The Illusion of Owning a Third Arm

Could it be possible that, in the not-so-distant future, we will be able to reshape the human body so as to have extra limbs? A third arm helping us out with the weekly shopping in the local grocery store, or an extra artificial limb assisting a paralysed person? Here we report a perceptual illusion in which a rubber right hand, placed beside the real hand in full view of the participant, is perceived as a supernumerary limb belonging to the participant's own body. This effect was supported by questionnaire data in conjunction with physiological evidence obtained from skin conductance responses when physically threatening either the rubber hand or the real one. In four well-controlled experiments, we demonstrate the minimal required conditions for the elicitation of this “supernumerary hand illusion”. In the fifth, and final experiment, we show that the illusion reported here is qualitatively different from the traditional rubber hand illusion as it is characterised by less disownership of the real hand and a stronger feeling of having two right hands. These results suggest that the artificial hand ‘borrows’ some of the multisensory processes that represent the real hand, leading to duplication of touch and ownership of two right arms. This work represents a major advance because it challenges the traditional view of the gross morphology of the human body as a fundamental constraint on what we can come to experience as our physical self, by showing that the body representation can easily be updated to incorporate an additional limb

Being Barbie: The Size of One’s Own Body Determines the Perceived Size of the World

A classical question in philosophy and psychology is if the sense of one's body influences how one visually perceives the world. Several theoreticians have suggested that our own body serves as a fundamental reference in visual perception of sizes and distances, although compelling experimental evidence for this hypothesis is lacking. In contrast, modern textbooks typically explain the perception of object size and distance by the combination of information from different visual cues. Here, we describe full body illusions in which subjects experience the ownership of a doll's body (80 cm or 30 cm) and a giant's body (400 cm) and use these as tools to demonstrate that the size of one's sensed own body directly influences the perception of object size and distance. These effects were quantified in ten separate experiments with complementary verbal, questionnaire, manual, walking, and physiological measures. When participants experienced the tiny body as their own, they perceived objects to be larger and farther away, and when they experienced the large-body illusion, they perceived objects to be smaller and nearer. Importantly, despite identical retinal input, this “body size effect” was greater when the participants experienced a sense of ownership of the artificial bodies compared to a control condition in which ownership was disrupted. These findings are fundamentally important as they suggest a causal relationship between the representations of body space and external space. Thus, our own body size affects how we perceive the world

Inappropriate stereotypical inferences? An adversarial collaboration in experimental ordinary language philosophy

This paper trials new experimental methods for the analysis of natural language reasoning and the (re)development of critical ordinary language philosophy in the wake of J.L. Austin. Philosophical arguments and thought experiments are strongly shaped by default pragmatic inferences, including stereotypical inferences. Austin suggested that contextually inappropriate stereotypical inferences are at the root of some philosophical paradoxes and problems, and that these can be resolved by exposing those verbal fallacies. This paper builds on recent efforts to empirically document inappropriate stereotypical inferences that may drive philosophical arguments. We demonstrate that previously employed questionnaire-based output measures do not suffice to exclude relevant confounds. We then report an experiment that combines reading time measurements with plausibility ratings. The study seeks to provide evidence of inappropriate stereotypical inferences from appearance verbs that have been suggested to lie at the root of the influential ‘argument from illusion’. Our findings support a diagnostic reconstruction of this argument. They provide the missing component for proof of concept for an experimental implementation of critical ordinary language philosophy that is in line with the ambitions of current ‘evidential’ experimental philosophy

Trait phenomenological control predicts experience of mirror synaesthesia and the rubber hand illusion

In hypnotic responding, expectancies arising from imaginative suggestion drive striking experiential changes (e.g., hallucinations) — which are experienced as involuntary — according to a normally distributed and stable trait ability (hypnotisability). Such experiences can be triggered by implicit suggestion and occur outside the hypnotic context. In large sample studies (of 156, 404 and 353 participants), we report substantial relationships between hypnotisability and experimental measures of experiential change in mirror-sensory synaesthesia and the rubber hand illusion comparable to relationships between hypnotisability and individual hypnosis scale items. The control of phenomenology to meet expectancies arising from perceived task requirements can account for experiential change in psychological experiments

The body fades away: investigating the effects of transparency of an embodied virtual body on pain threshold and body ownership

