Iron deficiency anemia laboratory findings: Difference between revisions

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Iron status can be assessed through several laboratory tests. Since, each test assesses a different aspect of iron metabolism, results of one test may not always agree with results of other tests. Hematological tests based on characteristics of red blood cells (i.e., Hb concentration, hematocrit, mean cell volume, and red blood cell distribution width) are generally more available and less expensive than are biochemical tests. Biochemical tests (i.e., erythrocyte protoporphyrin concentration, serum ferritin concentration, and transferrin saturation), however, detect earlier changes in iron status.

Laboratory Findings

General facts

Iron studies are done to confirm iron deficiency in the patient with microcytic anemia. There are five tests usually performed in the patient with suspected iron deficiency.7

•Serum iron: fluctuates daily; will be low in iron deficiency •Transferrin: the glycoprotein that delivers iron to tissues; will be elevated in iron deficiency •Total iron binding capacity (TIBC): reflects the total amount of transferrin that is in the blood, as well as a measure of the available binding sites for iron. Elevated in iron deficiency. •Transferrin saturation: derived by dividing the serum iron by the TIBC. Decreased in iron deficiency. •Ferritin: the chief iron storage protein in the body, reflecting the reticuloendothelial storage of iron. Ferritin levels correlate with total body iron stores, but ferritin also acts as an acute phase reactant (and can be unreliable in the presence of an inflammatory illness). Serum ferritin is low in iron deficiency.

• Although all of these tests can be used to assess iron status, no single test is accepted for diagnosing iron deficiency.
• Lack of standardization among the tests and a paucity of laboratory proficiency testing limit comparison of results between laboratories.
• Laboratory proficiency testing is currently available for measuring Hb concentration, hematocrit, red blood cell count, serum ferritin concentration, and serum iron concentration, total iron-binding capacity, erthrocyte protoporphryin concentration.
• Regardless of whether test standardization and proficiency testing become routine, better understanding among health-care providers about the strengths and limitations of each test is necessary to improve screening for and diagnosis of iron-deficiency anemia, especially because the results from all of these tests can be affected by factors other than iron status.
• Because of their low cost and the ease and rapidity in performing them, the tests most commonly used to screen for iron deficiency are Hb concentration and Hct).
• These measures reflect the amount of functional iron in the body.
• The concentration of the iron-containing protein Hb in circulating red blood cells is the more direct and sensitive measure.
• Hct indicates the proportion of whole blood occupied by the red blood cells; it falls only after the Hb concentration falls.
• Since, changes in Hb concentration and Hct occur only at the late stages of iron deficiency, both tests are late indicators of iron deficiency.

Anemia will be diagnosed on the basis of suggestive symptoms, or found on the basis of routine testing, which includes a complete blood count (CBC). A sufficiently low hemoglobin or hematocrit value is diagnostic of anemia, and further studies will be undertaken to determine its cause. One of the first abnormal values to be noted on a CBC will be a high red blood cell distribution width (RDW), reflecting a varied size distribution of red blood cells. A low MCV, MCH or MCHC, and the appearance of the RBCs on visual examination of a peripheral blood smear will narrow the diagnosis to a microcytic anaemia. Microcytic anemia can also be the result of malabsorption phenomena associated with gluten-sensitive enteropathy/coeliac disease.

The diagnosis of iron deficiency anemia will be suggested by appropriate history (e.g., anemia in a menstruating woman), and by such diagnostic tests as a low serum ferritin, a low serum iron level, an elevated serum transferrin and a high total iron binding capacity (TIBC). Serum ferritin is the most sensitive lab test for iron deficiency anemia.^[1]

Iron deficient anemia and Thalassemia Minor present with many of the same lab results. It is very important not to treat a patient with Thalassemia with an iron supplement as this can lead to hemochromatosis (accumulation of iron in the liver) A hemoglobin electrophoresis would provide useful evidence in distinguishing these two conditions, along with iron studies.

• A full blood count would likely reveal microcytic anemia ^[2]

• Low serum ferritin
• Low serum iron
• High TIBC (total iron binding capacity)
• It is possible that the fecal occult blood test might be positive, if iron deficiency is the result of gastrointestinal bleeding.

As always, laboratory values have to be interpreted with the lab's reference values in mind and considering all aspects of the individual clinical situation.

Serum ferritin can be elevated in inflammatory conditions and so a normal serum ferritin may not always exclude iron deficiency.

References

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