Is the Six-Million-Dollar Man Possible?
Can we give ourselves super vision, super strength and super speed?
Science fiction is littered with the theme of upgrading the human body with machinery.
In the 1970s classic TV series The Six Million Dollar Man, the main character - astronaut Steve Austin - is horrendously injured in a test flight accident. He was a man “barely alive” but, as the title sequence explained, science could come to his rescue.
“Gentlemen, we can rebuild him. We have the technology. We have the capability to make the world’s first bionic man. Steve Austin will be that man. Better than he was before. Better, stronger, faster.”
His array of upgrades included an eye with zoom and infrared vision. Bionic legs which could give a car a good race and an arm with the strength of a bulldozer.
Meanwhile, as we have been discovering in the Bionic Bodies series, bionics are having a transformative role in the real world. Artificial hearts implanted into the chest can keep patients alive until a transplant becomes available. Cochlear implants have restored hearing to people who were once deaf. Bionic eyes are giving sight to the blind and a range of hands, arms and legs are restoring lost movement.
But the focus is on keeping people alive or restoring lost function. What about the potential to expand capabilities, what is known as human augmentation? Could a six-million-dollar man ever be built?
“Well, first of all, it’s going to cost a lot more than six million dollars,” says Richard Yonck, foresight analyst with Intelligent Future in Seattle, “but there’s an awful lot of technologies underway that will come very close to achieving that.”
The modular prosthetic limb, in development at Johns Hopkins University’s Applied Physics Laboratory, is one of the most advanced bionic arms
He said: “I see strength, certainly, and I would say the equivalent to the bionic arm he had - that kind of strength - is certainly feasible with time.
“He had bionic vision; the contact lens is one approach and there are developments in retinal implants which are currently working to restore sight. That type of technology will lead to further capabilities, I’m sure, with time.”
However, what about running at speeds of 60mph (100km/h)?
“In physical terms, it’s definitely feasible; in practical terms, I’d really question that, given the difficulties.
“Bipedalism was not really designed for that kind of running. There’s considerably more efficient ways of moving at 60mph. I don’t know if there’s enough benefit to overcome the difficulties of 60mph running speed.
“I totally believe that very seriously enhanced and augmented abilities are going to be available to human beings both in the general public and certainly at the military level.
“In terms of strength, in terms of endurance, in terms of sensory capabilities - all of these are most definitely going to be, in the coming decades, seeing some significant progress.”
One of the challenges with human augmentation is that the human body is still going to be quite weak. It is remarkably easy to damage the body in everyday life, from preparing dinner to playing football.
It might be possible to attach a bionic arm with enough strength to lift a car. However, actually doing so could cripple the rest of the body. Falling over while running at 60mph could be equally damaging.
Current bionic body part replacements can imitate human function, but considerable technological developments will be necessary before entering an era of enhancement.
Dr Anders Sandberg, from the Future of Humanity Institute at the University of Oxford, told the BBC: “I do think it is possible to reconstruct a body quite easily and get into a six-million-dollar man situation.”
For the next 10 years, he thinks the field will be at the level of “pretty nice prosthetics”, but would then start to be “significantly better” than the real thing.
He said: “I think mid-century, I would be rather surprised if there wasn’t a lot of implants and enhancements around.”
Options could include “sensory augmentation; ways of extending our senses such as infra-red sight or ultra-violet; or extending hearing.”
He says one day blind people who are fitted with artificial retinas will not only be given sight, but, rather like a smartphone, a range of apps will emerge that would allow recording, zooming and augmented reality.
“Eventually you reach the point where you can start doing things that normal people can’t do,” he said.