How Inflammation Affects Your Iron Levels

Understanding the link between inflammation and iron deficiency

Ashley Reaver
By Ashley Reaver
Jovan Mijailovic
Edited by Jovan Mijailovic

Updated December 6, 2023.

a woman in a black tank top holding her shoulder as she feels soreness and inflammation

Measuring your iron levels to make sure you are meeting your needs is key. After all, you can’t monitor what you don’t measure. But even we’ll admit—not all science is easily translated into plain English. That’s exactly what we strive to do here at InsideTracker.

One factor that you may not have expected to affect your iron group is inflammation. Here’s what you need to know.



What is an iron group?

Your iron group is comprised of five biomarkers: ferritin, hemoglobin, TS, blood iron, and total iron binding capacity. These five markers measure things like iron storage, the amount of iron your blood can carry, and the amount of oxygen your blood can circulate throughout your body. Tracking your iron group can give you a view into whether you're meeting, exceeding, or falling short of your body's iron needs.

Iron Groups


» Learn all about the biomarkers in your iron group

Why does inflammation matter?

In 2000, scientists discovered a compound called hepcidin and deemed it the “Master Regulator” of iron metabolism. [1] Essentially, hepcidin controls whether iron can get into and out of cells (via ferroportin, the main channel for iron flux into and out of cells). [2] This affects a few key processes related to iron metabolism:

  • Iron absorption from the digestive tract
  • Iron recycling from damaged cells
  • Utilization of iron from ferritin stores

» Find out what are the best markers of inflammation

Why does hepcidin increase in inflammation?

Typically, hepcidin levels are increased when there is a high level of circulating iron. This reduces the absorption of iron from the diet, reduces the amount of recycled iron released into the system, and converts more iron into the storage form, ferritin. All of this helps to protect the body from iron overload.

Inflammation can also cause hepcidin production to increase. [3] The increase in response to inflammation helps our bodies defend against invading pathogens. Foreign invaders, like bacteria and viruses, need iron to survive and thrive just like we do. Therefore, the body responds by increasing hepcidin and removing a lot of iron from circulation so it is not available to “the invaders,” essentially stunting their ability to grow and replicate. The result? A lot of iron being put into storage and converted to ferritin.

Ferritin is usually a good measure of overall iron status, but in the presence of inflammation, it functions as an immune response, not as a marker of iron status.




How to measure inflammation

At InsideTracker, markers of inflammation include high-sensitivity C-reactive protein (hsCRP) and white blood cell (WBC) count. We measure hsCRP because it is a more stable marker of inflammation than other frequently measured inflammatory markers (like IL-6) and has a substantial amount of research on improvement from lifestyle changes. Like IL-6, hsCRP spikes after strenuous exercise. It typically peaks 24 hours post-exercise and returns to normal around 72 hours. [4, 5, 6, 7]

Elevations in hsCRP that cannot be attributed to strenuous exercise may be caused by a number of other issues. For our users, the typical reason is a nagging injury. Other causes can be hormonal birth control, obesity, autoimmune disease, or poor diet and lifestyle. [8, 9, 10]

Elevations in white blood cell markers can also signify that your body is battling an infection, which is mounting an immune response. This usually includes an increase in inflammatory compounds to help fight the invading organism and can lead to similar effects on the iron group.

The white blood cell count is made up of 5 different types of white blood cells and each responds to a different type of threat (bacterial, viral, parasitic, allergy, or chronic inflammation).

» Read more about white blood cells tested in the complete blood count (CBC)

How to interpret your iron group

If your inflammation levels are high and your ferritin is in the optimal zone, look at your total iron binding capacity, or TIBC, level. TIBC is similar to transferrin, a major iron-transporting protein. High levels of TIBC and transferrin indicate high levels of iron binding capacity—in other words, your body has a lot of feelers out for iron to absorb and you should increase your intake of iron. [3, 11]

Normal ferritin levels with normal TIBC levels is a good indication that you are likely meeting your iron needs, regardless of inflammation.

Normal ferritin with high levels of TIBC can indicate that you aren’t getting enough iron.

total iron binding capacity | insidetracker


In fact, for female InsideTracker users with optimal levels of ferritin, the average TIBC level was significantly higher for those with hsCRP levels greater than 1 mg/L compared to females with hsCRP below 1 mg/L (p<0.001).

Another interesting scenario is a sharp drop in serum iron and TS with subsequent increases in WBC or hsCRP.

Since a spike in hepcidin caused by inflammation or infection causes iron to be removed from circulation, these are expected fluctuations and will likely resolve themselves after the inflammation has subsided. [3]

TIBC level for female insidetracker users with optimal ferritin based on hscrp | insidetracker chart


Optimize iron and inflammation levels with InsideTracker

So, do you know what your iron and inflammation levels are? InsideTracker can help you interpret your values and develop a personalized plan for getting them into your optimal range.




References:

[1] Park, Christina H., et al. "Hepcidin, a urinary antimicrobial peptide synthesized in the liver." Journal of Biological Chemistry 276.11 (2001): 7806-7810

[2] https://pubmed.ncbi.nlm.nih.gov/28154410/

[3] https://pubmed.ncbi.nlm.nih.gov/19786207/

[4] https://pubmed.ncbi.nlm.nih.gov/12154195/

[5] https://pubmed.ncbi.nlm.nih.gov/18806550/

[6] https://pubmed.ncbi.nlm.nih.gov/9839076/

[7] https://pubmed.ncbi.nlm.nih.gov/24225901/

[8] https://pubmed.ncbi.nlm.nih.gov/17505154/

[9] https://pubmed.ncbi.nlm.nih.gov/24516611/

[10] https://pubmed.ncbi.nlm.nih.gov/27445361/

[11] https://pubmed.ncbi.nlm.nih.gov/2331526/