Human medial temporal lobe neurons respond preferentially to personally relevant images

Viskontas, Indre V.; Quiroga, Rodrigo Quian; Fried, Itzhak

doi:10.1073/pnas.0902319106

Cited by 100 publications

(124 citation statements)

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“…While complementary functions such as novelty/familiarity detection, arousal processing and memory should not be discounted, this study suggests that specific amygdala neurons may scan the environment for relevance amongst novel stimuli (Pedreira et al, 2010). While contemporary neuroscience literature supports amygdala relevance processing (Pessoa & Adolphs, 2010;Sander et al, 2003), intracranial data evidence a direct relation between amygdala neuronal activity and relevance processing, both implicitly (Br azdil et al, 2002;Viskontas, Quiroga, & Fried, 2009) and explicitly (Jenison, Rangel, Oya, Kawasaki, & Howard, 2011). Concretely, these iEEG data have delineated two broad types of amygdala relevance processing: (i) behavioral and (ii) motivational.…”

Section: Relevancementioning

confidence: 67%

“…Interestingly, family and self were statistically equal to faces of celebrities and strangers. Authors concluded that the amygdala may be involved in processes related to salience/novelty and emotional significance (Viskontas et al, 2009). Together, these single-neuron studies implicate amygdala neurons in relevance processing in both valuation of preferred objects and in viewing faces of potentially self-relevant others (cf.…”

Section: Motivational Relevancementioning

confidence: 97%

“…Unlike behavioral relevance, this may relate to stimuli/events affecting selfpromoting pursuits like goal-acquisition, self-affirmation, basic needs satisfaction, and overall survival. Two singleneuron studies have demonstrated amygdala involvement in processing motivational relevance (Jenison et al, 2011;Viskontas et al, 2009). Using a judgment preference task, Jenison et al (2011) illustrated the amygdala to be involved in either encoding or computing of the value of the respective stimulus during the time of choice (Jenison et al, 2011).…”

Section: Motivational Relevancementioning

confidence: 99%

“…Motivational relevance processing was equally implied when identifying the faces of proxy caregivers. In a singleneuron study, patients identified individual faces differing in levels of familiarity and relevance (Viskontas et al, 2009). Stimuli included faces of self, family members, the experimenters, famous politicians and celebrities, and complete strangers as well as non-face control images such as landmarks.…”

Section: Motivational Relevancementioning

confidence: 99%

“…More research replicating and elaborating upon the present study would be warranted in order to develop reliable conclusions on the amygdala's direct involvement in valuing of external stimuli. Next, Viskontas et al (2009) illustrated differential amygdala FR to faces of people differing in degrees of personal relevance. In their single-neuron study, the authors demonstrated that images of experimenters elicited greater amygdala FR than family and self.…”

Section: Affective Processingmentioning

confidence: 99%

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The functional profile of the human amygdala in affective processing: Insights from intracranial recordings

Murray

Brosch

Sander

2014

Cortex

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t r a c tThe amygdala is suggested to serve as a key structure in the emotional brain, implicated in diverse affective processes. Still, the bulk of existing neuroscientific investigations of the amygdala relies on conventional neuroimaging techniques such as fMRI, which are very useful but subject to limitations. These limitations are particular to their temporal resolution, but also to their spatial precision at a very fine-grained level. Here, we review studies investigating the functional profile of the human amygdala using intracranial electroencephalography (iEEG), an invasive technique with high temporal and spatial precision. We conducted a systematic literature review of 47 iEEG studies investigating the human amygdala, and we focus on two content-related domains and one process-related domain: (1) memory formation and retrieval; (2) affective processing; and (3) latency components. This review reveals the human amygdala to engage in invariant semantic encoding and recognition of specific objects and individuals, independent of context or visuospatial attributes, and to discriminate between familiar and novel stimuli. The review highlights the amygdala's role in emotion processing witnessed in differential treatment of social-affective facial cues, differential neuronal firing to relevant novel stimuli, and habituation to familiar affective stimuli. Overall, the review suggests the amygdala plays a key role in the processing of affective relevance. Finally, this review delineates effects on amygdala neuronal activity into three time latency windows (post-stimulus onset). The early window (~50e290 msec) subsumes effects respective to exogenous stimulus-driven affective processing of faces and emotion. The intermediate window (~270e470 msec) comprises effects related to explicit attention to novel task-relevant stimuli, irrespective of sensory modality. The late window (~600e1400 msec) subsumes effects from tasks soliciting semantic associations and working memory during affective processing. We juxtapose these iEEG data with current clinical topics relevant to amygdala activation and propose avenues for future investigation of the amygdala using iEEG methods.© 2014 Elsevier Ltd. All rights reserved.* Corresponding author. Campus Biotech, CISA e University of Geneva, Case Postale 60, CH e 1211 Gen eve 20, Switzerland. E-mail address: ryan.murray@unige.ch (R.J. Murray).Available online at www.sciencedirect.com ScienceDirectJournal homepage: www.elsevier.com/locate/cortex c o r t e x 6 0 ( 2 0 1 4 ) 1 0 e3 3 http://dx

