When O negative blood is transfused into a recipient, it can slip in undetected, and do all the good things blood does without triggering an immune response. Without these, there’s nothing to alert the recipient’s immune system. The letter ‘O’ indicates an absence of A and B antigens, while ‘negative’ indicates the absence of the Rh factor (RhD). Unlike the other key blood types, O negative is missing all highly reactive antigens – that’s why it’s called ‘O negative’. Sometimes it’s what you’re missing that matters most Today, identifying a person’s blood type is as easy as a simple needle prick, but in an emergency, every second counts and that’s where O negative can save the day. Thanks to innovations in medical technology cases like this are extremely rare. This can cause clotting, kidney failure and even death. In response, antibodies are released and seek out the red blood cells, binding to their antigens. All it sees is a wave of foreign cells invading the body and it mounts an attack. If a recipient receives a transfusion with a different blood type, their immune system doesn’t care if these new red blood cells are there to help. The problem is, they can be overprotective. Now you might be wondering, if antibodies protect us from disease, aren’t they a good thing? And the answer is yes, all antibodies want to do is protect you. If you’ve ever had a cold or infection your body would have used antibodies to help fight it off. Part of this immune response includes the release of specialised molecules known as antibodies, which have been trained to hunt down foreign antigens, bind to them and neutralize the threat. If these substances enter our system, our body identifies the foreign antigens as a threat and triggers an immune response. They’re also key to understanding why O negative blood is so special and why some blood types just shouldn’t mix.Īntigens aren’t just found in our blood, they can be found in all kinds of organisms and substances like viruses, bacteria, or toxins. These antigens appear in different combinations to create the 8 key blood types, plus a range of lesser-known blood groups. This puzzle led to the discovery of blood types and the tiny molecules that make them possible: antigens.Īntigens can be found on the surface of red blood cells and determine which blood type we have. In the 19th century, long after ‘doctors’ realised milk and wine were not appropriate substitutes for blood (medicine has come a long way), physicians still couldn’t figure out why some patients recovered after receiving a blood transfusion and others didn’t.
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