Archived FMRI pipeline: Difference between revisions

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====[[Meeting 1: Summary and slides]]====
====[[Meeting 1: Summary and slides]]====
====[[Meeting 2: Summary and slides]]====


====[[Useful Code]]====
====[[Useful Code]]====

Revision as of 22:34, 2 May 2012

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About fMRI data and file types

Raw fMRI data is saved in .dcm (dicom) files. Typically these .dcm files correspond to individual slices, and the resulting 3D image (or a time-series of 3D images) is saved in a .nii (nifti) file. Raw dicom files can be transformed into nifti format using SPM (a MATLAB software package implementing Statistical Parametric Mapping for neuroimaging data) or other software such as MRIcro.

Note that, when handling neuroimaging data, you need to take special care that the orientation of the images is correct.

Standard Preprocessing Steps & The Pipeline

In what follows, we describe the broad stages of fMRI preprocessing. Note that the pipeline saves the data after each intermediate step in newly created files with relevant prefixes. (SECTION TO BE FILLED IN!)

Parcellation

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Wavelet Decomposition

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A very basic tutorial on wavelets can be found here: [[1]]

For details on the wavelet toolbox in MATLAB, read: [[2]]

The Motion Problem

In short, the 'motion problem' refers to the recent (2012) discovery that even tiny head-motion can lead to severe artifacts in connectvitiy analyses of resting state fMRI data. The issue is clearly described and illustrated in the following papers:

Power JD, others and Petersen [[3]] Spurious but systematic correlations in functional connectivity MRI networks arise from subject motion. NeuroImage 2012.

Satterthwaite, others and Gur [[4]] Impact of in-scanner head motion on multiple measures of functional connectivity: Relevance for studies of neurodevelopment in youth. NeuroImage 2012.

Van Dijk, others and Buckner [[5]] The influence of head motion on intrinsic functional connectivity MRI. NeuroImage 2012.

Motion Task-Froce

The aim of this group is twofold:

1) We aim to produce a simple diagnostic kit that can be run on pre-existing resting state fMRI data to assess the magnitude of the problem (ie. quantify the amount of motion as well as the confounding effects it may have).

2) We also aim to settle on a single dataset and a set of analyses that will allow the comparison of various denoising methods designed to tackle the problem.

3) Having settled on the optimal method, we aim to implement it in a user-friendly way.

This page of the wiki will serve as a repository for useful code and data generated along the way. The task-force will also hold regular meetings to keep efforts integrated, the key ideasemerging from these meetings will be logged below.

Meeting 1: Summary and slides

Meeting 2: Summary and slides

Useful Code

Back To Main Page

Main Page