The researchers have successfully induced self-location illusions with multi-sensory virtual reality (VR) in the MRI scanner and observed corresponding changes in the human brain's grid cell activity.
The brain is known to contain grid cells and place cells, which perform global positioning system (GPS) functions that allow us to recognize where we are. While traveling to a specific place, the GPS cells along the way fire in turn, depending on their location, and these cells play an important role in recognizing our location in the form of coordinates and remembering events in space.
Humans can sometimes perceive themselves to be in a different location without actually moving their physical bodies such as during an illusion, such as out-of-body experience. However, such purely cognitive self-location changes—and the corresponding response of the brain's GPS cells—have not been investigated in animal models like rats, where these perceptions cannot be induced or confirmed. Furthermore, conventional methods to study GPS cell studies have required opening the skull and measuring the activity of individual cells in the deep brain structures with invasive electrodes, limiting our understanding of human GPS cells.
To observe grid cell activity during the illusory self-location changes, the researchers combined MRI-compatible VR technology with multisensory bodily stimulation to induce the illusion, which was precisely controlled in various directions as designed. The fMRI Images measured during the experiment were used to estimate the activities of grid cells, and the subjective illusory experiences of participants were assessed through post-experiment questionnaires and behavioral metrics reflecting their perceived self-location. As a result, the team demonstrated for the first time that purely cognitive changes in magnetic position such illusory self-location changes induced by multisensory bodily stimulation, without any changes in the visual environmental cues, elicit corresponding activities of human grid cells.
This is the first clinical study to demonstrate that multisensory bodily stimuli alone can evoke grid cell activities, without any kind of navigation (not active nor imagined) and without change in the visual perspective. It shows that GPS coordinates in the human brain respond not only to the physical location of the body but also to location information based on various cognitive activities and experiences, raising the possibility of objective diagnosis of hallucinatory symptoms through brain image analysis. The findings are also expected to contribute to the development of new therapies by providing targets for the treatment of patients suffering from illusory symptoms such as out-of-body experience.
The author stated, "Unlike previous human grid cell studies, which have relied on changes in visual environmental cues from a first-person perspective, we have newly suggested a key research element of integrating multisensory bodily signals." adding, "We plan to conduct follow-up international collaborative research to further understand the brain mechanisms underlying illusions caused by various mental and neurological diseases, and to develop non-invasive brain stimulation treatments that can alleviate these symptoms."
Latest News
In-vitro 3D culture of func…
By newseditor
Posted 15 Jun
Neural balance in the brain…
By newseditor
Posted 15 Jun
Antimalarial compounds reli…
By newseditor
Posted 15 Jun
3D imaging of whole human b…
By newseditor
Posted 14 Jun
Reading pleasure and pain f…
By newseditor
Posted 14 Jun
Other Top Stories
Breast cancer cells increase metastasis by activating neighboring c…
Read more
Tumors depend on nonsense decay (NMD) process for survival!
Read more
Why the immune system fails to see cancer?
Read more
Lymph node metastases may not always be the source of cancer's spre…
Read more
Cancer cells force normal cells to secret virus like exosomes to he…
Read more
Protocols
Bioengineered human colon o…
By newseditor
Posted 14 Jun
Development of an efficient…
By newseditor
Posted 12 Jun
A co-culture system of macr…
By newseditor
Posted 10 Jun
Analysis of 3D pathology sa…
By newseditor
Posted 08 Jun
Long-term expandable mouse…
By newseditor
Posted 07 Jun
Publications
NRG1-ErbB4 signaling in the…
By newseditor
Posted 15 Jun
HPV integration and cervica…
By newseditor
Posted 15 Jun
Cerebral tau pathology in c…
By newseditor
Posted 15 Jun
Cerebral tau pathology in c…
By newseditor
Posted 15 Jun
Synthetic biodegradable mic…
By newseditor
Posted 15 Jun
Presentations
Myelin plasticity in the ve…
By newseditor
Posted 10 Jun
Hydrogels in Drug Delivery
By newseditor
Posted 12 Apr
Lipids
By newseditor
Posted 31 Dec
Cell biology of carbohydrat…
By newseditor
Posted 29 Nov
RNA interference (RNAi)
By newseditor
Posted 23 Oct
Posters
A chemical biology/modular…
By newseditor
Posted 22 Aug
Single-molecule covalent ma…
By newseditor
Posted 04 Jul
ASCO-2020-HEALTH SERVICES R…
By newseditor
Posted 23 Mar
ASCO-2020-HEAD AND NECK CANCER
By newseditor
Posted 23 Mar
ASCO-2020-GENITOURINARY CAN…
By newseditor
Posted 23 Mar