Supernumerary me: An investigation into body representation
Lead Research Organisation:
University of Nottingham
Department Name: Sch of Psychology
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
Organisations
People |
ORCID iD |
Roger Newport (Principal Investigator) |
Publications
Catherine Preston (Author)
(2009)
Supernumerary limbs in the normal brain
Catherine Preston (Co-Author)
(2010)
The breakdown of the comparator : action awareness for the non-paralysed limb in anosognosia for hemiplegia
Karok S
(2010)
The continuous updating of grasp in response to dynamic changes in object size, hand size and distractor proximity.
in Neuropsychologia
Newport R
(2009)
Fake hands in action: embodiment and control of supernumerary limbs
in Experimental Brain Research
Newport R
(2011)
Disownership and disembodiment of the real limb without visuoproprioceptive mismatch.
in Cognitive neuroscience
Newport R
(2010)
Pulling the finger off disrupts agency, embodiment and peripersonal space.
in Perception
Preston C
(2011)
Analgesic effects of multisensory illusions in osteoarthritis.
in Rheumatology (Oxford, England)
Preston C
(2010)
Anosognosia for hemiplegia as a global deficit in motor awareness: evidence from the non-paralysed limb.
in Neuropsychologia
Preston C
(2011)
Differential effects of perceived hand location on the disruption of embodiment by apparent physical encroachment of the limb.
in Cognitive neuroscience
Description | The sense of ownership, control and acceptance of our own body parts underpins who we are and how we act. Humans can successfully adapt to changes brought about by the natural processes of ageing and injury, but can also rapidly incorporate non-bodily objects such as tools and use them as though extensions of our own actual bodies. The proposed research used a novel augmented reality system that provided a real-time reproduction of the participant's actual limb, in the same position as their real limb in order to ask how and why the brain can treat some external objects as though part of our body (eg tools), but, when damaged, can just as easily treat our own body parts as belonging to someone else? The research aimed to determine some of the factors responsible for accepting, owning and using different visual representations of the hand while rejecting, disowning and not using others. The primary research findings were that the body image (a conscious representation of how the body should look) can readily accept an extra limb, but the body schema (an unconscious internal representation of the body as it is used for action) can only process one. In addition, the limb representation incorporated by body image and schema need not be the same one. An interaction of multisensory cues from vision, touch, limb position sense, limb location and motor output determines the representation of the body in the brain. During the course of the project, new multisensory illusions were developed and used in novel experiments that resulted in several publications to relevant journals. In particular, illusions allowing moving supernumerary limbs, stimuli that encroached the limb, dynamically enlarged limbs and detached fingers had not been experimentally induced before this project. Not all of these were explicitly planned in the proposal, but were inspired, and made possible, by developments during the implementation of the original project ideas. Theoretical advancements include demonstrating that representations of the body in the brain have a preference for synchronously moving, complete hands that are close to the body, but not necessarily the representation of the hand that is in the same location as the real hand nor the same representations for body image and body schema at the same time. |
Exploitation Route | This research could be used in non-academic contexts as an interactive tool for educational purposes. The illusions are very popular at public engagement events, such as major science festivals and Brain Awareness open days for GCSE-level students. The MIRAGE illusion box provides a simple and informative method for demonstrating how the brain puts together different sensory inputs to make sense of our body and the world around us. There is also the potential for an automated system to be developed for use in science museums. A variety of multisensory illusions were developed as part of the project and one of the unexpected outcomes of this research was that illusory finger stretching might have beneficial effects for the experience of pain in osteoarthritis. This part of the research could be useful in the development of non-invasive, drug-free pain relief therapies. |
Sectors | Communities and Social Services/Policy Education Healthcare |
Description | Will any body do?: the adaptive nature of the human body representations |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Primary Audience | |
Results and Impact | Delivered at Experimental Psychological Society Workshop |
Year(s) Of Engagement Activity |