It demonstrates that after death, cells in mammalian organs (including humans) such as the brain do not die for many hours – well into the postmortem period,” said Dr Sam Parnia, associate professor of critical care medicine at New York University Grossman School of Medicine, who was not involved in the research. “This is a truly remarkable and incredibly significant study. Organs that had undergone OrganEx treatment appeared to be less damaged, and there were even signs of repair in the kidneys. However, when Sestan’s team examined organs from pigs that had undergone ECMO treatment an hour after their hearts stopped beating, they discovered that many of the smaller vessels supplying oxygen to these tissues had collapsed. ”Ĭurrently, the best way to restore oxygen and nutrient delivery to deprived organs and tissues is extracorporeal membrane oxygenation (ECMO), where blood is pumped through a machine that removes carbon dioxide and sends oxygen-filled blood back into the body. “These results open the door for future transplantation studies and possible treatments for ischemic damage. What tells us is that the demise of cells can be halted and their functionality restored in multiple vital organs, even one hour after death,” said Sestan. “These cells are functioning hours after they should not be. The research, published in Nature, highlights a previously unappreciated capacity of the body to partially recover after disrupted blood flow, the researchers said. It also activated programmes involved in cellular repair. Their updated device, OrganEx, restored circulation and improved the function of cells in the hearts, brains, livers and kidneys of pigs that had died from heart attacks an hour earlier. Now, the same team has achieved a similar feat in other organs. Even though the pigs’ brains showed no signs of consciousness, the study provided proof of principal that the irreparable cell damage caused by death, might not be so irreparable. For decades, scientists had assumed that a flatlining heart, and the deficit of oxygen and nutrients that it brings, triggers a cascade of events leading to irreparable cell death and damage to vital organs.īut in 2019, Prof Nenad Sestan at Yale University and his colleagues announced a technique to restore some degree of function to cells in pig brains up to six hours after death, by pumping a form of synthetic blood called cryoprotective perfusate through their blood vessels.Īs well as delivering oxygen and nutrients, it contained drugs and other substances to protect cells against injury and prevent blood clots.
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