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Saved by the Clot

How does the human body "turn off" bleeding from an injury? Why do some people bleed too much? This October, a cool experiment lets you investigate blood coagulation!

By Kim Mullin

Explore blood clotting and coagulation / blender

Don't Drink the Science

What you mix up doesn't have to be green, but this green combo (it's not a smoothie!) fits in great with Halloween spookiness. The mixture shown in the blender is part of the procedure from the "Blood Clotting to the Rescue: How to Stop Too Much Blood from Flowing" science project. Depending on what you add next, you might end up with little semisolid (gelatinous) balls. Pretty cool science, and a great way to explore coagulation!

Got Blood?

What's the perfect accessory for a frightful Halloween? Fake blood, and plenty of it! Dripping, oozing, spurting—from vampires to gory masks, blood plays a starring role in the scarier side of Halloween. That makes October the right time to get kids interested in a sticky topic—blood coagulation!

Blood Coagulation Keeps Us Safe

We've all had minor cuts and scrapes that bleed, or even a bloody nose. Although it can seem like the bleeding lasts a long time, it does eventually stop. Why? Because it is unhealthy to lose a lot of blood, so as soon as we are injured, our bodies rush into action to form a clot.

Clots are made up of four components: platelets, clotting factors, fibrin, and blood cells. One after the other, these items stick together around the wound to plug it and stop the bleeding. This process is called coagulation. Most people's bodies coagulate blood naturally, but some people have a genetic disorder called hemophilia, and their blood does not coagulate easily. Because the flow of blood may not stop quickly, even minor injuries can be very dangerous for someone with hemophilia.

Coagulation Simulation

If you fell off a skateboard and skinned your knee, you would feel the pain and see blood flow from the scrape. Ouch! But it is tricky to really see blood coagulation in action because the components are so small. When that's the case, scientists sometimes make models to simulate what is happening.

You can make your own blood coagulation model at home! The "Blood Clotting to the Rescue: How to Stop Too Much Blood from Flowing" Project Idea shows you how to do it step-by-step. You'll use an eyedropper to introduce one liquid into another, and you'll end up with tiny little gelatinous spheres! You'll also see what happens when you introduce an anticoagulant into the mix. (Some people take anticoagulant medicine because their blood clots too much.)

As you experiment with your model, think about questions like these: What result would work best for plugging a hole in a blood vessel? What could scientists do to help someone who has a blood disorder like hemophilia?

Vampire or not, our blood is a fascinating topic!

Science Buddies Project Ideas to help students learn more about learn more about diabetes and hemophilia are sponsored by Novo Nordisk.

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Your Science!
What will you explore for your science project this year? What is your favorite classroom science activity? Email us a short (one to three sentences) summary of your science project or teaching tip. You might end up featured in an upcoming Science Buddies newsletter!

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