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Batch Programming of fMRI Data Analysis

Batch Programming of fMRI Data Analysis. Lars Kasper & Christoph Mathys. Overview. Introduction & Example Dataset General fMRI Data Analysis Workflow with SPM Quality Assessment of Raw Data Spatial Preprocessing Statistical Design: The General Linear Model

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Batch Programming of fMRI Data Analysis

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  1. Batch Programming of fMRI Data Analysis Lars Kasper & Christoph Mathys

  2. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Overview • Introduction & Example Dataset • General fMRI Data Analysis Workflow with SPM • Quality Assessment of Raw Data • Spatial Preprocessing • Statistical Design: The General Linear Model • Results: Analyzing Contrast & Reporting • Within-Subject Batching (Single Subject) • Subject-independent Analysis Steps • Subject-independent Data Flow (Dependencies) • Subject-related data • Between-Subject-Batching (Multiple Subject)

  3. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Overview • Introduction & Example Dataset • General fMRI Data Analysis Workflow with SPM • Quality Assessment of Raw Data • Spatial Preprocessing • Statistical Design: The General Linear Model • Results: Analyzing Contrast & Reporting • Within-Subject Batching (Single Subject) • Subject-independent Analysis Steps • Subject-independent Data Flow (Dependencies) • Subject-related data • Between-Subject-Batching (Multiple Subject)

  4. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Overview of SPM Statistical parametric map (SPM) Design matrix Image time-series Kernel Realignment Smoothing General linear model Gaussian field theory Statistical inference Normalisation p <0.05 Template Parameter estimates

  5. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ What is batch processing? • Repeats same dataanalysisformanysubjects (>=2) • Not proneto human errors, reproduciblewhat was done • e. g. jobsmat-files • Runs automatically, nosupervisionneeded • Researcher canconcentrate on assessingtheresults • CAVEAT: Temptingtoforgetabout all analysissteps in betweenwhichcouldleadtoerrors in yourconclusions • Therefore: Alwaysmakesure, thatmeaningfulresultswerecreatedateachstep • Using Display/CheckRegtoviewrawdata, preprocesseddata • Usingspm_printto save reportedsupplementarydataoutput • Ifanythingwentwrong, usedebugging

  6. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ 3 flavors of batching – Goals of this tutorial After finishing this session, you will be able to analyze fMRI datasets using • the Graphical User Interface (GUI) of SPM: • The Batch Editor of SPM • A template Matlab .m-script file to batch very flexibly 2 3 1

  7. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Introducing the Dataset • Rik Henson‘s famous vs non-famous faces dataset http://www.fil.ion.ucl.ac.uk/spm/data/face_rep/face_rep_SPM5.html • Includes a manual with step-by-step instruction for analysis (homework ;-)) • Download from SPM homepage (available for SPM5, but works fine with SPM8)

  8. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Introducing the Dataset • Factorial 2 x 2 design to investigate repetition suppression • Question: Influence of repeated stimulus presentation on brain activity (accomodation of response)? • Each stimulus (pictures of faces) presented twice during a session • Condition Rep, Level: 1 or 2 • lag between presentations randomized • 26 Famous and 26 non-famous faces to differentiate between familiarity (long-term memory) and repetition • Condition Fam, Level F(amous) and N(onfamous) • Task: Decision whether famous or nonfamous (button-press)

  9. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Introducing the Dataset: Published Results • Right Fusiform face area • Repetition suppression for familiar/famous faces • Left Occipital face area (posterior, occip. extrastriate) • Repetition suppression for familiar AND unfamiliar faces • Posterior cingulate and bilateral parietal cortex • Repetition enhancement

  10. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Overview • Introduction & Example Dataset • General fMRI Data Analysis Workflow with SPM • Quality Assessment of Raw Data • Spatial Preprocessing • Statistical Design: The General Linear Model • Results: Analyzing Contrast & Reporting • Within-Subject Batching (Single Subject) • Subject-independent Analysis Steps • Subject-independent Data Flow (Dependencies) • Subject-related data • Between-Subject-Batching (Multiple Subject)