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Section: Relevancementioning

confidence: 67%

Section: Motivational Relevancementioning

confidence: 97%

Section: Motivational Relevancementioning

confidence: 99%

Section: Motivational Relevancementioning

confidence: 99%

Section: Affective Processingmentioning

confidence: 99%

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The functional profile of the human amygdala in affective processing: Insights from intracranial recordings

Murray

Brosch

Sander

2014

Cortex

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Ensembles of human MTL neurons “jump back in time” in response to a repeated stimulus

et al. 2012

Self Cite

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Episodic memory, which depends critically on the integrity of the medial temporal lobe (MTL), has been described as “mental time travel” in which the rememberer “jumps back in time.” The neural mechanism underlying this ability remains elusive. Mathematical and computational models of performance in episodic memory tasks provide a specific hypothesis regarding the computation that supports such a jump back in time. The models suggest that a representation of temporal context, a representation that changes gradually over macroscopic periods of time, is the cue for episodic recall. According to these models, a jump back in time corresponds to a stimulus recovering a prior state of temporal context. In vivo single-neuron recordings were taken from the human MTL while epilepsy patients distinguished novel from repeated images in a continuous recognition memory task. The firing pattern of the ensemble of MTL neurons showed robust temporal autocorrelation over macroscopic periods of time during performance of the memory task. The gradually-changing part of the ensemble state was causally affected by the visual stimulus being presented. Critically, repetition of a stimulus caused the ensemble to elicit a pattern of activity that resembled the pattern of activity present before the initial presentation of the stimulus. These findings confirm a direct prediction of this class of temporal context models and may be a signature of the mechanism that underlies the experience of episodic memory as mental time travel.

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The social hippocampus

2017

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The concept of cognitive map has been proposed as a way to organize our experiences and guide behavior across all domains of cognition. The hippocampus has been identified as the neural substrate supporting cognitive maps for navigating physical space. Recent evidence is broadening the role of the hippocampus into mapping other manner of spaces. Here we focus on the case of social space as a candidate for hippocampal representation because it combines multiple continuous dimensions and requires dynamic navigation through social contexts. We present evidence for the role of the hippocampus in (1) supporting social memory, (2) representing different dimensions of social space, (3) tracking dynamic social behavior, (4) maintaining a flexible map allowing adaptation to new social contexts, and (5) maladaptive social behavior across psychiatric disorders. To do so, we explore evidence across species including birds, rodents, nonhuman primates and humans, indicating hippocampal involvement in a range of social processes. Review of previous findings in a manner predicted by the cognitive map supports the existence of systematic mapping of social space by the hippocampus. Evidence for hippocampal social maps complements findings from other abstract domains, such as auditory, temporal and conceptual, allowing successful navigation through many domains of everyday life.

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Human medial temporal lobe neurons respond preferentially to personally relevant images

Cited by 100 publications

References 48 publications

The functional profile of the human amygdala in affective processing: Insights from intracranial recordings

The functional profile of the human amygdala in affective processing: Insights from intracranial recordings

Ensembles of human MTL neurons “jump back in time” in response to a repeated stimulus

The social hippocampus

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