Dr Manoj Kumar J Manwani (L), senior consultant in cosmetic and plastic surgery, and his assistant perform cosmetic surgery inside a hospital operation theater in Mumbai May 9, 2008. For years, Indian women have been relying on the surgeon's knife for that perfect body, that flawless face, and now, the men are muscling in. Body enhancing procedures are no longer only for the female, the self-conscious or the wealthy, with India's economic boom spawning a new breed of male, middle-class professionals with the desire to look good and the money to make it happen. To match Reuters Life! REUTERS/Punit Paranjpe Every now and then, a scientist comes along who is so dedicated to their work that they decide to experiment on themselves.

Phil Kennedy is one of those scientists.

As MIT Technology Review's Adam Piore reported, the neuroscientist who pioneered the technology used to connect the human brain to a computer decided to get his own brain implant in 2014.

Brain computer interfaces, or BCIs, are devices that record the electrical activity of hundreds of brain cells and translate them into signals that can be used to control things like computers or robotic limbs.

Some BCIs are noninvasive, like electroencephalography (EEG) electrodes placed on the scalp. Others require surgery to implant them inside the brain, which allows them to pick up signals from individual neurons.

The 'father of cyborgs'

This electrode array is part of a brain-computer interface similar to the one Kennedy used. braingate2.org Kennedy, who has been called the "father of cyborgs," is known for developing the first BCI to allow a completely paralyzed patient with "locked-in" syndrome to move a cursor on a computer screen. His goal since then has been to develop a "speech decoder" — a system that decodes the thoughts of these "locked-in" patients and converts them into speech. He founded a company called Neural Signals to pursue this work.

In 2008, a man who was unable to move or communicate got one of Kennedy's brain implants and was able to communicate in vowel sounds using a speech synthesizer. The implant consisted of a special kind of electrode that releases chemicals to encourage brain cells to grow onto it.

But in recent years, funding for this research has dried up. Kennedy realized that in order to continue the work, he would have to experiment on himself.

"This whole research effort of 29 years so far was going to die if I didn't do something," he told Tech Review. "I didn't want it to die on the vine. That is why I took the risk."

A risky procedure

In June 2014, Kennedy flew to Belize and paid surgeons $25,000 to implant electrodes into his brain's motor cortex, which controls his ability to move.

But the surgery, which lasted 12 hours, didn't go as well as planned. When he awoke, he couldn't speak, he told Tech Review. A spike in his blood pressure during the procedure caused his brain to swell, leaving him temporarily paralyzed. But Kennedy says he wasn't afraid, because he invented the surgery and knew what to expect.

Within a few months, he had recovered, and returned for a second surgery to implant the electronics that would record the signals from his brain. When he got back to his lab in Duluth, Georgia, Kennedy began recording his brain signals while saying or thinking basic sounds or words, like "plum" or "hello world," Tech Review reported.

He found that specific combinations of brain cells fired when he said or thought certain phrases, which could lay the foundation for a true speech decoder. Such a device could vastly improve the quality of life for people who are unable to speak due to a brain injury or illness. He presented his research at a major neuroscience conference in Chicago in October, according to Tech Review.

He was planning to have the implant for years, but unfortunately, the wound in his skull didn't heal properly, and he was forced to have it removed after just a few weeks. The surgery cost him $94,000.

Still, he's happy he got the implant, and plans to study those few weeks' worth of data for a long time to come.