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The Implications Of Clotting In A Heart Attack

Some clots are necessary for our body to perform repairs. Others can lead to death.


Dr Joel Yong

5 months ago | 4 min read

Some clots are necessary for our body to perform repairs. Others can lead to death. That’s worse.

Our blood is a very unique fluid. It doesn’t just contain water. It contains a whole load of other dissolved substances such as proteins, electrolytes, and vitamins, as well as other insoluble components such as the red blood cells.

As such, our blood can do a lot of things that other fluids can’t really do — and that is chiefly because of what else is inside our blood.

One of the major things that our blood can do is to clot.

When we accidentally cut ourselves with a sharp object, for instance, our blood will leak out from the blood vessels that have been injured.

If the leak isn’t plugged up, we’d be continuously leaking blood with every pumping action that our heart makes. The larger the cut, the more quickly we’d be losing blood from the circulatory systems.

And that’s where we call on the platelet cells

The platelets are cells in our blood that facilitate clotting. According to the University of Rochester Medical Center, “a normal platelet count is 150,000 to 450,000 platelets per microliter of blood.”

When we cut ourselves, a pro-inflammatory signal is released (accompanied by the symptoms of pain and swelling around the injured area), telling the platelet cells in the vicinity to swarm the site of injury and form a plug to prevent any further loss of blood.

Prothrombin is an enzyme that is produced within our liver that facilitates clotting. It is cleaved by the prothrombinase enzyme into its active form, thrombin.

It is the presence of this thrombin that signals the platelets to clump together and form a clot. In addition, fibrinogen proteins that are dissolved in the blood can be converted by thrombin into insoluble fibrin to bolster the mechanical strength of the clot and prevent premature clot ruptures.

The activation of the clotting mechanism also causes the platelets to produce thromboxane, which further promotes clotting by acting as a positive feedback mediator to recruit even more platelets to the site of damage.

When the cut has been repaired, the clot has to be eliminated. During the period of injury, there is a flood of pro-inflammatory cytokines being released into the blood — the platelets also facilitate the release of those cytokines.

During the recovery period, though, there has to be a balancing effect with the release of more anti-inflammatory cytokines by the immune system’s cells to quell the raging effects of the pro-inflammatory cytokines.

The plasmin enzyme is activated to start degrading the fibrin when the anti-inflammatory cytokine concentrations increase, such that the clot can be broken down and digested up, and everything resumes normalcy from there.

The only evidence that is left after a large cut is a scar, whereas smaller cuts may not leave visible scars at all.

The regulation of the clotting and the clot removal process is heavily dependent on how well the inflammatory signal is regulated.

As we can see, clot formation and clot removal are highly regulated biochemical processes.

We don’t want clots to form too readily. Neither do we want clots to dissolve too easily.

It’s the Goldilocks principle at work again:

Part of the Goldilocks principle with regards to clot formation can be found in our diet, as this article states:

Indeed, the Inuit, with their high intake of long-chain omega-3s, have been noted to have a lower platelet count, reduced platelet reactivity, prolonged bleeding times and a lower ratio of proaggregatory thromboxanes versus antiaggregatory prostacyclins.

Maintaining a good dietary ratio of omega-3 fatty acids to omega-6 fatty acids supports a reduced platelet reactivity and a lower incidence of clotting. We don’t want too much omega-3s, which is anti-clotting, and we don’t want too much omega-6s either, which facilitates clotting.

Unfortunately, the modern diet that most people are consuming is much higher in omega-6 fatty acids than it is in omega-3 fatty acids, which facilitate thromboxane activity, and hence contribute to a higher incidence of clotting. The dietary ratio is important here.

This enhanced clotting activity poses a problem in people with chronic inflammatory diseases.

Hence aspirin is prescribed as a blood-thinning medication for people suffering from heart disease:

People who are experiencing heart disease would not desire a better clotting activity. They’d be even more fearful about it.

Aspirin works by inhibiting the cyclooxygenase (COX) enzymes from synthesising thromboxane from arachidonic acid (the most common omega-6 fatty acid that is found in our body), hence facilitating a reduction in clotting activity.

Though, of course, aspirin only controls one facet of heart disease.

There are so many other biochemical factors that aspirin has nothing to do with:

The problem with the plaque rupturing is that those plaque contents will be swarmed by platelets and clotted, and the clot formation is facilitated by higher than usual levels of thromboxane in the blood in a pro-inflammatory state.

The more reactive the platelets, the bigger the clot, and if it…

1. Blocks a major artery supplying blood to the heart, we’d see a heart attack.

2. Blocks an artery going up to the brain, we’d see a stroke.

3. Blocks the major vein returning blood from our legs to our heart, we’d see deep vein thrombosis.

When people say that omega-3 fatty acids are important for heart health, they’re not wrong… but omega-3 fatty acids aren’t the only essential nutrient.

The complexity of our body necessitates far more nutrient support than just omega-3 fatty acids in supporting heart health. Here are 10 Nutrients That Support A Healthy Heart.


Created by

Dr Joel Yong


Educator | Biochemical Scientist

Deconstructing the interconnectedness between health and business. Join my mailing list at or book a one-on-one consultation session with me at







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