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fMRI in NAMIC

fMRI in NAMIC. Facilitator: Polina Golland Presenters: Jim Fallon and Andy Saykin. fMRI and NAMIC. NAMIC Core 1 projects focus on structure Anatomical DTI Many of us are interested in fMRI Core 1: analysis Core 3: tool for study of the disease Potential for new collaborations.

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fMRI in NAMIC

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  1. fMRI in NAMIC Facilitator: Polina Golland Presenters: Jim Fallon and Andy Saykin

  2. fMRI and NAMIC • NAMIC Core 1 projects focus on structure • Anatomical • DTI • Many of us are interested in fMRI • Core 1: analysis • Core 3: tool for study of the disease • Potential for new collaborations

  3. fMRI Status Update • Basic analysis functions in ITK (GE/Kitware) • User Interface in Slicer (BWH) • Advanced detection/analysis • MIT/BWH – anatomically guided fMRI detection • UC Irvine – localization of activation peaks • Other Core 1 groups • Integrated visualization of anatomy & function

  4. Our goals • Not to replicate existing analysis tools • To identify problems that are • important to Core 3 • interesting to Core 1 • Use NAMIC to create new collaborations

  5. Our findings • Some of the “problems” have already been “solved” • Many items on the “wish list” are in reach • Especially with help of Core 2 • There are some really hard and interesting problems

  6. Anatomically guided fMRI detection Wanmei Ou, MIT No Smoothing Gaussian MRF With anatomy

  7. Quality control for fMRI • Spatiotemporal browser designed for quality control during preprocessing of single subject time series data or contrasts • Easy loading of raw scan formats • Easy navigation through time & space • Quantify signal to noise • Identify temporal spikes  optional smoothing • Identify spatial distortion • B0 field map and phantom  optional adjustment • Also feature to identify outliers in group data • Tom Nichols at U. Michigan has something like this tool in Matlab. Core 2?

  8. Managing fMRI findings • fMRI activation cluster utility • Need to create functional ROI (fROI) label maps for use in subsequent analyses • Assuming user has created a thresholded activation map • Ability to choose activation clusters to include in the label map • User should be able to choose label values and provide a name in a text field for each cluster • Extract data from these clusters • Individual time series or for group data • Core 2?

  9. Outline of this discussion • Presentations (15-20min) • Jim Fallon • Andy Saykin • Questions (15-20min) • Ask the speakers more detailed questions • Discussion/brainstorming on how we might solve these problems

  10. Major Themes • Integration with anatomical and DTI: • Anatomically accurate and precise integration of all modalities, including fMRI, DTI, into a single analysis framework • Characterizing fMRI activation areas: • Invent new ways to describe active areas and how they change from an experiment to an experiment. This ties into population analysis of activation.

  11. Jim Fallon

  12. Critical samples in BOLD DMPFC 7 Frontal pole Heschl’s DLPFC Occip STG IFG LOF ITG VMPFC CB Fallon

  13. Variability in population Anterior-Inferior View Anterior View

  14. BA 7 DLPFC BA 46 SLF-2

  15. McCarthy, 2004

  16. Thresholded voxels (p<0.05) Activation patterns mixture model (Kim, et al, 2005) beta map fBIRN phantom sensorimotor task Add 20% “gutter region” around each strictly defined area (e.g., DLPFC) to capture “rogue” functional activations in different subject and patient populations…”DLPC PLUS”

  17. Andy Saykin

  18. fMRI Specific Applications • Tool for assessment of test-retest reproducibility of fMRI experiments • Simple approach would be calculating intraclass correlation coefficients for voxels and ROIs • Useful but limited value because of fluctuations in exact peak and distribution of activation foci • A more sophisticated approach would include identification and extraction of key spatiotemporal features • Prior knowledge could be used to inform regarding importance • Reproducible features could be quantified • A related tool would provide an analysis of longitudinal stability and change • Consider reliable change index approach applied to activation maps

  19. Multimodality Integration • Registration of fMRI, DTI and anatomic MR • individual and group data • Easy mapping between atlas space and native scan space • Permit warping from native space to atlas space or vice versa • Automated parcellation of cortical surface and subcortical gray matter structures • Generate label maps • Extract quantitative data from labeled ROIs or fROIs • e.g. examine atrophy within functionally derived ROI

  20. Multimodality Integration - II • Integrate measures of connectivity • Voxel by voxel and labeled ROI measures of connectivity within single subject time series • Resting & Task-induced connectivity • Changes in strength of connectivity over time • important for learning and habituation experiments • Relation to existing work • PLS, SEM, DCM, POI, other? • Visualization tool to display strength of connectivity including functional and neuroanatomic (tractography)

  21. Questions and Discussion

  22. Major Themes • Integration with anatomical and DTI: • Anatomically accurate and precise integration of all modalities, including fMRI, DTI, into a single analysis framework • Characterizing fMRI activation areas: • Invent new ways to describe active areas and how they change from an experiment to an experiment. This ties into population analysis of activation.

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