Someone
has a horrific accident and winds up in the hospital, brain dead and on
life support. Doctors approach the family about organ donation, but
instead of saving as many as eight lives, the family is asked to donate
the whole body to save just one individual. Perhaps a quadriplegic with a
mind that outmatches their malfunctioning body.
As crazy as this sounds, to put an entire
head on a new body, a human body, Italian physician Dr. Sergio Canavero
says we are approaching HEAVEN (an acronym for head anastomosis
venture; anastomosis is surgically connecting two parts). The pieces are
coming together but there are still many hurdles to jump.
Canavero
says he has part of the funding secured, although he says he can't yet
disclose where the money is coming from as a condition of the funding.
He's also taking the 2015 layman's approach with crowd funding and book
sales.
He has identified Valery
Spiridonov as the first patient. The 30-year-old Russian man suffers
from a rare genetic disorder called Werdnig-Hoffman disease. Canavero
says the man volunteered. The two men have talked via Skype but they
have yet to meet in person and Canavero has not reviewed Spiridonov's
medical records.
Canavero
says he has a stack of emails and letters from people who want this
procedure. Many of them are transsexuals who want a new body, he says.
But he insists the first patients will be people who are suffering from a
muscle wasting disease.
Nick Rebel,
executive director of AANOS, says the group is not endorsing Canavero,
it is simply giving him a platform to hear what he has to say.
If Canavero doesn't get the support he needs in the United States, he'll look to China and his timeline will slide by a year.
Once
these pieces are in place, Canavero says he'll put together a staff of
150 nurses and doctors. Many of them, like the patient, are already
identified because they've asked to be part of this team.
Then
they'll need to practice for what is anticipated to be a 36-hour
operation. "I say two years is the time needed for the team to reach
perfect synchronization," Canavero speculates.
But what about the science? Is such an idea even plausible? He says he has research that supports it.
Canavero
points to Dr. Robert White, who transplanted the head of one monkey to
the body of another at Case Western Reserve University School of
Medicine in 1970. The monkey died after eight days, because the body
rejected the new head. Before ithe monkey died, it could not move
because the spinal cord of the head and body were not connected. The
monkey also was unable to breathe on its own. The paper in which
Canavero outlined his procedure references a different 1971 experiment
White conducted with six monkey heads, none of which survived more than
24 hours. But Canavero says advances in science and medicine since then
eliminate the problems White faced.
Dr.
Hunt Batjer, chairman of neurological surgery at UT Southwestern and
president-elect of the American Association for Neurological Surgeons,
says White's research is not validation for a human head transplant.
"[It's] a 45-year-old reference in a primate and there is no evidence
that the spinal cord was anastomosed functionally," he says. Batjer
further explains that it's a great leap to go from brain survival of the
surgery to restoring body function, which White did not look at.
Canavero
is confident in his writing and in conversation. He cites White's
monkeys and even the success of German researchers who helped paralyzed
rats walk, giving no pause to the fact that such research is more likely
to go nowhere than to make it to human clinical trials.
He published his paper in the free, online, medical journal Surgical Neurology International in 2013.
He walks readers through a scenario, outlining the key points that will
make this work, including cooling the spinal cord before severing it.
Doing so with an ultra-sharp blade will avoid the damage experienced by
spinal cord injury patients, he says. He'll use a "magic ingredient" as a
sealant to fuse the spinal cord back together and offers a few options
for what that ingredient could be. The nerves, having been color-coded
when separated, will be carefully aligned and this will all be done very
quickly because time is key.
An
impossibility, according to Batjer. He conceded that the airway, the
spine, the major veins and arteries, can all be put back together, but
the spinal cord is the problem. He says the result would be the
inability to move or breathe.
"I would
not wish this on anyone, I would not allow anyone to do it to me, there
are a lot of things worse than death," Batjer says.
The
science isn't there to support this, says Arthur Caplan, Ph.D.,
director of medical ethics at NYU Langone Medical Center. He says it's
nothing more than a big PR stunt, and calls Canavero "nuts."
Caplan says this has to be done in many
animals before it's tried on humans. Caplan also points out that if
Canavero can do this, he should first be helping paralyzed patients by
fixing their spinal cords, before transplanting whole bodies.
As
for the patients, Caplan says, "their bodies would end up being
overwhelmed with different pathways and chemistry than they are used to
and they'd go crazy."
In his paper,
Canavero says identity issues could be a problem as the head gets used
to its new body. He also says pain could be a problem. As far as
immunosuppression, Canavero points to today's transplant successes as
evidence this is not a problem.
Caplan
isn't buying it. He's seen how difficult it is for his NYU colleagues
who perform face transplants. The levels of anti-rejection medications
required are so high they put patients at risk for cancer and kidney
problems. He says it doesn't make sense that you'd poison a new body
with immunosuppressant medications to make a head transplant work.
Another issue Caplan has seen with face transplant patients is they don't always get full function of their new organ.
"It's not like you can unscrew your head and put it on someone else," Caplan says.
Dr.
Robert Ruff, the Veterans Affairs national director for neurology,
calls it farfetched and farcical, not to mention unlikely to work. He
says this is more like centuries away, not years. "It would be
impossible to predict that far into the future," Ruff says.
Canavero insists, though, "We can already do this."
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