Omega-3 specials

DHA: what it is used for and how to take it

DHA: what it is used for and how to take it

 

DHA is one of the biologically active Omega 3 fats. But what does it mean? More importantly, what does it do? Let's find out its properties, its health effects and how to take it.

 

The acronym is quite simple: DHA. Those who have taken a supplement of those designed specifically for pregnancy may have read it on its packaging. Others may have heard about it trying to figure out what those "good" fats everyone calls Omega 3 are and what they are used for.

 

Instead, it may be that its extended name(docosahexaenoic acid) sounds less common, but the substance does not change: it is a fat in the Omega 3 series, thus one of those food-derived fats that are not considered hazardous to health, quite the contrary. DHA is recognized for a number of healthful properties, so much so that both the just-mentioned pregnancy supplements and other dietary supplements may carry specific references to its beneficial effects on the label.

 

What is DHA used for?

 

DHA plays an important structural role in the brain. Suffice it to say that it corresponds to 10-20% of the fats in this organ and, among them, more than 90% of Omega 3. Here it becomes part of cell membranes, so it is important for producing new neurons; it also helps them survive.

 

Its very structure, characterized by the presence of double bonds that make it more articulated than the linear, rigid structure of saturated fats, makes the membranes of neurons more fluid, facilitating nerve impulse transmission. In addition, it participates in the growth of axons (i.e., the extensions of neurons through which the nerve impulse travels) and is involved in the formation of synapses (the contacts between neurons that allow the passage of the nerve impulse).

 

Staying with the nervous system, DHA contributes to neuroplasticity, that is, its ability to change its activity and reorganize its structure and functioning in response to stimuli.

 

Precisely because of all these actions, DHA is recognized to promote brain and vision development and functioning from intrauterine life and, then, after birth. Therefore, its requirements increase in pregnancy and lactation.

 

During childhood and adolescence it has been associated with better learning, improved memory, and better cognitive development. However, the benefits to the brain continue even later in life; it even appears that DHA may counteract Alzheimer's in its early stages.

 

And it doesn't end there, because DHA also acts as a precursor to molecules involved in inflammatory processes (the eicosanoids). Compared with eicosanoids produced from other fats (particularly Omega 6) those synthesized using DHA have a tendentially anti-inflammatory effect. In addition, it is also the precursor of molecules that help resolve inflammatory processes.

 

Thus, DHA helps control inflammation, which if it reaches excessive levels or is chronically present would increase health risks. Indeed, there is a known association between inflammation and numerous disorders, for example, cardiometabolic diseases, allergies, and difficulties in recovery after sports activity.

 

Finally, DHA is an ally to heart health (which it supports by promoting its proper functioning and helping to maintain normal triglyceride and blood pressure values).

 



How to tell that you are deficient in Omega 3 and what to eat to get DHA

 

A possible Omega 3 deficiency can be detected with a very small blood draw that can be done completely independently, at home.

 

The blood drawn is used to assess the so-called HS-Omega-3 Index, which provides information on the percentage of DHA and EPA in red blood cells (the Omega -3 Index) and their levels in the blood.

 

The first weapon to avoid these deficiencies or remedy them is diet. The best source of DHA is undoubtedly fatty fish; for example, sardines, tuna, and salmon are rich in it. However, the amount of DHA present in these foods may vary depending on factors such as the age of the fish or its processing; for example, in smoked salmon it is a little more than one third of what there is in fresh salmon.

 

Other varieties of fish are significantly less good sources of DHA because they are, themselves, leaner. Cod, for example, provides only 0.9 grams of fat per pound, for a total of 350 mg of DHA. In contrast, a pound of sardines contains at least 1 gram of DHA.

 

In contrast, terrestrial sources of Omega 3, such as walnuts, are not good sources of DHA. In fact, they contain its precursor (alpha-linolenic acid or ALA), which unfortunately, once absorbed, is not efficiently converted into DHA.

 

ALA is not a biologically active Omega 3 because it does not directly perform the beneficial effects attributed to Omega 3s. Instead, DHA is one of the direct contributors to these effects.

 



When to take DHA and how much EPA and DHA to take per day

 

We should all ensure that we have an adequate intake of DHA at any stage of our lives, first keeping in mind that the minimum Omega 3 requirement is 250 mg per day of DHA + EPA (eicosapentaenoic acid, the other biologically active Omega 3).

 

Meeting this requirement also helps to ensure the proper functioning of the heart. As mentioned, however, requirements increase under some special circumstances:

 

  • During pregnancy and lactation, when the woman needs 100-200 mg more DHA per day;
  • until the age of 2 years, when children need 100 mg more per day.

 

In addition, the amount of Omega 3 to be taken per day also increases if the goal is to control high triglycerides or high blood pressure. Specifically:

 

  • To maintain normal triglycerides, it is necessary to take 2 grams of DHA and EPA daily;
  • 3 grams of DHA and EPA per day is needed to maintain normal blood pressure.

 

Who shouldn't take Omega 3?

 

DHA is considered a generally safe molecule, even when taken in supplement form and at high dosages. From this point of view, the only current recommendation is not to exceed a total daily intake of 5 grams of Omega 3.

 

As a precaution, however, it should be kept in mind that at high doses (e.g., 4 grams per day) Omega 3s can cause a moderate increase in bleeding time, that is, the time it takes to stop bleeding. This increase does not lead to exceeding normal limits and has not been associated with dangerous bleeding. In the case of concomitant treatment with anticoagulants, however, it is advisable to monitor the situation closely, because the dosage of these other drugs may need to be adjusted accordingly.

 

Similarly, Omega 3 intake has been associated with an increase in transaminases. However, this increase also stops within normal limits. The advice, therefore, is to monitor transaminase levels if one is taking Omega 3 (especially at high dosages) and living, at the same time, with a damaged liver.

 

Finally, in case of a fish allergy, DHA cannot be taken in the form, precisely, of fish. Supplements are generally considered safe, especially if they are highly purified. However, for 100 percent safe intake, it is sufficient to rely on products made from other Omega 3-rich marine ingredients, particularlyalgal oil.

 

 

Sources

 

Italian Medicines Agency. bit.ly/3Amuhkk

 

Brenna JT. Efficiency of conversion of alpha-linolenic acid to long chain n-3 fatty acids in man. Curr Opin Clin Nutr Metab Care. 2002 Mar;5(2):127-32. doi: 10.1097/00075197-200203000-00002

 

Calder PC et al. Omega-3 fatty acids and inflammatory processes: from molecules to man. Biochem Soc Trans. 2017 Oct 15;45(5):1105-1115. doi: 10.1042/BST20160474

 

European Commission. Food and Feed Information Portal. Health Claims. Eu Register. Last viewed 22/04/2023.

 

Italian Society of Human Nutrition-SINU, 2014. LARN - Reference intake levels for the Italian population: LIPIDS. https://sinu.it/2019/07/09/lipidi/

 

Weiser MJ et al. Docosahexaenoic Acid and Cognition throughout the Lifespan. Nutrients. 2016 Feb; 8(2): 99. doi: 10.3390/nu8020099.