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Combining VR and non-invasive brain stimulation: A neurotechnology that boosts spatial memory without surgery

Date:
October 30, 2024
Source:
Ecole Polytechnique Fédérale de Lausanne
Summary:
Researchers have joined forces to give a boost to spatial memory by creating a unique experimental setup that combines non-invasive deep-brain stimulation, virtual reality training, and fMRI imaging. The study demonstrates that targeted, painless electric impulses to the hippocampus and adjacent structures, a deep brain region implied in memory and spatial navigation, can improve the brain's ability to recall locations and navigate more effectively.
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As we age, it becomes more difficult to remember where things are -- whether it's recalling where we left the keys or where we parked the car. This spatial memory deteriorates further with the onset of dementia, a condition that someone in the world develops every three seconds, according to Alzheimer's Disease International.

Researchers at two EPFL labs have joined forces to give a boost to spatial memory by creating a unique experimental setup that combines non-invasive deep-brain stimulation, virtual reality training, and fMRI imaging -- all housed within Campus Biotech in Geneva. Published in Science Advances, the study demonstrates that targeted, painless electric impusles to the hippocampus and adjacent structures, a deep brain region implied in memory and spatial navigation, can improve the brain's ability to recall locations and navigate more effectively.

"By finding ways to improve spatial memory without surgery or medication, we are addressing a serious concern for a large and growing population: the elderly, as well as brain trauma patients and those affected by dementia," says Friedhelm Hummel, head of the Hummel Lab.

The study is the result of a collaboration between the Hummel Lab and Olaf Blanke's Laboratory of Cognitive Neuroscience (LCNO), both at EPFL's Neuro X institute. By combining Hummel's expertise in non-invasive brain stimulation with Blanke's cognitive research of spatial navigation in virtual reality environments, the researchers developed a unique neuro-technological setup.

A one-of-a-kind combination of neuro-technologies

The experiment begins with researchers placing four harmless electrodes on the heads of healthy individuals to stimulate the hippocampus and adjacent structures. This non-invasive technique, called transcranial temporal interference electric stimulation (tTIS), sends targeted pulses without causing any discomfort for the participant.

Next, volunteers are immersed in a virtual world using VR goggles. Building on previous research by co-first-author Hyuk-June Moon, the scientists task the participants with navigating through a series of locations and remembering key landmarks. This immersive virtual setting allows researchers to precisely measure how well participants can recall and navigate spatial information whilst receiving tTIS.

"When stimulation was applied, we observed a clear improvement of the participants' recall time -- the time it took to start moving toward where they remembered the object to be," says Elena Beanato, the other first author of the study. "This leads us to believe that by stimulating the hippocampus, we temporarily increased brain plasticity, which, when combined with training in a virtual environment, leads to better spatial navigation."

The entire experiment was conducted within an fMRI scanner. This provided researchers with real-time images of brain activity, allowing them to monitor how the hippocampus and surrounding regions responded to tTIS during the spatial navigation tasks. The fMRI data revealed changes in neural activity associated with the observed behavioral changes, specifically in the regions responsible for memory and navigation, giving the researchers deeper insight into how non-invasive stimulation modulates brain function.

This integration of advanced technologies at EPFL's Neuro X Institute, makes Campus Biotech one of the few places where all three experimental techniques can be combined in a single study.

"The alliance of tTIS, virtual reality, and fMRI offers a highly controlled and innovative approach to studying the brain's response to stimulation and its impact on cognitive functions," adds Olaf Blanke. "In the long term, we envision using this approach to develop targeted therapies for patients suffering from cognitive impairments, offering a non-invasive way to enhance memory and spatial abilities."


Story Source:

Materials provided by Ecole Polytechnique Fédérale de Lausanne. Original written by Michael David Mitchell. The original text of this story is licensed under Creative Commons CC BY-SA 4.0. Note: Content may be edited for style and length.


Journal Reference:

  1. Elena Beanato, Hyuk-June Moon, Fabienne Windel, Pierre Vassiliadis, Maximillian J. Wessel, Traian Popa, Menoud Pauline, Esra Neufeld, Emanuela De Falco, Baptiste Gauthier, Melanie Steiner, Olaf Blanke, Friedhelm C. Hummel. Noninvasive modulation of the hippocampal-entorhinal complex during spatial navigation in humans. Science Advances, 2024; 10 (44) DOI: 10.1126/sciadv.ado4103

Cite This Page:

Ecole Polytechnique Fédérale de Lausanne. "Combining VR and non-invasive brain stimulation: A neurotechnology that boosts spatial memory without surgery." ScienceDaily. ScienceDaily, 30 October 2024. <www.sciencedaily.com/releases/2024/10/241030145640.htm>.
Ecole Polytechnique Fédérale de Lausanne. (2024, October 30). Combining VR and non-invasive brain stimulation: A neurotechnology that boosts spatial memory without surgery. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2024/10/241030145640.htm
Ecole Polytechnique Fédérale de Lausanne. "Combining VR and non-invasive brain stimulation: A neurotechnology that boosts spatial memory without surgery." ScienceDaily. www.sciencedaily.com/releases/2024/10/241030145640.htm (accessed December 21, 2024).

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