Ironing Things Out: What Ferritin Level Should Be Used to Diagnose Iron Deficiency?

The recognition and diagnosis of iron deficiency remains inconsistent amongst health care providers, despite being such a common condition worldwide. The World Health Organization (WHO) recently recommended ferritin thresholds of less than 15 μg/L (adults) and less than 12 μg/L (children) for the diagnosis of iron deficiency, but these thresholds were based largely on expert opinion along with historical studies correlated with absence of bone marrow iron stores.^1,2 

Several experts have questioned the appropriateness of these WHO thresholds.^3,4  In this study, Dr. Zuguo Mei and colleagues propose that changes in markers of iron-deficient erythropoiesis may be used to ascertain more suitable ferritin thresholds for iron deficiency, particularly as iron deficiency may begin and be associated with adverse effects before overt anemia or absence of marrow iron stores occurs.⁵ 

Iron-deficient erythropoiesis refers to the production of red cells despite inadequate iron supply, leading to the production of microcytic and hypochromic cells followed by anemia. When iron-deficient erythropoiesis occurs, the body also induces the production of the surface transferrin receptor, and some of this molecule circulates in the blood as soluble transferrin receptor (sTfR) which serves as a biomarker of iron deficiency.^6,7 

In this physiological, serial, cross-section study, the authors examined the relationship between these two biomarkers of iron deficient erythropoiesis (hemoglobin and sTfR) and ferritin levels, at the population level. They analyzed biomarker data from the National Health and Nutrition Examination Surveys (NHANES) during three time periods (2003-2006, 2007-2010, and 2015-2018) in children (n = 2,569) and nonpregnant women (n = 7,498) for this analysis. The new ferritin thresholds were determined by using restricted cubic spline regression models to ascertain the relationship between changes in these biomarkers and ferritin levels. They included premenopausal, nonpregnant women (age, 15-49 years) and children (age, 12-59 months) in this analysis. They excluded individuals who would be suspected of having spurious ferritin levels for comorbid illnesses (e.g., white blood cells > 10 × 10⁹/L as surrogate for infection, C-reactive protein > 5.0 mg/L for chronic inflammation, alanine transaminase or aspartate aminotransferase > 70 IU/L for liver disease).

In adults, the authors found that the ferritin threshold at which hemoglobin concentration plateaued and the sTfR value reached its minimal point was approximately 25 μg/L, whereas for children the threshold value was approximately 20 μg/L. These thresholds were relatively consistent across the three time periods observed, though in adults the ferritin overall was lower between 2015 and 2018. These thresholds overall were higher than those recommended by the WHO guideline.¹ 

There were some limitations with this study. Ferritin is an acute phase reactant, and though the authors attempted to screen and exclude for patients with infection, liver, dysfunction, and inflammatory disease, the methods for doing this were imperfect. The study also could not adjust for variations in ferritin assays used.