Published on July 14th, 2021 | by Emergent Enterprise0
How Virtual Reality Unveiled a Unique Brain Wave That Could Boost Learning
There’s no reason to think we shouldn’t be able to undergo workouts with our brains just like any other part of our body. Physical exercise keeps our bodies in shape so why not exercise our brain with the right kind of activities that keep us cognitively in shape? This post at SingularityHub by Shelly Xuelai Fan presents research that suggests that VR experiences can do that very thing. It makes sense. Virtual reality creates environments that trigger the brain in a number of ways and so targeting certain areas shows promise. If VR can delay problems like dementia and Alzheimer’s by affecting brain waves that’s a big win.
As the rats ran down a short balance beam, stopping occasionally to poke their noses at a water fountain, their brains knew something was off.
Inside the hippocampus, a brain region that documents the stories of your life, neurons sparked a strange type of electrical wave that washed over the region, altering its normal rhythm.
You see, the rats were running in virtual reality (VR), one so rich and lifelike that the rats “love to jump in and happily play games,” said Dr. Mayank R. Mehta at the University of California, Los Angeles, and senior author on a new paper in Nature Neuroscience. And shockingly, their brains responded to VR with unique activity that could impact how we learn, remember, and even treat memory disorders such as Alzheimer’s.
“This is a new technology that has tremendous potential,” said Mehta. “We have entered a new territory.”
Electrical Oceans of the Brain
If the brain is Earth, then brain regions are individual countries or territories.
Within a brain region, neurons often form “governments” that tackle local issues. For example, the visual cortex has multiple layers that gradually process what we see. The motor cortex controls how each part of our muscles move. The hippocampus processes memories of where we are in space, where we left our cars and keys, and questions like “when did I last see my phone?”
For multiple brain areas to come together, however, the brain has a trick: electrical waves that oscillate over different regions. As “neural diplomats,” these waves carry a tremendous amount of information across the brain, coordinating neural activity that’s far apart and ensuring each region is on the same page. The four main types of brain waves are divided based on how fast they oscillate, similar to how often waves crash on the shore depending on weather conditions.
You might have heard of some. Beta waves, for example, dominate the brain when you’re focused and engaged. Alpha waves are when you’re chilling on the couch with a warm cup of tea. Other brain waves have been tested as a treatment for Alzheimer’s, showing they’re not just ambassadors that link up brain regions, but potential Doctors Without Borders in disguise.
But for memory researchers, theta waves are the crux. These are relatively slow waves that spark in the brain as you daydream, or in the middle of a great run, or in the shower with a totally relaxed mind. Theta waves, which wash over the hippocampus, trigger a state in the brain that’s prone to a flow of ideas—à la “shower thoughts.” This state is critical to our ability to learn and memorize, as well as for plasticity, which is the brain’s ability to adapt to something strange and new. Theta waves work with other brain waves to help us recall personal memories—something often lost in Alzheimer’s.
“If that rhythm is so important, can we use a novel approach to make it stronger?” asked Mehta. “Can we retune it?”
Enter Virtual Reality
So what’s VR got to do with anything?
Answer: a bunch. Theta waves often wash over the hippocampus, which helps you remember things related to space, or how you navigate a space. It’s “why Alzheimer’s disease patients tend to get lost,” said Mehta, as connections to the hippocampus and its neurons are gradually damaged.
VR opens up a whole world of experiences, in a virtual space, that could “retrain” the hippocampus. By tapping into theta waves, the authors guessed, we might be able to dampen cognitive damage in people with dementia.
But that’s all theory. The first step was figuring out how the brain responds to VR.
The team first built a virtual environment that looked as close to the real world as possible, without diving into the uncanny valley. And (unfortunately), no, the rats didn’t wear super tiny rodent VR headsets. Rather, the setup was projected inside a housing. It had a seven-foot runway with distinct bands of coloring, and cues from the environment. Think a beachside, Santa Cruz-Us-type clown house décor.
In a clever twist, the team also built an actual playpen that completely mimicked the VR world, to see how the rats’ brains reacted between VR and the real world.
In up to seven rats, the team implanted a hyperdrive of near or over 1,000 electrodes, each much smaller than the width of a human hair, into both sides of their hippocampus to monitor for electrical activity. Similar to previous studies, as the rats ran in both the VR and the real-world track, the team saw theta waves in the hippocampus.
Then it got weird. As the rats ran faster in VR—rodents do love a good run—their hippocampi began undulating with a peculiar pattern, one half as slow as normal theta waves. The authors dubbed this an “eta band,” something barely seen before. Eta acted as an internal FitBit of sorts, only coming online if the rats were running, but then disappearing once they plopped down into couch potato mode.
Tuned for VR
Eta waves aside, rats running in VR also boosted their theta waves compared to those running in the real world.