Skip to main content

Macrocytic achylic anemia ( Congenital pernicious anemia - Juvenile pernicious anemia; Vitamin B12 deficiency (malabsorption)


Macrocytic achylic anemia 

 

( Congenital pernicious anemia - Juvenile pernicious anemia; Vitamin B12 deficiency (malabsorption) -

Complications 

Definition  - Causes, incidence, and risk factors - SymptomsSigns and tests  -  Treatment - Expectations (prognosis)  - Complications  - Calling your health care provider  -  Prevention 

 

Definition    

Pernicious anemia is caused by a lack of intrinsic factor, a substance needed to absorb vitamin B12 from the gastrointestinal tract. Vitamin B12, in turn, is necessary for the formation of red blood cells. Anemia is a condition where red blood cells are not providing adequate oxygen to body tissues. There are many types and causes of anemia. (See the general article - anemia)

Pernicious anemia is a type of megaloblastic anemia

 

 

Causes, incidence, and risk factors   

 

Intrinsic factor is a protein the body uses to absorb vitamin B12. When gastric secretions do not have enough intrinsic factor, vitamin B12 is not adequately absorbed, resulting in pernicious anemia and other problems related to low levels of vitamin B12.

Because vitamin B12 is needed by nerve cells and blood cells for them to function properly, deficiency can cause a wide variety of symptoms, including fatigue, shortness of breath, tingling sensations, difficulty walking, and diarrhea.

Other causes of low levels of intrinsic factor (and thus of pernicious anemia) include atrophic gastric mucosa, autoimmunity against gastric parietal cells, and autoimmunity against intrinsic factor.

Absence of intrinsic factor itself is the most common cause of vitamin B12 deficiency. Intrinsic factor is produced by cells within the stomach. In adults, the inability to make intrinsic factor can be the result of chronic gastritis or the result of surgery to remove the stomach. The onset of the disease is slow and may span decades.

Very rarely, infants and children are found to have been born lacking the ability to produce effective intrinsic factor. This form of congenital pernicious anemia is inherited as an autosomal recessive disorder. (You need a defective gene from both parents to get it.) However, most often, pernicious anemia and other forms of megaloblastic anemia in children results from other causes of vitamin B12 deficiency or other vitamin deficiencies.

Although a juvenile form of the disease can occur in children, pernicious anemia usually does not appear before the age of 30. The average age at diagnosis is 60 years. In fact, one recent study revealed that nearly 2 percent of individuals over 60 years old suffer from pernicious anemia. Furthermore, slightly more women than men are affected. The disease can affect all racial groups, but occurs more often among people of Scandinavian or Northern European descent.

Risk factors include a family history of pernicious anemia, Scandinavian or Northern European descent, and a history of autoimmune endocrine disorders. Pernicious anemia is seen in association with some autoimmune endocrine diseases such as type 1 diabetes, hypoparathyroidism, Addison's disease, hypopituitarism, testicular dysfunction, Graves disease, chronic thyroiditis, myasthenia gravis, secondary amenorrhea and vitiligo.

In addition to pernicious anemia, other causes of vitamin B12 Deficiency include:


  • Nutrition (strict vegetarians without B12 supplementation, poor diet in infant, or poor maternal nutrition during pregnancy)

  • Infection (intestinal parasites, bacterial overgrowth)

  • Gastrointestinal disease (stomach removal surgery, celiac disease (sprue), Crohn's disease)

  • Drugs (colchicine, neomycin, tuberculosis treatment with para amino salicylic acid)

  • Metabolic disorders (methylmalonic aciduria, homocystinuria) 

 

Symptoms  

  

Many cells in our body need vitamin B12, including nerve cells and blood cells. Inadequate vitamin B12 gradually affects sensory and motor nerves, causing neurological problems to develop over time. It is important to know that the neurological effects of vitamin B12 deficiency may be seen before anemia is diagnosed.

