Blind Rats With Compass Brain Implants Act Like They Can See.

Blind rats with a sensor and a compass attached to their brains were able to navigate through a maze nearly as well as rats with regular vision.

The discovery suggests that neuroprosthetic devices could one day be developed to help blind people better sense their environment. This is similar to the cyborg eye being created to help blind people.

Surprisingly, the researchers from the University of Tokyo, Japan didn’t set out to restore normal vision in their rat subjects.
Instead, the team was interested in enhancing something called allocentric sense. This is basically how humans and animals are able to recognize the positions of their bodies in relation to their spatial surroundings.

The Research

The team created a small, head-mounted geomagnetic sensor that connected a small digital compass to two microelectrodes.
These were implanted into the visual cortices of rats whose eyelids had been sewn shut to simulate blindness.

When the rats moved their heads, the sensors generated electrical impulses telling them which direction they were facing. The rats were then trained to locate food pellets inside T-shaped and more complicated mazes.

It didn’t take too long before the blind rats could make sense of the geomagnetic signals stimulating their brains. After a couple of days, and a few dozen experiments, the team said that their blind rats were solving the mazes almost as fast as rats that are not blind. And were employing similar navigation strategies. They have reported their findings in Current Biology.

 “We were surprised that rats can comprehend a new sense that had never been experienced or explained by anybody, and can learn to use it in behavioural tasks within only two to three days,” said co-author and pharmacologist, Yuji Ikegaya, in a press release.

The benefits

We can forgive the researchers for sewing together the eyelids of the poor rats. And applaud them for this very cool research. As it highlights the ability of the brain to adapt and use new, never-before-experienced information, to better understand its environment.

“The most remarkable point of this paper is to show the potential, or the latent ability, of the brain, we demonstrated that the mammalian brain is flexible even in adulthood – enough to adaptively incorporate a novel, never-experienced, non-inherent modality into the pre-existing information sources.” said Ikegaya.

More importantly, the researchers say it could enable people suffering vision loss to regain more independence.

 “The most plausible application is to attach a geomagnetic sensor to a cane so that the blind can know the direction via tactile signals such as vibration,” Ikegaya, wrote in an email to Douglas Quenqua at The New York Times.