Pernicious Anemia

views updated May 17 2018

Pernicious Anemia

Definition

Pernicious anemia is a disease in which the red blood cells are abnormally formed, due to an inability to absorb vitamin B12. True pernicious anemia refers specifically to a disorder of atrophied parietal cells leading to absent intrinsic factor, resulting in an inability to absorb B12.

Description

Vitamin B12, or cobalamin, plays an important role in the development of red blood cells. It is found in significant quantities in liver, meats, milk and milk products, and legumes. During the course of the digestion of foods containing B12, the B12 becomes attached to a substance called intrinsic factor. Intrinsic factor is produced by parietal cells that line the stomach. The B12-intrinsic factor complex then enters the intestine, where the vitamin is absorbed into the bloodstream. In fact, B12 can only be absorbed when it is attached to intrinsic factor.

In pernicious anemia, the parietal cells stop producing intrinsic factor. The intestine is then completely unable to absorb B12. So, the vitamin passes out of the body as waste. Although the body has significant amounts of stored B12, this will eventually be used up. At this point, the symptoms of pernicious anemia will develop.

Pernicious anemia is most common among people from northern Europe and among African Americans. It is far less frequently seen among people from southern Europe and Asia. Pernicious anemia occurs in equal numbers in both men and women. Most patients with pernicious anemia are older, usually over 60. Occasionally, a child will have an inherited condition that results in defective intrinsic factor. Pernicious anemia seems to run in families, so that anyone with a relative diagnosed with the disease has a greater likelihood of developing it as well.

Causes and symptoms

Intrinsic factor is produced by specialized cells within the stomach called parietal cells. When these parietal cells shrink in size (atrophy), they produce less and less intrinsic factor. Eventually, the parietal cells stop functioning altogether. Other important products of parietal cells are also lessened, including stomach acid, and an enzyme involved in the digestion of proteins.

People with pernicious anemia seem to have a greater chance of having certain other conditions. These conditions include autoimmune disorders, particularly those affecting the thyroid, parathyroid, and adrenals. It is thought that the immune system, already out of control in these diseases, incorrectly becomes directed against the parietal cells. Ultimately, the parietal cells seem to be destroyed by the actions of the immune system.

As noted, true pernicious anemia refers specifically to a disorder of atrophied parietal cells leading to absent intrinsic factor, resulting in an inability to absorb B12. However, there are other related conditions that result in decreased absorption of B12. These conditions cause the same types of symptoms as true pernicious anemia. Other conditions that interfere with either the production of intrinsic factor, or the body's use of B12, include conditions that require surgical removal of the stomach, or poisonings with corrosive substances which destroy the lining of the stomach. Certain structural defects of the intestinal system can result in an overgrowth of normal bacteria. These bacteria then absorb B12 themselves, for use in their own growth. Intestinal worms (especially one called fish tapeworm) may also use B12, resulting in anemia. Various conditions that affect the first part of the intestine (the ileum), from which B12 is absorbed, can also cause anemia due to B12 deficiency. These ilium-related disorders include tropical sprue, Whipple's disease, Crohn's disease, tuberculosis, and the Zollinger-Ellison syndrome.

Symptoms of pernicious anemia and decreased B12 affect three systems of the body: the system that is involved in the formation of blood cells (hematopoietic system); the gastrointestinal system; and the nervous system.

The hematopoietic system is harmed because B12 is required for the proper formation of red blood cells. Without B12, red blood cell production is greatly reduced. Those red blood cells that are produced are abnormally large and abnormal in shape. Because red blood cells are responsible for carrying oxygen around the body, decreased numbers (termed anemia) result in a number of symptoms, including fatigue, dizziness, ringing in the ears, pale or yellowish skin, fast heart rate, enlarged heart with an abnormal heart sound (murmur) evident on examination, and chest pain.

Symptoms that affect the gastrointestinal system include a sore and brightly red tongue, loss of appetite, weight loss, diarrhea, and abdominal cramping.

The nervous system is severely affected when pernicious anemia goes untreated. Symptoms include numbness, tingling, or burning in the arms, legs, hands, and feet; muscle weakness; difficulty and loss of balance while walking; changes in reflexes; irritability, confusion, and depression.

