Serena Tagliente scite author profile

Pareidolia refers to the perception of ambiguous sensory patterns as carrying a specific meaning. In its most common form, pareidolia involves human-like facial features, where random objects or patterns are illusionary recognized as faces. The current study investigated the neurophysiological correlates of face pareidolia via transcranial alternating current stimulation (tACS). tACS was delivered at gamma (40 Hz) frequency over critical nodes of the “face perception” network (i.e., right lateral occipito-temporal and left prefrontal cortex) of 75 healthy participants while completing four face perception tasks (‘Mooney test’ for faces, ‘Toast test’, ‘Noise pareidolia test’, ‘Pareidolia task’) and an object perception task (‘Mooney test’ for objects). In this single-blind, sham-controlled between-subjects study, participants received 35 min of either Sham, Online, (40Hz-tACS_ON), or Offline (40Hz-tACS_PRE) stimulation. Results showed that face pareidolia was causally enhanced by 40Hz-tACS_PRE in the Mooney test for faces in which, as compared to sham, participants more often misperceived scrambled stimuli as faces. In addition, as compared to sham, participants receiving 40Hz-tACS_PRE showed similar reaction times (RTs) when perceiving illusory faces and correctly recognizing noise stimuli in the Toast test, thus not exhibiting hesitancy in identifying faces where there were none. Also, 40Hz-tACS_ON induced slower rejections of face pareidolia responses in the Noise pareidolia test. The current study indicates that 40 Hz tACS can enhance pareidolic illusions in healthy individuals and, thus, that high frequency (i.e., gamma band) oscillations are critical in forming coherent and meaningful visual perception.

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Self-reported face recognition abilities moderately predict face-learning skills: Evidence from Italian samples

Tagliente

Passarelli

D’Elia

et al. 2023

Heliyon

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Non‐invasive neuromodulation can reduce aggressive behaviors in humans: A critical perspective

Volpe

Tagliente

Palmisano

et al. 2022

Journal of Forensic Sciences

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Containing aggressive behavior is an ongoing challenge in modern society. Aggressiveness is a multi‐level construct that can be driven by emotions (reactive aggression) or can be “cold‐blooded” and goal‐directed (proactive). Aggressive behavior could arise because of a misjudgment of others' intentions or can follow frontal brain lesions leading to a reduction of impulse control and emotion regulation. In the last few years, interventional and basic research studies adopting Non‐Invasive Brain Stimulation (NIBS) have significantly risen. Those techniques have been used both in healthy people, to better understand the role of certain brain regions in psychological processes, and in aggressive subjects to improve their symptoms. From an overview of the literature, focusing on the paper that uses transcranial direct current stimulation (tDCS) to reduce aggressiveness, it emerges that tDCS can (i) enhance facial emotion expression recognition, (ii) improve impulses control, and (iii) affect approach/withdrawal motivation. The current work shows the strengths and weaknesses of tDCS intervention on aggressive individuals, suggesting that this instrument could be adopted on violent people, and paves the way for intervention in some applied settings such as prison.

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Can you spot a face? Face pareidolia is enhanced by 40 Hz transcranial Alternating Current Stimulation (tACS) of the face perception network

Palmisano

Chiarantoni

Bossi

et al. 2022

Preprint

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Pareidolia refers to the perception of ambiguous sensory patterns as carrying a specific meaning. In its most common form, pareidolia involves human-like facial features, where random objects or patterns are illusionary recognized as faces. The current study investigated the neurophysiological correlates of face pareidolia via transcranial Alternating Current Stimulation (tACS). tACS was delivered at gamma (40 Hz) frequency over critical nodes of the “face perception” network (the right lateral occipito-temporal and left prefrontal cortex) of 75 healthy participants while completing four face perception tasks (‘Mooney test’ for faces, ‘Toast test’, ‘Noise pareidolia test’, ‘Pareidolia task’) and an object perception task (‘Mooney test’ for objects). In this single-blind, sham-controlled between-subjects study, participants received 35 minutes of either Sham, Online, (40Hz-tACS_ON), or Offline (40Hz-tACS_PRE) stimulation. Results showed that face pareidolia was causally enhanced by 40Hz-tACS_PRE in the Mooney test for faces where, as compared to sham, participants more often misperceived scrambled stimuli as faces. In addition, 40Hz-tACS_PRE also caused faster responses to pareidolic faces in the visual noise stimuli of the Toast test. Similarly, in the Noise pareidolia test, 40Hz-tACS_ON induced slower rejections of face pareidolia responses. The current study shows for the first time that gamma-band (40 Hz) activity over the face perception network represents an important physiological substrate of face pareidolia. This has important implications for theories of human face perception and sheds light on basic pathophysiological mechanisms of clinical conditions where visual illusions and hallucinations represent core features.

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Corrigendum to “Self-reported face recognition abilities moderately predict face-learning skills: Evidence from Italian samples” [Heliyon 9 (3) (March 2023) Article e14125]

Tagliente¹,

Passarelli²,

D'Elia³

et al. 2023

Heliyon

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