The anemia also affects the gastrointestinal system and the cardiovascular system. The following symptoms may indicate pernicious anemia:

  • shortness of breath

  • fatigue

  • pallor

  • rapid heart rate

  • loss of appetite

  • diarrhea

  • tingling and numbness of hands and feet

  • sore mouth

  • unsteady gait, especially in the dark

  • tongue problems

  • smell, impaired

  • gums, bleeding

  • positive Babinski's reflex

  • loss of deep tendon reflexes

  • personality changes, ( megaloblastic madness)

 

 Signs and tests   

 

Tests that may indicate pernicious anemia include:

 

CBC results that show low hematocrit and hemoglobin with elevated MCV (low red blood cell count with large-sized red blood cells)
2 - CBC showing low white blood count and low platelets
3 - low reticulocyte count
4 - bone marrow examination (only needed if diagnosis is unclear)
serum LDH
5 - below normal serum vitamin B-12 level
6 - Schilling test
7 - measurement of serum holotranscobalamin II
8 - measurment of methylmalonic acid (MMA) 

 

This disease may also alter the results of the following tests:

 
- TIBC

 
- peripheral smear

- leukocyte alkaline phosphatase

- gastrin

- cholesterol test


 - bilirubin

 

Treatment   

 

Monthly vitamin B12 injections are the definitive treatment to correct the vitamin B12 deficiency. This therapy corrects the anemia and may correct the neurological complications if given soon enough. Since about 1% of vitamin B12 is absorbed (even in the absence of intrinsic factor), some doctors recommend that elderly patients with gastric atrophy take oral vitamin B12 supplements in addition to monthly injections.

There is also a preparation of vitamin B12 that may be given intranasally (in the nose). A well-balanced diet is essential to provide other elements such as folic acid, iron, and vitamin C for healthy blood cell development.

 

Expectations (prognosis)    

 

The outcome is usually excellent with treatment.

 

Complications   

 

  • People with pernicious anemia may have gastric polyps and have twice the incidence of gastric cancer and gastric carcinoid tumors than the normal population.

  • Persistent neurological defects may be present if treatment is delayed.

  • Vitamin B12 deficiency affects the appearance of all epithelial cells, therefore an untreated woman may obtain a false positive pap smear. 

 

Calling your health care provider    

 

Call your health care provider if symptoms suggestive of vitamin B12 deficiency develop.

 

Prevention    

 

Pernicious anemia is not preventable, but with early detection and treatment of vitamin B12 deficiency, complications are readily controlled.

 



Comments

Popular posts from this blog

MICROSCOPIC URINALYSIS

MICROSCOPIC URINALYSIS   Methodology A sample of well-mixed   urine (usually 10-15 ml) is centrifuged in a test tube at relatively low speed (about 2-3,000 rpm) for 5-10 minutes until a moderately cohesive button is produced at the bottom of the tube. The supernatant is decanted and a volume of 0.2 to 0.5 ml is left inside the tube. The sediment is resuspended in the remaining supernatant by flicking the bottom of the tube several times. A drop of resuspended sediment is poured onto a glass slide and coverslipped.

Liver Enzymes

Liver Enzymes   Definition A liver enzyme is a protein that helps to speed up a chemical reaction in the   liver. Liver function tests are blood tests that are used to evaluate various functions of the liver - for example, metabolism, storage, filtration and excretion, which are often performed by liver enzymes. However, not all liver function tests are measures of enzyme function. • ALT - (alanine aminotransferase )   - was previously called SGPT is more specific for liver damage. The ALT is an enzyme that is produced in the liver cells (hepatocytes) therefore it is more specific for liver disease than some of the other enzymes. It is generally increased in situations where there is damage to the liver cell membranes. All types of liver inflammation can cause raised ALT.    • AST - (aspartate aminotransferase) which was previously called SGOT. This is a mitochondrial enzyme that is also present in heart, muscle, kidney and brain ...

Gamma globulins

Gamma globulins   Increased in immunoglobulins are often referred to as hyper gammaglobulinemia or gammopathies  Hypogammaglobulinemia This most often results from  decreased synthesis , but could also be associated with increased loss .  1 - Decreased synthesis ( High A : G ratio )  a- failure of passive transfer or colostrum deprivation  b - Combined immunodeficiency disease ( Both T & B cells are deficient )  c - Agammaglobulinemia  d - Acquired deficiency associated with inflammation , immunosuppressive drugs or neoplasia