Group-regularized individual prediction: theory and application to pain

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• 作者：Martin A. Lindquist^a ; Anjali Krishnan^b ; ^f ; Marina Ló ; pez-Solà ; ^b ; Marieke Jepma^b ; Choong-Wan Woo^b ; Leonie Koban^b ; Mathieu Roy^c ; Lauren Y. Atlas^d ; Liane Schmidt^g ; ^h ; Luke J. Chang^b ; Elizabeth A. Reynolds Losin^b ; ^e ; Hedwig Eisenbarth^b ; Yoni K. Ashar^b ; Elizabeth Delk^b ; Tor D. Wager^b ; ^{tor.wager@colorado.edu}
• 关键词：Machine learning ; Statistical learning ; Pain ; MVPA ; Empirical Bayes ; Prediction ; fMRI ; Mega-analysis ; Meta-analysis ; Shrinkage
• 刊名：NeuroImage
• 出版年：2017
• 出版时间：15 January 2017
• 年：2017
• 卷：145
• 期：part_PB
• 页码：274-287
• 全文大小：1883 K
• 卷排序：145

文摘

Multivariate pattern analysis (MVPA) has become an important tool for identifying brain representations of psychological processes and clinical outcomes using fMRI and related methods. Such methods can be used to predict or ‘decode’ psychological states in individual subjects. Single-subject MVPA approaches, however, are limited by the amount and quality of individual-subject data. In spite of higher spatial resolution, predictive accuracy from single-subject data often does not exceed what can be accomplished using coarser, group-level maps, because single-subject patterns are trained on limited amounts of often-noisy data. Here, we present a method that combines population-level priors, in the form of biomarker patterns developed on prior samples, with single-subject MVPA maps to improve single-subject prediction. Theoretical results and simulations motivate a weighting based on the relative variances of biomarker-based prediction—based on population-level predictive maps from prior groups—and individual-subject, cross-validated prediction. Empirical results predicting pain using brain activity on a trial-by-trial basis (single-trial prediction) across 6 studies (N = 180 participants) confirm the theoretical predictions. Regularization based on a population-level biomarker—in this case, the Neurologic Pain Signature (NPS)—improved single-subject prediction accuracy compared with idiographic maps based on the individuals' data alone. The regularization scheme that we propose, which we term group-regularized individual prediction (GRIP), can be applied broadly to within-person MVPA-based prediction. We also show how GRIP can be used to evaluate data quality and provide benchmarks for the appropriateness of population-level maps like the NPS for a given individual or study.