Diagnosis

Diagnosis of pernicious anemia is suggested when a blood test reveals abnormally large red blood cells. Many of these will also be abnormally shaped. The earliest, least mature forms of red blood cells (reticulocytes) will also be low in number. White blood cells and platelets may also be decreased in number. Measurements of the quantity of B12 circulating in the bloodstream will be low.

Once these determinations are made, it will be important to diagnose the cause of the anemia. True pernicious anemia means that the parietal cells of the stomach are atrophied, resulting in decreased production of intrinsic factor. This diagnosis is made by the Schilling test. In this test, a patient is given radioactive B12 under two different sets of conditions: once alone, and once attached to intrinsic factor. Normally, large amounts of B12 are absorbed through the intestine, then circulate through the blood, and enter the kidneys, where a certain amount of B12 is then passed out in the urine. When a patient has pernicious anemia, the dose of B12 given by itself will not be absorbed by the intestine, so it will not pass into the urine. Therefore, levels of B12 in the urine will be low. When the B12 is given along with intrinsic factor, the intestine is able to absorb the vitamin. Urine levels of B12 will therefore be higher.

Treatment

Treatment of pernicious anemia requires the administration of lifelong injections of B12. Vitamin B12 given by injection enters the bloodstream directly, and does not require intrinsic factor. At first, injections may need to be given several times a week, in order to build up adequate stores of the vitamin. After this, the injections can be given on a monthly basis. Other substances required for blood cell production may also need to be given, iron and vitamin C.

Prognosis

Prognosis is generally good for patients with pernicious anemia. Many of the symptoms improve within just a few days of beginning treatment, although some of the nervous system symptoms may take up to 18 months to improve. Occasionally, when diagnosis and treatment have been delayed for a long time, some of the nervous system symptoms may be permanent.

Because an increased risk of stomach cancer has been noted in patients with pernicious anemia, careful monitoring is necessary, even when all the symptoms of the original disorder have improved.

Resources

BOOKS

Babior, Bernard M., and H. Franklin Bunn. "Megaloblastic Anemias." In Harrison's Principles of Internal Medicine, edited by Anthony S. Fauci, et al. New York: McGraw-Hill, 1997.

PERIODICALS

Toh, Ban-Hock, et al. "Pernicious Anemia." The New England Journal of Medicine 337, no. 20 (November 13, 1997): 52+.

KEY TERMS

Anemia A condition in which those elements of the blood responsible for oxygen delivery throughout the body (red blood cells, hemoglobin) are decreased in quantity or defective in some way.

Atrophy Refers to the shrinking in size of an organ or cell.

Autoimmune disorder A disorder in which the immune system, (responsible for fighting off such foreign invaders as bacteria and viruses), begins to attack and damage a part of the body as if it were foreign.

Hematopoietic system The system in the body which is responsible for the production of blood cells.

Intrinsic factor A substance produced by the parietal cells of the stomach. In order to be absorbed by the intestine, vitamin B12 must form a complex with intrinsic factor.

Parietal cells Specific cells which line the inside of the stomach. These cells are responsible for producing intrinsic factor and hydrochloric acid.

Reticulocyte An early, immature form of a red blood cell. Over time, the reticulocyte develops to become a mature, oxygen-carrying red blood cell.

anaemia, pernicious

views updated Jun 11 2018

anaemia, pernicious Anaemia due to deficiency of vitamin B12, most commonly as a result of failure to absorb the vitamin from the diet. There is release into the circulation of immature precursors of red blood cells, the same type of megaloblastic anaemia as is seen in folic acid deficiency. There is also progressive damage to the spinal cord (sub‐acute combined degeneration), which is not reversed on restoring the vitamin. The underlying cause of the condition may be the production of antibodies against either the intrinsic factor that is required for absorption of the vitamin, or the cells of the gastric mucosa that secrete intrinsic factor. Atrophy of the gastric mucosa with ageing also impairs vitamin B12 absorption, and causes pernicious anaemia. Dietary deficiency of vitamin B12, leading to a similar anaemia with spinal cord degeneration, may occur in strict vegetarians.

pernicious anemia

views updated May 17 2018

per·ni·cious a·ne·mi·a • n. a deficiency in the production of red blood cells through a lack of vitamin B12.

pernicious anaemia

views updated May 29 2018

pernicious anaemia See vitamin B complex.

pernicious anaemia

views updated Jun 11 2018

pernicious anaemia See anaemia, pernicious.

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