A recent article published by Christof Koch raises the question of if death is really as final as it seems.

Koch highlights a study undergone by a sizable team of physicians and scientists at Yale School of Medicine, led by Nenad Sestan. This group used hundreds of slaughtered pigs from the Department of Agriculture to carry out a rather extraordinary experiment. 

The experiment began with the removal of the pig brains from the pigs’ skulls. The veins and carotid arteries were then connected to a perfusion device that created the effect of a heart beating. This perfusion device circulated a synthetic concoction, or a type of artificial blood, containing drugs and oxygen with a specific molecular constitution that would protect the cells from damage. Sestan’s team studied these pig brains’ capability to survive four hours after the pigs had been electrically stunned, bled out, and decapitated. His team also compared these pig brains with others that were not connected to a perfusion device. 

A closer look on a pig brain (not from the actual experiment)

The tissue integrity of the pig brains that were connected to the perfusion device was preserved and there was also a decrease of the swelling that causes cells to die. In addition, synapses, neurons, and output wires (axons) looked normal. The glial cells, which support neurons, had some function, and the brain consumed glucose and oxygen. This means that there was some metabolic functioning. The researchers seemed very satisfied with their findings and titled their paper “Restoration of Brain Circulation and Cellular Functions Hours Post-mortem.”

However, brain waves, like those from EEG recordings, were not found in the pigs’ brains that were connected to the perfusion device. There were electrodes put on the surface of the brains but no great global electrical activity was recorded. This, although, was intended. In theory, bringing a pig that had just gone through such trauma back to life could’ve led to a number of horrible side effects. Some include massive epileptic seizures, delirium, deep-seated pain, distress, and psychosis. It was because of this fact that Sestan’s team ensured the artificial blood contained drugs that suppress neuronal function. 

According to Koch, this experiment causes a new question to surface: “What would happen if the team were to remove the neural-activity blockers from the solution suffusing the brain?”. In reality, it is probable that nothing would happen. Even though some neurons responded to the stimulation doesn’t mean that millions would be able to. However, it can’t be completely disregarded that maybe with some external support the seemingly dead brains can be brought back to life.

Keeping this in mind, one may wonder if this can be applied to human brains. The pig brain is the most popular laboratory animal as it has a fairly large brain that has a folded cortex similar to that of a human brain. Because of this, in theory, the human brain could undergo the same experiment. Even so, the question of if this would really be ethical or not is a factor that should definitely be taken into consideration.

If possible, do we have the right to bring dead brains back to life?

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