I am constantly amazed by the lack of understanding by neurologists of basic essential fatty acid biochemistry in the treatment of brain trauma and concussions. They often blindly believe that the only omega-3 fatty acid that has any impact in the treatment of concussions is DHA alone. Their blind faith is based on the observation that you find a lot of DHA in the brain and little EPA. This obviously means that EPA must not be important for brain function. This is similar to stating the world is flat because it appears that way to the naked eye.
I have mentioned many times in my books that EPA and DHA have different functions, and that’s why you need both of these essential omega-3 fatty acids (1-4). This is especially true for the brain. EPA produces most of the anti-inflammatory properties of omega-3 fatty acids since it’s structurally similar to arachidonic acid (AA) as they both contain 20 carbon atoms with approximately the same spatial configuration. As a result, EPA can inhibit the enzymes that would otherwise produce pro-inflammatory eicosanoids from AA. It is AA that generates the inflammation caused by brain trauma. DHA, on the other hand, is primarily a structural component of neural tissue. They do different jobs, and that’s why you need both in combination.
So why isn’t there as much EPA in the brain compared to DHA? The reason is simple. EPA enters the brain just as quickly as DHA, but it is rapidly oxidized, whereas DHA is sent off to long-term storage in neural tissue (5-7). The lifetime of DHA in the human brain is measured in years, whereas the lifetime of the EPA is measured in days. So obviously when you kill an animal and look at the brain, you are not going to find very much EPA.
What complicates the issue is that if you only treat a concussion with DHA, some of the DHA will be converted to EPA. This gives the appearance that DHA is working to reduce inflammation. Since brain trauma and concussions generate inflammation in the brain, doesn’t it make more sense to provide as much EPA as possible to reduce the inflammation as opposed to supplementing only with DHA and hoping some fraction of it will be converted to EPA?
To answer that question, it is useful to look at two recent studies that used the same protocol to study inflammation induced by a concussion injury (8,9). The same total amount of omega-3 fatty acids was used to treat the animals after the concussion injury. One experiment used a 2:1 ratio of EPA to DHA, and the other experiment used only DHA. If the DHA was so important, then the animals treated with the DHA alone should have demonstrated three times the reduction of neuro-inflammation compared to the group that received omega-3 fatty acids containing only one-third as much DHA.
In fact, just the opposite was the case. The 2:1 EPA/DHA group demonstrated greater benefits compared to the DHA-alone group in reducing neuro-inflammation induced by a concussion. Why? EPA is a far more powerful anti-inflammatory agent than DHA. This is why in both studies the AA/EPA ratio was used as the marker of inflammation induced by the concussion injury. Since the AA/EPA ratio was decreased in both studies, this meant that some of the pure DHA was converted to EPA providing at least some anti-inflammatory actions. Thus giving 100 percent DHA is not exactly the most efficient way to decrease neuro-inflammation induced by a concussion injury. This is further emphasized by a recent study that indicated that 1 gram of DHA per day for an 18-month period had no impact in the cognitive improvement of Alzheimer’s patients (10), even though Alzheimer’s is known to be a neuro-inflammatory disease (11).
Does this mean that DHA is not important for brain repair? Of course not. This is because you need both EPA and DHA for optimal repair of brain damage after a concussion. You need the EPA to reduce the neuro-inflammation, and you need the DHA to help rebuild new neurons. But to give DHA alone without additional EPA to maximally reduce neuro-inflammation caused by concussions simply makes no sense.
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