Poison is in everything, and no thing is without poison. The dosage makes it either a poison or a remedy.
Paracelsus. Swiss-German physician (1493-1541)
Iron is present in abundant quantities in the earth’s core and crust, in the sun, the stars and meteorites – and inside all living things. In humans, iron carries oxygen to all the body’s cells, carries carbon dioxide back to the lungs, enables many chemical reactions related to energy production, and binds oxygen inside for use in muscle cells. It is a vital nutrient – a substance that must be part of the diet, but also one which the body cannot excrete except by losing blood and skin cells. Both too little iron and too much iron present us with problems.
Where the body puts iron
Iron is absorbed from food in the upper part of the small intestine. Specialized proteins
carry it in the blood and store it in the liver and other organs. Ten percent of total body
iron is attached to myoglobin in muscles, 25 percent is stored in the liver and in specialized cells throughout the body, and the major portion, 65 percent, is bound to hemoglobin inside red blood cells. Hemoglobin-bound iron is constantly recycled as old red blood cells are destroyed and new ones are made.
Iron absorption from food – a tightly regulated process
Iron must be bound to proteins or it excites free radical damage in cells. When all of the protein binding sites for hemoglobin in the body are filled, the liver sends a signal to the small intestine to decrease the amount of iron taken in from food. This regulation of iron absorption is a very sensitive and tightly regulated process in which a message is sent to the intestines conveying how much iron is already in the body. That amount determines how much or how little iron is absorbed from food. This feedback loop is necessary because, beyond minor blood loss and regular shedding of skin and bowel cells, the body has no way to get rid of extra iron. Most health problems related to iron come from too little iron in the diet, from too much iron, delivered intravenously in the form of blood transfusions, or from genetic defects in the feedback loop that tells the intestines how much iron to take in.
Too Little Iron
Deficiency of iron in the body causes weakness, fatigue, and shortness of breath because of inability to carry enough oxygen in the blood and failure to produce required energy. Skin and nail beds are pale because mature red blood cell production is limited (iron deficiency anemia). Dizziness and fainting upon standing up can occur.
Iron deficiency comes about because dietary iron is insufficient to make up normal losses of iron through menstrual blood loss , or abnormal losses that might occur chronically, such as from an unsuspected stomach inflammation, an intestinal tumor or abnormally heavy menstrual bleeding.
Who becomes iron deficient?
Dietary iron deficiency is very common, especially in people who restrict calories, avoid meat or have poor diets. Women of childbearing age, children and the elderly of both sexes are the most at risk. Dietary deficiency can also be aggravated by increased need for iron, as in pregnancy and childhood growth. While many foods contain iron, it is better absorbed from animal sources like beef, chicken liver, fish and mollusks than from plant based sources like spinach and beans. Iron absorption also requires an acid environment, which acid relieving drugs block.
Iron deficiency in post-menopausal women or in men of any age group always raises suspicion of low grade, unsuspected blood loss, which usually comes from the gastrointestinal tract. Causes are gastritis (often from use of anti-inflammatory drugs), ulcers, colitis, diverticulitis, tumors and rare vascular malformations are all causes. Black, tarry and metallic smelling stool is often a clue.
Replenishing iron stores
Treatment of iron deficiency requires improving diet and finding and correcting sources of blood loss. Iron is better absorbed by the stomach from food than it is from pills. Red meat is the best source. But iron supplements are necessary when iron deficiency has caused symptoms. Several different versions of iron supplements may have to be tried – ferrous sulfate is the most commonly prescribed, but can be hard on the stomach. Ferrous gluconate may cause less nausea and stomach upset. Ferrous fumarate contains more iron per pill. The addition of Vitamin C to the diet helps absorption of iron supplements and iron can also be delivered by injection if dietary methods and oral suuplements fail.
Too Much Iron
Iron overload is called hemochromatosis and its symptoms come from damage to the cells in which iron is stored once the normal iron binding proteins can hold no more. The damage is very slow and cumulative and the liver and the heart bear the brunt. Testicles and thyroid gland are also storage sites. Skin storage may cause the patient to look inappropriately tanned, but weakness, lassitude, weight loss, shortness of with breath and abdominal pain typically bring the patient to the doctor.
Transfusion-related iron overload
Hemochromatosis can be caused by repetitive transfusions of blood. Transfusion related hemochromatosis afflicts patients with bone marrow diseases such as myelofibrosis and multiple myeloma. Repeated transfusions are the treatment for severe anemia in these patients and each unit of packed red blood cells delivers enough iron for six months. Iron overload begins to develop quickly.
Hereditary hemochromatosis
Hemochromatosis can also be caused by a genetic problem in which too much iron is absorbed. This hereditary version of hemochromatosis occurs in about 5 in 1000 people in the US. Caucasians are more susceptible than other races. While men and women are affected equally, men typically develop symptoms in their 30s or 40s, a decade or two earlier than women, because women are able to shed iron on a monthly basis until menopause.
Hemochromatosis is treated by regular bleeding, performed in the same way that blood donations are collected. But bleeding is not suitable treatment for patients whose severe anemia is the problem that forces them to receive repeated blood transfusions. The only option for them is chelation of the iron with drugs that bind iron in the blood and carry it out of the body, a difficult and time consuming process, but one that lengthens survival time. A new oral drug may soon make the process easier. At this time in medical history though, using iron as a remedy is easier than treating iron as a poison.
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