overall tract volume
As volume of a tract increases, overall average FA of that tract decreases
- so tract integrity is not necessarily revealed in a tract based analysis.
Instead, tract volume and/or number of “tracts” are best used for tract based analyses
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Initially, b-value didn’t appear to affect tractability…. But….
Assessed number of voxels involved in each reconstructed tract from each scan.
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Motion correction (12 parameter) with vector table rotationreveals benefit of higher b-values (Leemans and Jones, 2009)
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Motion correction appears to improve tracking, but differentially for different b-values.Why?
- longer scans more movement?
- b2400 scan 10% longer (2 min) -higher b-values are more
sensitive-scan artifacts
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Manual selection of 3x3 voxel ROICompared between b-values, ang. res., and raw/motion corrected data
-Mean diffusivity (verified with known values) -FA estimate
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Mean diffusivity variable between b=1200 and b=2400 before motion correction
-Overall variance of ADC values reduced after motion correction-also closer to prescribed 7.0 X 10^-4 (Johansen-Berg and Behrmans, 2009)
-B=2400 with motion correction is best-ROI close to CSF, to which lower b-values are more sensitive.
-Again, differential effects of motion correction seen
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-Higher b-values yield more consistent measure of fractional anisotropy across subjects-Some anisotropy captured by low b-values could be non-axonal which does not contribute to long range tractography
-lower b-values have more “hindered” and less “restricted”
Why does FA in a voxel cluster decrease with more resolution, but tract volume increase?
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Learning aims
Learn different DTI analysis software and their strengths & weaknesses
Explore a real scientific question with different DTI approaches Get to know pitfalls and possible difficulties on real data
Haxby et al. (2000)
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Avidan & Behrmann (2009)
Familiar vs. unknown faces elicit specificBOLD activation in healthy controls but notin CP patients in left precuneus/posterior cingulate cortex anterior paracingulate cortex
Outside the ‘core system’ for face processing
HypothesisStructural changes in white matter tractsbetween these regions might underlie thefunctional differences
Target tract: Cingulum
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Measurements (for ROIs or tracts) Fractional anisotrophy (FA) Radial diffusivity (RD) Transverse diffusitivity (TD) Number of detected fibers (# fibers) Number of voxels within detected tract (# voxels)
Approaches Automatic fiber seeding based on fMRI group coordinates Extraction of cingulum fibers based on anatomy (manual seeding) ROI analysis of sup. cingulum with automatic seeding based on standard space
coordinates (probabilistic tracking from fMRI group coordinates, FSL)
Data: previously acquired from 17 controls & 6 patients TR/TE = 4900/82ms; 6 directions; b = 850 s/mm2; 1.6*1.6*3mm voxel size Is this angular resolution sufficient for these regions (fiber crossing!)?
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Transformation of fMRI MNI coordinates in native space (FSL FLIRT) Construction of spheric ROIs around these coordinates (MATLAB) Extraction of tracts traversing both ROIs (ExploreDTI)
Only about 1/3 of the subjects had tractable fibers Increasing the radius of the ROI did not solve the problem
background: FA values
precuneus / posterior cingulate cortex
anterior paracingulate cortex
ROIs: 18mm diameter
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Analysis with DTI Studio, manual seeding by 2 independent investigators
Comparison of left & right cingulum in healthy controls and DTI patients
Results (whole tracts as ROI) Inter-rater reliability: > .8 No group differences in corpus callosum (CC)
▪ control tract FA & TD larger in left than in right cingulum
▪ consistent with literature Significant differences in # fibers total
in line with fMRI data: no activation of left precuneus/ PCC in patients
(*)*
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Analysis with Explore DTI, MNI coord of ROI transformed in native space
Results (only ROI voxels included) Larger FA value left than right in controls can be
explained by a smaller RD fibers more directed TD left in CP patients smaller than in controls
fibers more directed in controls
in line with fMRI data: activation of left precuneus/PCC in controls but not in patients
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Automatic seeding based on fMRI data fails Possibly due to large inter-individual differences – BUT no individual fMRI available Possibly due to insufficient tractability with 6 direction data – higher angular
resolution data is acquired at the moment ExploreDTI can model multiple fibers in a voxel (CSD)
Analysis data-driven, no operator bias
Manual cingulum tracking High inter-rater reliability due to ‘standardized’ method of ROI definition
DTI Studio: easy-to-use & user-friendly GUI, ideal for exploration and manual interventionBUT supports only tensor model
Results in controls are consistent with literature
Automatic seeded ROI analysis No manual intervention, no operator bias
Besides ILF and IFOF the left cingulum is another tract involved in face processing that seems to be compromised in CP patients
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Seong-Gi Kim & Bill EddyKwan-Jin JungMarlene Behrmann John MigliozziTomika CohenRebecca ClarkNIH