By Gina Kolata

New York Times News Service

In a study that raises profound questions about the line between life and death, researchers have restored some cellular activity to brains removed from slaughtered pigs.

The brains did not regain anything resembling consciousness: There were no signs indicating coordinated electrical signaling, necessary for higher functions like awareness and intelligence.

But in an experimental treatment, blood vessels in the pigs’ brains began functioning, flowing with a blood substitute, and certain brain cells regained metabolic activity, even responding to drugs. When the researchers tested slices of treated brain tissue, they discovered electrical activity in some neurons.

The work is preliminary and has no immediate implications for treatment of brain injuries in humans. But the idea that parts of the brain may be recoverable after death, as conventionally defined, contradicts everything medical science believes about the organ and poses metaphysical riddles.

“We had clear lines between ‘this is alive’ and ‘this is dead,’” said Nita Farahany, a bioethicist and law professor at Duke University. “How do we now think about this middle category of ‘partly alive’? We didn’t think it could exist.”

Are brains fixable?

For decades, doctors and grieving family members have wondered if it might ever be possible to restore function to a person who suffered extensive brain injury because of a severe stroke or heart attack. Were these brains really beyond salvage?

The new research confirms how little we know about the injured brain and so-called brain death. Bioethicists like Farahany were stunned and intrigued by the findings, published Wednesday in the journal Nature.

“This is wild,” said Jonathan Moreno, a bioethicist at the University of Pennsylvania. “If ever there was an issue that merited big public deliberation on the ethics of science and medicine, this is one.”

Until now, it has been assumed that the brain declines quickly when its blood supply is cut off. Cells deteriorate, and the connections between neurons crumble. Scientists have believed those changes are irreversible unless blood is quickly restored.

Researchers at Yale University acquired the heads of 32 pigs killed for their meat. The scientists sawed into the skulls and removed the brains. By the time the experiment started, the brains had been without blood and at room temperature for four hours.

The team has developed a system called BrainEx that pumps an experimental solution into the intact brain. The scientists hope the technology will help point the way to new treatments for strokes, traumatic brain injuries and diseases like Alzheimer’s.

The scientists pumped the solution into the pigs’ brains for six hours. It brought oxygen to the tissue and contained chemicals that allowed the scientists to track its flow with ultrasound.

The solution also contained chemicals intended to block nerve signals. The scientists reasoned that brain cells might be better preserved — and their metabolisms more easily restarted — if the cells were not active.

But the investigators also did not want to take a chance the brains might regain consciousness, unlikely as that seemed. Had the team seen electrical activity suggesting actual consciousness, they planned to give the brains anesthetic drugs and cool them immediately to stop the process.

In addition to the brains that got the BrainEx solution, the scientists also examined brains that did not receive infusions and those receiving infusions of a dummy substance. Brains in both groups showed no signs of activity and their cells deteriorated.

The National Institutes of Health, which supported the research, held a briefing to discuss its significance.

“It is not a living brain, but it is a cellularly active brain,” Dr. Nenad Sestan, a neuroscientist at Yale University who led the research, said of the revived tissue.

“We wanted to test whether cells in the intact dead brain can have some functions restored,” he added.

Some people who seemed dead after prolonged exposure to cold have been resuscitated and their brains continued to function, he noted. Stroke patients who had gone as long as 16 hours with a clot blocking blood to parts of the brain have regained brain function once doctors removed the clots.

How to treat these animals

The ethical issues posed by the research are nearly unprecedented. Among them are questions about the welfare of laboratory animals.

“This is brand-new,” said Stephen Latham, a bioethicist at Yale. “This is not animal research. The brain comes to researchers from a dead animal.”

How, he asked, will ethicists decide if suffering caused by the research is justified?

Even though there was no electrical activity in the brains, it may be possible to restore it, Farahany and other experts said. It’s not known what would have happened if their solution did not contain nerve blockers.

When you have a cellularly active brain, what are the appropriate protections, she asked. Do you treat it like a living animal? You can’t treat it like a dead animal, she said.

“What does it mean to talk about consciousness in a pig? What are we looking for?” Moreno wondered.

The work also may have implications for organ donation.

“If something like BrainEx was available, why wouldn’t you do that instead of trying to get their organs?” said Stuart Youngner, a bioethicist at Case Western Reserve University who was a co-author of an editorial accompanying the study.