Latent iron deficiency


Latent iron deficiency, also called iron-deficient erythropoiesis, is a medical condition in which there is evidence of iron deficiency without anemia. It is important to assess this condition because individuals with latent iron deficiency may develop iron-deficiency anemia. Additionally, there is some evidence of a decrease in vitality and an increase in fatigue among individuals with LID.

Diagnosis

Diagnostic tests for latent iron deficiency LID

Note: Iron therapy must be suspended 48 hours beforehand to ensure valid test results.
The normal range for hemoglobin is 13.8 to 17.2 grams per deciliter for men and 12.1 to 15.1 g/dL for women. Low hemoglobin indicates anemia but will be normal for LID.
Normal serum iron is between 60 and 170 micrograms per deciliter. Normal total iron-binding capacity for both sexes is 240 to 450 μg/dL. Total iron-binding capacity increases when iron deficiency exists.
Serum ferritin levels reflect the iron stores available in the body. The normal range is 20 to 200 ng/mL for men and 15 to 150 ng/ml for women. Low levels are specific for iron deficiency. However, inflammatory and neoplastic disorders can cause ferritin levels to increase - this may be seen in cases of hepatitis, leukemia, Hodgkin lymphoma, and GI tract tumors.
The most sensitive and specific criterion for iron-deficient erythropoiesis is depleted iron stores in the bone marrow. However, in practice, a bone marrow examination is rarely needed.

Interpretation of diagnostic test results in terms of stage of iron deficiency

LID is present in stage 1 and 2, before anemia occurs in stage 3. These first two stages can be interpreted as depletion of iron stores and reduction of effective iron transport.
Stage 1 is characterized by loss of bone marrow iron stores while hemoglobin and serum iron levels remain normal. Serum ferritin falls to less than 20 ng/mL. Increased iron absorption, a compensatory change, results in an increased amount transferrin and consequent increased iron-binding capacity.
Stage 2 - Erythropoiesis is impaired. In spite of an increased level of transferrin, serum iron level is decreased along with transferrin saturation. Erythropoiesis impairment begins when the serum iron level falls to less than 50 μg/dL and transferrin saturation is less than 16%.
In stage 3, anemia is present but red blood cell appearance remains normal.
Changes in the appearance of red blood cells are the hallmark of stage 4; first microcytosis and then hypochromia develop.
Iron deficiency begins to affect tissues in stage 5, manifesting as symptoms and signs.

Treatment

There is no consensus on how to treat LID but one of the options is to treat it as an iron-deficiency anemia with ferrous sulfate at a dose of 100 mg x day in two doses or 3 mg x Kg x day in children during two or three months. The ideal would be to increase the deposits of body iron, measured as levels of ferritin in serum, trying to achieve a ferritin value between 30 and 100 ng/mL. Another clinical study has shown an increase of ferritin levels in those taking iron compared with others receiving a placebo from persons with LID. With ferritin levels higher than 100 ng/mL an increase in infections, etc. has been reported. Another way to treat LID is with an iron rich diet and in addition ascorbic acid or Vitamin C, contained in many types of fruits as oranges, kiwifruits, etc. that will increase 2 to 5-fold iron absorption.

Epidemiology

There are many studies about LID and the frequency varies according to country of origin, diet, pregnancy status age, gender, etc. Depending on these previous conditions, the frequency can change from 11% in male athletes to 44.7% in children less than 1 year old :
Frequency of LID in different countries and populations: