Will Penny Wellcome Trust Centre for Neuroimaging,

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Presentation transcript:

To be Bayesian of Frequentist or Not: A Debate on Functional Imaging Analyses Will Penny Wellcome Trust Centre for Neuroimaging, University College London Friday 19th June, HBM 2009, San Francisco

I. Inferences about Parameters Model, Parameters, Data, For example, a GLM: Posterior Likelihood Prior Model Evidence Bayes rule: Efficient Computation using Approximate Inference methods (Bishop, 2007)

fMRI Analysis with Spatial Priors Posterior Mean ML estimate MRI Smoothed data Spatial Priors: Empirical Bayes: parameters of prior estimated from data 2. Spatial scale of effects can be automatically estimated 3. Can be different for eg. main effect versus interaction 4. Can be different in eg. visual cortex vs. amygdala Increase sensitivity

Posterior Probability Maps 2 4 6 8 Active > Rest Overlay of effect sizes at voxels where we are 99% sure that the effect size is greater than 2% of the global mean Effect size threshold Probability of getting an effect, given the data L M Harrison, et al. Neuroimage, 41(2):408-23, 2008

II. Inferences about Models In model-based fMRI (O’Doherty etc.) signals derived from a computational model for a specific cognitive process are correlated against fMRI data from subjects performing a relevant task to determine brain regions showing a response profile consistent with that model. For example, reinforcement learning models fitted to behavioural data producing subjective estimates of `value’, ‘prediction error’ … But which models are correct ?

II. Inferences about Models Bayes Rule (parameter level): Model evidence: Bayes Rule (model level):

Bayesian Model Selection Maps for Group Studies Compute evidence for each model/subject model 1 model K subject 1 subject N Evidence maps Activity best predicted by Ideal Observer model in 70% subjects in these regions Maria Joao Rosa et al, 2009: Poster 357, Sunday AM

Summary There are many sources of prior information (eg. spatial smoothness, biological priors on connectivity models) Bayesian inference is computationally efficient Empirical Bayes framework allows parameters of prior to be estimated (eg. spatial smoothness) Same algorithms used for eg. M/EEG source reconstruction Model-based fMRI enhanced by model inference

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