Abstract
Ascribing affective valence to stimuli or mental states is a fundamental property of human experiences. Recent neuroimaging meta-analyses favor the workspace hypothesis for the neural underpinning of valence, in which both positive and negative values are encoded by overlapping networks but are associated with different patterns of activity. In the present study, we further explored this framework using functional near-infrared spectroscopy (fNIRS) in conjunction with multivariate analyses. We monitored the fronto-temporal and occipital hemodynamic activity of 49 participants during the viewing of affective images (passive condition) and during the imagination of affectively loaded states (active condition). Multivariate decoding techniques were applied to determine whether affective valence is encoded in the cortical areas assessed. Prediction accuracies of 89.90 ± 13.84% and 85.41 ± 14.43% were observed for positive versus neutral comparisons, and of 91.53 ± 13.04% and 81.54 ± 16.05% for negative versus neutral comparisons (passive/active conditions, respectively). Our results are consistent with previous studies using other neuroimaging modalities that support the affective workspace hypothesis and the notion that valence is instantiated by the same network, regardless of whether the affective experience is passively or actively elicited.
Highlights
Emerging theoretical models in affective neuroscience have emphasized the role of distributed patterns of brain activation in instantiating affective experiences[1,2]
Considering the critical role of valence encoding in the current biological models of affects, Lindquist and colleagues[5] have proposed three main hypotheses as the theoretical background for their meta-analyses: (1) The bipolar hypothesis proposes that positive and negative valences represent opposite ends of a single dimension and are instantiated by the same set of brain regions, implying that activity within these regions is directly related to affective value[7]; (2) the bivalent hypothesis proposes that positive and negative valences represent two distinct dimensions and are evaluated by distinct brain regions[8,9]; and (3) the affective workspace hypothesis[1,10] proposes that activity patterns of the same core neural network implement both positive and negative valences, and that valences are determined by differences in the pattern of activation
Both meta-analyses performed by this group[4,5], which compared the results of functional magnetic resonance imaging and positron emission tomography (PET) studies regarding affective and discrete emotional experiences, provide evidence in support of the affective workspace hypothesis
Summary
Emerging theoretical models in affective neuroscience have emphasized the role of distributed patterns of brain activation in instantiating affective experiences[1,2]. Considering the critical role of valence encoding in the current biological models of affects, Lindquist and colleagues[5] have proposed three main hypotheses as the theoretical background for their meta-analyses: (1) The bipolar hypothesis proposes that positive and negative valences represent opposite ends of a single dimension and are instantiated by the same set of brain regions, implying that activity within these regions is directly related to affective value[7]; (2) the bivalent hypothesis proposes that positive and negative valences represent two distinct dimensions and are evaluated by distinct brain regions[8,9]; and (3) the affective workspace hypothesis[1,10] proposes that activity patterns of the same core neural network implement both positive and negative valences, and that valences are determined by differences in the pattern of activation Both meta-analyses performed by this group[4,5], which compared the results of functional magnetic resonance imaging (fMRI) and positron emission tomography (PET) studies regarding affective and discrete emotional experiences, provide evidence in support of the affective workspace hypothesis. This feature is desirable in light of recent findings suggesting that affective dimensions are instantiated by distributed patterns of brain activation[2,18,19]
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