Ferritin; High and Low Ferritin Explained

Ferritin; High and low ferritin explained

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Ferritin is a protein found in the cells of most living organisms. It binds to iron and plays a major role in storing iron in the human body. Iron a is an important part of hemoglobin, a protein molecule that carries oxygen in red blood cells and delivers it to the cells of the body. The body is dependent on iron to produce normal amounts of hemoglobin.

Iron stores in the body exist primarily in the form of ferritin. If iron stores are reduced, the body may not be able to produce enough hemoglobin to meet the demands of the cells. This will be reflected in low ferritin levels.

Anemia is usually defined as a decrease in red blood cells or hemoglobin in the blood. Although low iron levels may cause anemia, too much iron may also cause health problems. Iron overload is a relatively common condition.

What is Ferritin?

Ferritin is a protein that stores iron in the body. It is found in virtually all cells of the body, and only a relatively small fraction is found circulating in blood. The greatest amount is found in liver cells and cells of the immune system.

Transferrin is a protein that carries ferritin in blood. When the body needs more hemoglobin and red blood cells, it will signal cells to release ferritin which is then transported by transferrin to make iron available for the production of hemoglobin and red blood cells.

Hence, the primary role of ferritin is to store iron in cells and deliver it safely to areas where it is required.

Ferritin can easily be measured in blood. The levels correlate with the total amount of iron stored in the body. Hence, serum ferritin reflects the body’s iron stores.

In general, low ferritin suggests iron deficiency whereas high levels may suggest iron overload in the body. However, elevated levels are often found in the absence of iron overload.

Serum ferritin levels are used to diagnose and monitor iron deficiency, to differentiate iron deficiency from other causes of anemia, to diagnose iron overload, and to monitor iron depletion therapy.

Normal Values for Ferritin

Ferritin levels tend to increase with age and levels the level is higher in men than women.

The reference range for ferritin is as follows:

  • Males: 23-336 ng/mL
  • Females: 11-306 ng/mL


Low Ferritin – What Does it Mean?

Low ferritin levels are usually associated with iron deficiency caused by blood loss or lack of iron in the diet.

Common causes of blood loss leading to low ferritin levels are long-term blood loss from heavy menstrual bleeding or bleedings from the gastrointestinal tract. The latter can be a result of ulcers, inflammation or cancer of the stomach, small intestine or colon. Sometimes blood loss may be from hemorrhoids.

Low serum ferritin typically reflects iron deficiency anemia (1), but may also be caused by celiac disease, hypothyroidism, and vitamin C deficiency.

One study showed that low serum ferritin levels, resulting from iron deficiency, were found in 19% of vegetarians (2).

Common symptoms associated with low ferritin levels are fatigue, headache, dizziness, and unexplained weakness.

High Ferritin – What Does it Mean?

In the clinical setting, high ferritin levels either suggest iron excess or an inflammatory reaction in which ferritin is increased without iron excess.

Very high levels may indicate buildup of iron in the body. Hemochromatosis is an autosomal-recessive genetic disorder of iron metabolism characterized by very high levels of ferritin (3).

Obesity, inflammation, and daily alcohol intake may also cause high ferritin levels. It may also be elevated in females with anorexia nervosa (4). This is most likely due to increased iron storage secondary to the contraction of the circulating blood volume and reduced iron losses from less menstrual bleeding

Symptoms of excess iron overload may include fatigue, unexplained weakness, and joint pain.

If ferritin levels are elevated, other tests may be performed to provide more information about the body’s iron stores. The most common tests are serum iron and total iron binding capacity (TIBC). TIBC reflects the level of transferrin.

Transferrin Saturation

The transferrin saturation can help differentiate between iron overload and other causes of elevated ferritin. Transferrin saturation is the ratio of serum iron and TIBC (serum iron/TIBC). Transferrin saturation is high in patients with hereditary hemochromatosis, typically > 45% and sometimes >55%.

Ferritin as Acute Phase Reactant

Ferritin is also known as an acute phase reactant implying that when inflammation is present, its levels will rise (5). Hence, levels are often raised in patients with infections, some cancers, such as Hodgkin’s lymphoma and leukemia, and conditions such as rheumatoid arthritis and systemic lupus erythematosus.

Ferritin is typically elevated in adult-onset Still’s disease, systemic juvenile osteoarthritis, and hematophagocytic lymphohistiocytosis (6).

Conditions Associated with Increased Ferritin Level

Elevated serum ferritin is commonly encountered in general practice (7). The first step is to exclude conditions related to iron overload such as hereditary hemochromatosis. Ninety percent of elevated ferritin is not due to iron overload.

If hereditary hemochromatosis is excluded, investigation should aim at identifying alcohol consumption, metabolic syndrome, obesity, liver disease, cancer, infection or inflammation as causative factors.

Ferritin levels are increased in the following (8):

  • Acute and chronic liver disease
  • Infection
  • Inflammation
  • Alcoholism
  • Cancer
  • Hyperthyroidism
  • Gaucher disease
  • Iron overload (hemochromatosis)
  • End-stage renal disease
  • Anemia other than iron deficiency

High ferritin has been associated with the metabolic syndrome, hyperinsulinemia and non-alcoholic fatty liver disease (9). In women, ferritin levels increase significantly after menopause and may carry increased risk of osteoporosis (10).

Hereditary Hemochromatosis

Hereditary hemochromatosis is an autosomal recessive condition of progressive iron overload, commonly caused by homozygosity for the C282Y mutation in the HFE gene.

The C282Y mutation causes inappropriately increased intestinal iron absorption causing iron overload in the body due to genetic changes compromising the synthesis or activity of hepcidin, the iron hormone

Similar to type 1 diabetes being a disorder of glucose metabolism caused by insulin deficiency, hemochromatosis is a metabolic condition of iron metabolism due to hepcidin deficiency (11).

Approximately 1 in 200 people are homozygous for the C282Y mutation. The mutation has a higher penetrance than the H6RD mutation.

Hereditary hemochromatosis confers risk of organ damage due to iron overload, including liver damage, liver cirrhosis and cancer of the liver, irregular heartbeat (arrhythmia), heart muscle disorders (cardiomyopathy), diabetes, arthritis, and a brownish pigmentation of the skin.

The most useful blood tests in the evaluation of iron overload due to hereditary hemochromatosis are serum ferritin and transferrin saturation. A transferrin saturation

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