  11. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Spatial Preprocessing – Realign • sd Batch Editor Batch File GUI FORMAT P = spm_realign (P,flags)

  12. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Spatial Preprocessing – Unwarp Batch Editor Batch File GUI uw_params= spm_uw_estimate (P,uw_est_flags); spm_uw_apply (uw_params,uw_write_flags);

  13. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Uh…this takes ages… • Now you can probably value the benefits of batch processing. If you are still keen on doing all that by hand (good exercise!), refer to the following • The SPM manual • Most current version in your spm8-folder, sub-folder man/manual.pdf • Rik Henson‘s famous vs non-famous faces dataset http://www.fil.ion.ucl.ac.uk/spm/data/face_rep/face_rep_SPM5.html • Included in SPM manual, chapter 29, with step-by-step instruction for analysis • Available for SPM5, but works fine with SPM8

  14. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Overview • Introduction & Example Dataset • General fMRI Data Analysis Workflow with SPM • Quality Assessment of Raw Data • Spatial Preprocessing • Statistical Design: The General Linear Model • Results: Analyzing Contrast & Reporting • Within-Subject Batching (Single Subject) • Subject-independent Analysis Steps • Subject-independent Data Flow (Dependencies) • Subject-related data • Between-Subject-Batching (Multiple Subject)

  15. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ General Workflow for the batch interface Top-down approach Specify subject-independent data/analysis steps Specify subject-independent file-dependencies (data flow) Specify subject-related data (e.g. event-timing) 3 1 1 2 2 3

  16. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ 1. The subject-independent analysis parts • Load all modules first (in right order!) • Then specify details (where Xs are found) which are subject independent • TR • Nslices • model factors • contrasts of interest

  17. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ 2. Data-flow specification (subject-independent dependencies) • Specify, which results of which steps are input to another step (DEP-sign) • e.g. smoothed images needed for model spec • Afterwards save this job as template .mat file

  18. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ 3. Add subject-dependent data/information • Essentially go to all X‘s and fill in appropriate values • e.g. the .mat-file of the conditions onsets/durations • Save this job as subject-batch file & Run

  19. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Overview • Introduction & Example Dataset • General fMRI Data Analysis Workflow with SPM • Quality Assessment of Raw Data • Spatial Preprocessing • Statistical Design: The General Linear Model • Results: Analyzing Contrast & Reporting • Within-Subject Batching (Single Subject) • Subject-independent Analysis Steps • Subject-independent Data Flow (Dependencies) • Subject-related data • Between-Subject-Batching (Multiple Subject)

  20. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Between-Subject-Batching (Multiple Subject) 1 Make sure, parameters to be adjusted have an X (clear value) for the single subject template Specify a meta-job with Run batch Create one run for every subject and add missing parameter values (in right order) 3 2 1 2 3

  21. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Resources and Useful Literature • All step-by-step instructions can be found in the SPM manual, chapter 40 • Also multiple-session and multiple subjects processing included • The SPM helpline/mailing list • E.g. bug precluding the batch-file selector form working was fixed here, but not in the updates yet https://www.jiscmail.ac.uk/cgi-bin/webadmin?A2=ind1001&L=SPM&P=R39357 • Batch templates are in your spm path: • Configured subject-independent analysis steps <spm8>/man/batch/face_single_subject_template_nodeps.m • With dependencies included <spm8>/man/batch/face_single_subject_template.m • With multiple subjects <spm8>/man/batch/face_multi_subject_template.m

  22. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Many, many thanks to • Klaas Enno Stephan • The SPM developers (FIL methods group)

  23. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Extending the batchfile with SPM GUI functions • Debugging • Generally a good idea to find out how things work in SPM • Crucial for batch-programming using a .m-file • Here: debug spm.m by setting a breakpoint • If called function found, use edit <functionname>.m to look at the %comments in the file

  24. Computational Neuroeconomics (Prof. Stephan, USZ) / MR-Technology (Prof. Prüssmann, IBT)‏ Tuning the engine – Matlab workspace variables • e.g. to manipulate SPM.mat or jobs by hand • also important during debugging, how variables are defined and changed

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