From multisensory integration in peripersonal space to bodily self‐consciousness: from statistical regularities to statistical inference

Noel, Jean‐Paul; Blanke, Olaf; Serino, Andrea

doi:10.1111/nyas.13867

Cited by 59 publications

(54 citation statements)

References 224 publications

(382 reference statements)

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“…Indeed, a main interest here resided in the putative impact that the presence or absence of a visual depiction of a virtual hand may have on the underlying visuo-proprioceptive coupling prior. In fact, we suggest that PPS can be conceived to be a ‘stochastic bubble’ surrounding the body and computing the probability that an object will come in contact with the body (see 56 for similar arguments). As such, in principle, the measurement of the strength of the link between body-related information (i.e., proprioceptive signals) and surrounding exteroceptive signals (i.e., visual) arguably provides an index for the computation of proximity to the body that may characterize the functionality of PPS.…”

Section: Discussionmentioning

confidence: 99%

“…In turn, Guterstam and colleagues suggest that the “magnetic touch illusion” is a perceptual correlate of visuo-tactile integration in the PPS 54 , and taken together, these results imply that the PPS allows for the inference of putative touch by nearby objects. In turn, aiming to develop a computational framework accounting for the functional role of PPS, here we argue that PPS can be conceived as a “stochastic spatial bubble” surrounding the body wherein the probability that objects in the world could come into contact with the body is computed (see 44 , 48 , 49 , 51 , 56 , 57 for similar arguments). Arguably, the PPS may allow for the computation of the probability that sensory signals are associated with each other and most importantly with one’s body.…”

Section: Introductionmentioning

confidence: 99%

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Peri-personal space as a prior in coupling visual and proprioceptive signals

Noel

Samad

Doxon

et al. 2018

Sci Rep

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It has been suggested that the integration of multiple body-related sources of information within the peri-personal space (PPS) scaffolds body ownership. However, a normative computational framework detailing the functional role of PPS is still missing. Here we cast PPS as a visuo-proprioceptive Bayesian inference problem whereby objects we see in our environment are more likely to engender sensations as they come near to the body. We propose that PPS is the reflection of such an increased a priori probability of visuo-proprioceptive coupling that surrounds the body. To test this prediction, we immersed participants in a highly realistic virtual reality (VR) simulation of their right arm and surrounding environment. We asked participants to perform target-directed reaches toward visual, proprioceptive, and visuo-proprioceptive targets while visually displaying their reaching arm (body visible condition) or not (body invisible condition). Reach end-points are analyzed in light of the coupling prior framework, where the extension of PPS is taken to be represented by the spatial dispersion of the coupling prior between visual and proprioceptive estimates of arm location. Results demonstrate that if the body is not visible, the spatial dispersion of the visuo-proprioceptive coupling relaxes, whereas the strength of coupling remains stable. By demonstrating a distance-dependent alteration in visual and proprioceptive localization attractive pull toward one another (stronger pull at small spatial discrepancies) when the body is rendered invisible – an effect that is well accounted for by the visuo-proprioceptive coupling prior – the results suggest that the visible body grounds visuo-proprioceptive coupling preferentially in the near vs. far space.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Peri-personal space as a prior in coupling visual and proprioceptive signals

Noel

Samad

Doxon

et al. 2018

Sci Rep

Self Cite

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“…Furthermore, contact-related behavioural relevance also explains the relationship between many PPS measures and impact prediction 15 , 73 , 74 : the probability of impact of a stimulus is strongly related to the behavioural relevance of an action aiming to avoid or create contact [9] . Interestingly, recent views have suggested that impact prediction is the main role of PPS [75] . While such a role does explain that some factors other than proximity (e.g., velocity or direction of movement) affect PPS measures, it still does not explain, for example, the effect of other factors, such as stimulus valence [14] , lateral motion [7] (i.e., in a direction not likely to directly cause impact with the individual), and social interactions [76] , factors that are instead explained by considering contact-related action relevance.…”