The ffeelffing off “ownershffip” over an external dummy/vffirtual body (or body part) has been proven to have both physffiologffical and behavffioural consequences. For ffinstance, the vffisffion off an “embodffied” dummy or vffirtual body can modulate paffin perceptffion. However, the ffimpact off partffial or total ffinvffisffibffilffity off the body on physffiology and behavffiour has been hardly explored sffince ffit presents obvffious dffifficultffies ffin the real world. In thffis study we explored how body transparency affects both body ownershffip and paffin threshold. By means off vffirtual realffity, we presented healthy partfficffipants wffith a vffirtual co-located body wffith ffour dffifferent levels off transparency, whffile partfficffipants were tested ffor paffin threshold by ffincreasffing ramps off heat stffimulatffion. We ffound that the strength off the body ownershffip ffillusffion decreases when the body gets more transparent. Nevertheless, ffin the condffitffions where the body was semffi-transparent, hffigher levels off ownershffip over a see-through body resulted ffin an ffincreased paffin sensffitffivffity. Vffirtual body ownershffip can be used ffor the development off paffin management ffinterventffions. However, we demonstrate that provffidffing ffinvffisffibffilffity off the body does not ffincrease paffin threshold. Thereffore, body transparency ffis not a good strategy to decrease paffin ffin clffinffical contexts, yet thffis remaffins to be tested

Assessing the delivery efficacy and internalization route of cell-penetrating peptides.

Developing efficient delivery vectors for bioactive molecules is of great importance within both traditional and novel drug development, such as oligonucleotide (ON)-based therapeutics. To address delivery efficiency using cell-penetrating peptides (CPPs), we here present a protocol based on splice correction utilizing both neutral and anionic antisense ONs, either covalently conjugated via a disulfide bridge or non-covalently complexed, respectively, that generates positive readout in the form of luciferase expression. The decisive advantage of using splice correction for evaluation of CPPs is that the ON induces a biological response in contrast to traditionally used methods, for example, fluorescently labeled peptides. An emerging number of studies emphasize the role of endocytosis in translocation of CPPs, and this protocol is also utilized to determine the relative contribution of different endocytic pathways in the uptake of CPPs, which provides valuable information for future design of novel, more potent CPPs for bioactive cargoes

Distinct uptake routes of cell-penetrating peptide conjugates.

Cell-penetrating peptides (CPPs) are a growing family of peptides that have opened a new avenue in drug delivery, allowing various hydrophilic macromolecules to enter cells. In accordance with most other cationic delivery vectors, CPPs seem to rely mostly on endocytosis for internalization. However, due to conflicting results the exact endocytic pathways for CPP uptake have not yet been resolved. Here, we evaluated the ability of seven CPPs, with different chemical properties, to convey peptide nucleic acids (PNAs) inside cells. Assays based on both splice correction, generating biologically active read-out, and on traditional fluorescence measurements were utilized. The same assays were employed to assess different endocytic pathways and the dependence on extracellular heparan sulfates for internalization. Both highly cationic CPPs (M918, penetratin, and Tat) and amphipathic peptides (transportan, TP10, MAP, and pVEC) were investigated in this study. Conjugate uptake relied on endocytosis for all seven peptides but splice-correcting activity varied greatly for the investigated CPPs. The exact endocytic internalization routes were evaluated through the use of well-known endocytosis inhibitors and tracers. In summary, the different chemical properties of CPPs have little correlation with their ability to efficiently deliver splice-correcting PNA. However, conjugates of polycationic and amphipathic peptides appear to utilize different internalization routes

A stearylated CPP for delivery of splice correcting oligonucleotides using a non-covalent co-incubation strategy.

Aberrations in splicing patterns play a significant role in several diseases, and splice correction, together with other forms of gene regulation, is consequently an emerging therapeutic target. In order to achieve successful oligonucleotide transfection, efficient delivery vectors are generally necessary. In this study we present one such vector, the chemically modified cell-penetrating peptide (CPP) TP10, for efficient delivery of a splice-correcting 2'-OMe RNA oligonucleotide. Utilizing a functional splice correction assay, we assessed the transfection efficiency of non-covalent complexes of oligonucleotides and stearylated or cysteamidated CPPs. Stearylation of the CPPs Arg9 and penetratin, as well as cysteamidation of MPG and TP10, did not improve transfection, whereas the presence of an N-terminal stearyl group on TP10 improved delivery efficiency remarkably compared to the unmodified peptide. The splice correction levels observed with stearyl-TP10 are in fact in parity with the effects seen with the commercially available transfection agent Lipofectamine 2000. However, the inherent toxicity associated with cationic lipid-based transfections can be completely eliminated when using the stearylated TP10, making this vector highly promising for non-covalent delivery of negatively charged oligonucleotides