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  • [ intro ]

  • At some pointlike, if you've donated blood

  • you might have been asked about your blood type.

  • And even if you don't know what yours is,

  • you're probably aware that you could have

  • A, B, AB or O blood,

  • and that your blood can be positive or negative.

  • But that's not the whole story,

  • because there are potentially millions of blood types out there.

  • There are so many possible blood types

  • because of the way blood types are defined.

  • You see, your blood type is defined

  • by the antigens present in your blood.

  • Antigens are anything that can elicit a response

  • from your body's self-defense system,

  • though your immune system normally ignores

  • the ones that belong to you.

  • And you can find antigens on cells throughout your body,

  • with different cells having different combinations of antigens.

  • The ones that matter for blood classification are found

  • on the surfaces of your body's red blood cells.

  • Simply put,

  • your particular blood type depends on which antigens are or aren't there.

  • Like, if you have AB blood,

  • that means you have both the A and B antigens in the ABO blood group.

  • You could be just A, or just B, or if you're O, you don't have either.

  • But those ABO antigens are just two of over 600 blood antigens

  • identified by the International Society of Blood Transfusion,

  • and the list hasn't stopped growing yet.

  • Many of these antigens fit into blood group systems,

  • like ABO, each of which is defined by a gene at a single site

  • or by multiple genes that are closely related.

  • And all of us have these genes

  • your type for a particular group depends on how your genes translate

  • into the antigens that end up on the outside of your blood cells.

  • There are 36 blood group systems currently recognized.

  • So your full blood type, if written out,

  • would include all 36 of these groups

  • and the variants you have or don't have for all of those 600-plus antigens.

  • Which is why we can say that there are millions of potential blood types.

  • Of course, there are only 8 common ones,

  • and that's because many of these antigens are found in practically everyone,

  • while others are present in only a few individuals.

  • For example,

  • the SARA antigen has only ever been seen in two families,

  • while 99.96% of people have the Vel antigen.

  • And blood groups can get really complicated, too.

  • Just look at the Rh blood group.

  • That's the group that gives you a positive or negative blood type

  • like, if you're AB+,

  • the positive part generally means you have the Rh antigen called Rh(D).

  • But, to make things more confusing,

  • whether your blood is considered positive

  • or negative may depend on how much of the antigen you have in your system,

  • since that can impact what sorts of antibodies your immune system makes to protect you.

  • And D is just one of over /60/ known antigens in the Rh group.

  • So positive or negative doesn't even begin to capture your overall Rh blood type.

  • In fact, one of the rarest blood types in the world occurs

  • if you have none of the antigens in the Rh group.

  • If you're one of the about 50 people with this blood type

  • which is known as Rh null

  • your body will reject the blood from practically anyone else.

  • And the Rh group isn't the only blood group where having no antigens

  • can be a matter of life or death.

  • Another example is the Diego group.

  • Its antigens are proteins that help the lungs and kidneys perform essential functions.

  • Like with the ABO group,

  • there are two primary antigens, a and b,

  • that determine a person's Diego blood type.

  • But unlike the ABO group, where “O” or the lack of antigens is most common,

  • there has only been one documented case of someone lacking both of these key Diego antigens.

  • Sometimes, though, having no antigens can help you out.

  • For example,

  • one of the malarial parasites uses antigens in the Duffy blood group

  • to target and infiltrate cells,

  • so having no antigens from that group can make you more resistant to the disease.

  • But it also means there's a chance that your body will attack another person's blood

  • if you're given a transfusion,

  • since the cells you receive could have Duffy antigens on them that your body sees as foreign.

  • The good news is that despite all the potential blood types you could have,

  • for the most part, the ABO-Rh blood typing we're used to

  • does a pretty good job of matching people's blood.

  • With this system,

  • if you receive blood from someone with the same ABO-Rh type,

  • there's a 99.8 percent chance your blood will be compatible with your donor's.

  • For some reason,

  • your body's immune system doesn't go after every antigen equally,

  • so you don't usually need to know what version of every single known antigen you have.

  • And if you do want to be extra sure,

  • there are ways that doctors can tell if you have a rare blood type.

  • For example,

  • they can screen for unexpected antibodies that could potentially target donated red

  • blood cells,

  • or perform crossmatching,

  • where your blood is mixed with a donor's to see how the two react.

  • Doing these two steps racks your safety margin up to 99.95 percent.

  • And if you do happen to have a rare blood type like Rh null,

  • don't fret.

  • Efforts like the International Rare Donor Panel work hard

  • to make sure you can get the blood you need, no matter where in the world you are.

  • One person needing a transfusion had a rare blood type delivered

  • from the UK to Cameroon.

  • That's about four thousand miles away!

  • So even if your blood is literally one in a million,

  • you can be pretty confident that you'll be able to find someone

  • whose blood matches yours.

  • And, I guess, you could say that's one of the parts of being human

  • having something in common with other people

  • while being unique in your own special way.

  • Blood types ultimately boil down to microscopic differences between red blood cells.

  • And if you were to zoom in to see those differences and really watch what goes on in your own

  • bloodstream,

  • you'd see a bustling and bizarre world.

  • In fact, when you look at pretty much anything under a powerful enough microscope,

  • all sorts of wonderfully fantastic lifeforms are revealed.

  • And that's kind of the point of our new sister channel produced by Complexly: Journey

  • to the Microcosmos.

  • Journey to the Microcosmos is all about bringing you closer to the world of very,

  • very small things in a relaxing way.

  • It pairs James Weiss's incredible microscopic footage with Hank Green's soothing narration

  • and Andrew Huang's meditative music,

  • so you can just kick back and marvel at the microscopic realm.

  • You can check it out for yourself at the link in the description.

  • And as always, thanks for watching!

  • [ outro ]

[ intro ]

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血型有幾百萬種 (There Are Millions of Blood Types)

  • 6 1
    林宜悉 發佈於 2021 年 01 月 14 日
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