Section: Pps As a Set Of Contact-related Action Fieldsmentioning

confidence: 99%

An Action Field Theory of Peripersonal Space

Bufacchi

Iannetti

2018

Trends in Cognitive Sciences

169

142

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Predominant conceptual frameworks often describe peripersonal space (PPS) as a single, distance-based, in-or-out zone within which stimuli elicit enhanced neural and behavioural responses. Here we argue that this intuitive framework is contradicted by neurophysiological and behavioural data. First, PPS-related measures are not binary, but graded with proximity. Second, they are strongly influenced by factors other than proximity, such as walking, tool use, stimulus valence, and social cues. Third, many different PPS-related responses exist, and each can be used to describe a different space. Here, we reconceptualise PPS as a set of graded fields describing behavioural relevance of actions aiming to create or avoid contact between objects and the body. This reconceptualisation incorporates PPS into mainstream theories of action selection and behaviour.

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“…In the Control group a non-significant difference between RTs at D4 (M = 1017.11, SE = 16.71) and D5 (M = 998.71, SE = 13.03) was found, (t (16) = 1.87, p = .079), whereas RTs at D3 (M = 1061.39, SE = 17.86) were slower than at D4 (t (16) = 2.91, p = .010), RTs at D2 (M = 1100.99, SE = 20.28) were slower than RTs at D3 (t (16) = 4.46, p < .001) and RTs at D1 (M = 1170.56, SE = 30.50) were slower than RTs at D2 (t (16) = 3.78, p = .002). Interestingly, in the pregnant group, t-tests showed a non-significant difference between RTs at D4 (M = 1045.76, SE = 11.59) and D5 (M = 1031.99, SE = 10.27), (t (27) = 1.78, p = .085) and between RTs at D3 (M = 1050.25, SE = 11.81) and D4, (t (27) = .56, p = .576), whereas RTs at D2 (M = 1101.70, SE = 11.86) were slower than RTs at D3 (t (27) = 7.69, p < .001), and RTs at D1 (M = 1131.50, SE = 13.32) were slower than RTs at D2 (t (27) = 2.88, p = .008). See Figure 1 (graph "b").…”

Section: Resultsmentioning

confidence: 96%

“…The shallower slope of the PPS gradient observed at the late stage of pregnancy seems therefore to indicate a weaker and more variable sense of body boundary, perhaps caused by the inability of the brain to accurately keep track of the fast body changes. Interestingly, the PPS has been defined as a "stochastic bubble" where computations about the probability of the body interacting with external objects continuously occur 27 . The wider margin of the "safety zone" around the body observed late in pregnancy could be a consequence of the brain's reduced ability to accurately compute the exact spatial location of an external stimulus with respect to one's ownrapidly growing -body.…”

Section: Discussionmentioning

confidence: 99%

Maternal brain gain: enlarged representation of the peripersonal space in pregnancy

Cardini

Fatemi-Ghomi

Gajewska‐Knapik

et al. 2018

Preprint

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Phone: 0044 (0)845 196 2346Our ability to maintain a coherent bodily self despite continuous changes within and outside our body relies on the highly flexible multisensory representation of the body, and of the space surrounding it: the peripersonal space (PPS). The aim of our study was to investigate whether during pregnancy -when extremely rapid changes in body size and shape occur -a likewise rapid plastic reorganization of the neural representation of the PPS occurs. We used an audio-tactile integration task to measure the PPS boundary at different stages of pregnancy. We found that in the second trimester of pregnancy and postpartum women did not show differences in their PPS size as compared to the control group (non-pregnant women). However, in the third trimester the PPS was larger than the controls' PPS and the shift between representation of near and far space was more gradual. We therefore conclude that during pregnancy the brain adapts to the sudden bodily changes, by expanding the representation of the space around the body. This may represent a mechanism to protect the vulnerable abdomen from injury from surrounding objects.

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From multisensory integration in peripersonal space to bodily self‐consciousness: from statistical regularities to statistical inference

Cited by 59 publications

References 224 publications

Peri-personal space as a prior in coupling visual and proprioceptive signals

Peri-personal space as a prior in coupling visual and proprioceptive signals

An Action Field Theory of Peripersonal Space

Maternal brain gain: enlarged representation of the peripersonal space in pregnancy

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