The pigs had been lying dead in the lab for an hour — no blood was circulating in their bodies, their hearts were still, their brain waves flat. Then a group of Yale scientists pumped a custom-made solution into the dead pigs’ bodies with a device similar to a heart-lung machine.
What happened next adds questions to what science considers the wall between life and death. Although the pigs were not considered conscious in any way, their seemingly dead cells revived. Their hearts began to beat as the solution, which the scientists called OrganEx, circulated in veins and arteries. Cells in their organs, including the heart, liver, kidneys and brain, were functioning again, and the animals never got stiff like a typical dead pig.
Other pigs, dead for an hour, were treated with ECMO, a machine that pumped blood through their bodies. They became stiff, their organs swelled and became damaged, their blood vessels collapsed, and they had purple spots on their backs where blood pooled.
But the findings are just a first step, said Stephen Latham, a bioethicist at Yale University who worked closely with the group. The technology, he emphasized, is “very far away from use in humans.”
The group, led by Dr. Nenad Sestan, professor of neuroscience, of comparative medicine, of genetics and of psychiatry at the Yale School of Medicine, was stunned by its ability to revive cells.
“We did not know what to expect,” said Dr. David Andrijevic, also a neuroscientist at Yale and one of the authors of the paper. “Everything we restored was incredible to us.”
Others not associated with the work were similarly astonished.
“It’s unbelievable, mind blowing,” said Nita Farahany, a Duke law professor who studies ethical, legal and social implications of emerging technologies.
And, Dr. Farahany added, the work raises questions about the definition of death.
“We presume death is a thing, it is a state of being,” she said. “Are there forms of death that are reversible? Or not?”
The work began a few years ago when the group did a similar experiment with brains from dead pigs from a slaughterhouse. Four hours after the pigs died, the group infused a solution similar to OrganEx that they called BrainEx and saw that brain cells that should be dead could be revived.
That led them to ask if they could revive an entire body, said Dr. Zvonimir Vrselja, another member of the Yale team.
The OrganEx solution contained nutrients, anti-inflammatory medications, drugs to prevent cell death, nerve blockers — substances that dampen the activity of neurons and prevented any possibility of the pigs regaining consciousness — and an artificial hemoglobin mixed with each animal’s own blood.
When they treated the dead pigs, the investigators took precautions to make sure the animals did not suffer. The pigs were anesthetized before they were killed by stopping their hearts, and the deep anesthesia continued throughout the experiment. In addition, the nerve blockers in the OrganEx solution stop nerves from firing in order to ensure the brain was not active. The researchers also chilled the animals to slow chemical reactions. Individual brain cells were alive, but there was no indication of any organized global nerve activity in the brain.
Read More About Organ Transplants
- Pioneering Procedures: In groundbreaking operations, surgeons successfully transplanted a heart and kidneys from genetically modified pigs to human patients. T
- Solving the Shortage: The use of genetically engineered pigs could help solve the donor-organ shortage. But considerable hurdles remain, including concerns over the potential introduction of animal pathogens into the human population.
- Reversing Death?: A group of researchers was able to revive cells in the organs of dead pigs. They hope their findings will one day help obtain viable human organs for transplants long after death.
- Accepting New Organs: Transplant patients must take damaging anti-rejection drugs for the rest of their lives. Researchers hope to trick the immune system instead.
There was one startling finding: The pigs treated with OrganEx jerked their heads when the researchers injected an iodine contrast solution for imaging. Dr. Latham emphasized that while the reason for the movement was not known, there was no indication of any involvement of the brain.
Yale has filed for a patent on the technology. The next step, Dr. Sestan said, will be to see if the organs function properly and could be successfully transplanted. Some time after that, the researchers hope to test whether the method can repair damaged hearts or brains.
The journal Nature asked two independent experts to write commentaries about the study. In one, Dr. Robert Porte, a transplant surgeon at the University of Groningen in the Netherlands, discussed the possible use of the system to expand the pool of organs available for transplant.
In a telephone interview, he explained that OrganEx might in the future be used in situations in which patients are not brain-dead but brain injured to the extent that life support is futile.
In most countries, Dr. Porte said, there is a five-minute “no touch” policy after the respirator is turned off and before transplant surgeons remove organs. But, he said, “before you rush to the O.R., additional minutes will pass by,” and by that time organs can be so damaged as to be unusable.
And sometimes patients don’t die immediately when life support is ceased, but their hearts beat too feebly for their organs to stay healthy.
“In most countries, transplant teams wait two hours” for patients to die, Dr. Porte said. Then, he said, if the patient is not yet dead, they do not try to retrieve organs.
As a result, 50 to 60 percent of patients who died after life support was ceased and whose families wanted to donate their organs cannot be donors.
If OrganEx could revive those organs, Dr. Porte said, the effect “would be huge” — a vast increase in the number of organs available for transplant.
The other comment was by Brendan Parent, a lawyer and ethicist who is director of transplant ethics and policy research at New York University’s Grossman School of Medicine.
In a telephone interview, he discussed what he said were “tricky questions around life and death” that OrganEx raises.
“By the accepted medical and legal definition of death, these pigs were dead,” Mr. Parent said. But, he added, “a critical question is: What function and what kind of function would change things?”
Would the pigs still be dead if the group did not use nerve blockers in its solution and their brains functioned again? That would create ethical problems if the goal was to preserve organs for transplant and the pigs regained some degree of consciousness during the process.
But restoring brain functions could be the goal if the patient had had a severe stroke or was a drowning victim.
“If we are going to get this technology to a point where it can help people, we will have to see what happens in the brain without nerve blockers,” Mr. Parent said.
In his opinion, the method would eventually have to be tried on people who could benefit, like stroke or drowning victims. But that would require a lot of deliberation by ethicists, neurologists and neuroscientists.
“How we get there is going to be a critical question,” Mr. Parent said. “When does the data we have justify making this jump?”
Another issue is the implications OrganEx might have for the definition of death.
If OrganEx continues to show that the length of time after blood and oxygen deprivation before which cells cannot recover is much longer than previously thought, then there has to be a change in the time when it is determined that a person is dead.
“It’s weird but no different than what we went through with the development of the ventilator,” Mr. Parent said.
“There is a whole population of people who in a different era might have been called dead,” he said.