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Robotically-induced auditory-verbal hallucinations: combining self-monitoring and strong perceptual priors.

Pavo Orepic, Fosco Bernasconi, Melissa Faggella, Nathan Faivre, Olaf Blanke

Psychological medicine February 1, 2024 Peer reviewed DOI: 10.1017/s0033291723002222 via PubMed

Summary

A robotic procedure was developed to induce auditory-verbal hallucinations (AVH) in healthy individuals, demonstrating that self-monitoring deficits and strong perceptual priors may contribute to these experiences. In two studies, participants exhibited increased false alarm rates in a voice detection task when exposed to sensorimotor conflicts or other-voice stimuli. Specifically, stronger sensorimotor conflicts led to more AVH-like sensations, while detecting other voices resulted in heightened AVH-like experiences compared to self-voice detection.

Study at a glance

Population healthy individuals
Key finding The robotic procedure induced AVH-like phenomena in healthy individuals, with increased false alarm rates in a voice detection task linked to self-monitoring deficits and strong perceptual priors.

Abstract

Inducing hallucinations under controlled experimental conditions in non-hallucinating individuals represents a novel research avenue oriented toward understanding complex hallucinatory phenomena, avoiding confounds observed in patients. Auditory-verbal hallucinations (AVH) are one of the most common and distressing psychotic symptoms, whose etiology remains largely unknown. Two prominent accounts portray AVH either as a deficit in auditory-verbal self-monitoring, or as a result of overly strong perceptual priors. In order to test both theoretical models and evaluate their potential integration, we developed a robotic procedure able to induce self-monitoring perturbations (consisting of sensorimotor conflicts between poking movements and corresponding tactile feedback) and a perceptual prior associated with otherness sensations (i.e. feeling the presence of a non-existing another person). Here, in two independent studies, we show that this robotic procedure led to AVH-like phenomena in healthy individuals, quantified as an increase in false alarm rate in a voice detection task. Robotically-induced AVH-like sensations were further associated with delusional ideation and to both AVH accounts. Specifically, a condition with stronger sensorimotor conflicts induced more AVH-like sensations (self-monitoring), while, in the otherness-related experimental condition, there were more AVH-like sensations when participants were detecting other-voice stimuli, compared to detecting self-voice stimuli (strong-priors). By demonstrating an experimental procedure able to induce AVH-like sensations in non-hallucinating individuals, we shed new light on AVH phenomenology, thereby integrating self-monitoring and strong-priors accounts.

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