Sarah Zapetis scite author profile

Personal space has been defined as “the area individuals maintain around themselves into which others cannot intrude without arousing discomfort”. However, the precise relationship between discomfort (or arousal) responses as a function of distance from an observer remains incompletely understood. Also the mechanisms involved in recognizing conspecifics and distinguishing them from other objects within personal space have not been identified. Accordingly, here we measured personal space preferences in response to real humans and human-like avatars (in virtual reality), using well-validated “stop distance” procedures. Based on threshold measurements of personal space, we examined within-subject variations in discomfort-related responses across multiple distances (spanning inside and outside each individual’s personal space boundary), as reflected by psychological (ratings) and physiological (skin conductance) responses to both humans and avatars. We found that the discomfort-by-distance functions for both humans and avatars were closely fit by a power law. These results suggest that the brain computation of visually-defined personal space begins with a ‘rough sketch’ stage, which generates responses to a broad range of human-like stimuli, in addition to humans. Analogous processing mechanisms may underlie other brain functions which respond similarly to both real and simulated human body parts.

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Development of a transdiagnostic, resilience-focused intervention for at-risk adolescents

Clauss

Bhiku

Burke

et al. 2022

Journal of Mental Health

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Neural Correlates of Variation in Personal Space and Social Functioning in Schizophrenia and Healthy Individuals

Zapetis

Nasiriavanaki

Luther

et al. 2022

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Background Changes in the regulation of interpersonal distance, or “personal space” (PS), have been repeatedly observed in schizophrenia and, in some studies, linked to negative symptoms. However, the neurobiological basis of these impairments is poorly understood. Methods Personal space measurements, functional connectivity of a brain network sensitive to intrusions into PS, and symptoms of social withdrawal and anhedonia were assessed, and associations among these outcomes measured, in 33 individuals with a psychotic disorder (primarily schizophrenia [SCZ]) and 36 control subjects (CON). Results Personal space size was significantly higher (P = .002) and PS permeability (reflecting the capacity to tolerate intrusions into PS) was significantly lower (P = .021) in the SCZ relative to the CON group, and both measures were significantly correlated with social anhedonia and withdrawal in the full sample (all P < .007). Moreover, functional connectivity between the PS and default mode (DM) networks was significantly correlated with the permeability, but not the size, of PS in the full sample and in the SCZ and CON groups separately, and with social withdrawal in the SCZ group. Lastly, the association between PS-DM network connectivity and social withdrawal in the SCZ group was fully mediated by PS permeability. Discussion Neural and behavioral aspects of PS regulation are linked to social motivation in both healthy individuals and those with psychotic disorders, suggesting that measurements of PS could serve as transdiagnostic markers of social functioning.

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Personal space increases during the COVID-19 pandemic in response to real and virtual humans

et al. 2022

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Personal space is the distance that people tend to maintain from others during daily life in a largely unconscious manner. For humans, personal space-related behaviors represent one form of non-verbal social communication, similar to facial expressions and eye contact. Given that the changes in social behavior and experiences that occurred during the COVID-19 pandemic, including “social distancing” and widespread social isolation, may have altered personal space preferences, we investigated this possibility in two independent samples. First, we compared the size of personal space measured before the onset of the pandemic to its size during the pandemic in separate groups of subjects. Personal space size was significantly larger in those assessed during (compared to those assessed before) the onset of the pandemic (all d > 0.613, all p < 0.007). In an additional cohort, we measured personal space size, and discomfort in response to intrusions into personal space, longitudinally before and during the pandemic, using both conventional and virtual reality-based techniques. Within these subjects, we found that measurements of personal space size with respect to real versus virtual humans were significantly correlated with one another (r = 0.625–0.958) and similar in magnitude. Moreover, the size of personal space, as well as levels of discomfort during personal space intrusions, increased significantly during (compared to before) the COVID-19 pandemic in response to both real and virtual humans (all d > 0.842, all p < 0.01). Lastly, we found that the practice of social distancing and perceived (but not actual) risk of being infected with COVID-19 were linked to this personal space enlargement during the pandemic (all p < 0.038). Taken together, these findings suggest that personal space boundaries expanded during the COVID-19 pandemic independent of actual infection risk level. As the day-to-day effects of the pandemic subside, personal space preferences may provide one index of recovery from the psychological effects of this crisis.

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Personal space Increases during the COVID-19 Pandemic in Response to Real and Virtual Humans

Holt

Zapetis

Babadi

et al. 2021

Preprint

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Typically, people maintain a certain distance from others (personal space) during daily life, in a largely automatic, unconscious manner. However during the COVID-19 pandemic, social distancing recommendations led to deliberate expansions of personal space outside of intimate social circles. In the laboratory, personal space preferences are quite stable over repeated measurements. Here, we collected such measurements both before and during the pandemic in the same individuals, using both conventional and virtual reality-based techniques. We found that the size of personal space, and discomfort ratings in response to personal space intrusions, increased significantly during the COVID-19 pandemic, in response to both real humans and virtual others. Moreover, this increase in personal space requirements correlated with the perceived, not the actual, risk of being infected with COVID-19, even in a virtual reality environment in which there was no possibility of infection. Thus, quantification of personal space may reveal some of the psychological effects of the pandemic, and subsequent progress towards recovery.

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Sarah Zapetis

Psychological and physiological evidence for an initial ‘Rough Sketch’ calculation of personal space

Development of a transdiagnostic, resilience-focused intervention for at-risk adolescents

Neural Correlates of Variation in Personal Space and Social Functioning in Schizophrenia and Healthy Individuals

Personal space increases during the COVID-19 pandemic in response to real and virtual humans

Personal space Increases during the COVID-19 Pandemic in Response to Real and Virtual Humans

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