Anemia

 ( Anemias ) 

• Disturbance of proliferation and differentiation of stem cells
• Pure red cell aplasiaTable 12-1 in:
  (2025). 9781416029731, Saunders. ISBN 9781416029731
• Aplastic anemia affects all kinds of . Fanconi anemia is a hereditary disorder or defect featuring aplastic anemia and various other abnormalities.
• Anemia of kidney failure due to insufficient production of the hormone erythropoietin
• Anemia of endocrine disease
• Disturbance of proliferation and maturation of
• Pernicious anemia is a form of megaloblastic anemia due to vitamin B₁₂ deficiency dependent on impaired absorption of vitamin B₁₂. Lack of dietary B₁₂ causes non-pernicious megaloblastic anemia.
• Anemia of folate deficiency, as with vitamin B₁₂, causes megaloblastic anemia
• Anemia of prematurity, by diminished erythropoietin response to declining hematocrit levels, combined with blood loss from laboratory testing, generally occurs in premature infants at two to six weeks of age.
• Iron-deficiency anemia, resulting in deficient heme synthesis
• , causing deficient globin synthesis
• Congenital dyserythropoietic anemias, causing ineffective erythropoiesis
• Anemia of kidney failure (also causing stem cell dysfunction)
• Other mechanisms of impaired RBC production
• Myelophthisic anemia or myelophthisis is a severe type of anemia resulting from the replacement of bone marrow by other materials, such as malignant tumors, fibrosis, or granulomas.
• Myelodysplastic syndrome
• anemia of chronic inflammation
• Leukoerythroblastic anemia is caused by space-occupying lesions in the bone marrow that prevent normal production of blood cells.

• Intrinsic (intracorpuscular) abnormalities cause premature destruction. All of these, except paroxysmal nocturnal hemoglobinuria, are hereditary .
  (2025). 9781416029731, Saunders. ISBN 9781416029731
• Hereditary spherocytosis is a hereditary defect that results in defects in the RBC cell membrane, causing the erythrocytes to be sequestered and destroyed by the spleen.
• Hereditary elliptocytosis is another defect in membrane skeleton proteins.
• Abetalipoproteinemia, causing defects in membrane lipids
• Enzyme deficiencies
• Pyruvate kinase and hexokinase deficiencies, causing defect glycolysis
• Glucose-6-phosphate dehydrogenase deficiency and glutathione synthetase deficiency, causing increased oxidative stress
• Hemoglobinopathies
• Sickle cell anemia
• Hemoglobinopathies causing unstable hemoglobins
• Paroxysmal nocturnal hemoglobinuria
• Extrinsic (extracorpuscular) abnormalities
• Antibody-mediated
• Warm autoimmune hemolytic anemia is caused by an autoimmune attack against red blood cells, primarily by IgG. It is the most common of the autoimmune Hemolysis diseases.
  (2025). 9780721601878, Elsevier Saunders. ISBN 9780721601878
  It can be idiopathic, that is, without any known cause, drug-associated or secondary to another disease such as systemic lupus erythematosus, or a malignancy, such as chronic lymphocytic leukemia. "Autoimmune Hemolytic Anemia (AIHA)" By J.L. Jenkins. The Regional Cancer Center. 2001
• Cold agglutinin hemolytic anemia is primarily mediated by IgM. It can be idiopathic or result from an underlying condition.
• Rh disease, one of the causes of hemolytic disease of the newborn
• Transfusion reaction to blood transfusions
• Mechanical trauma to red blood cells
• Microangiopathic hemolytic anemias, including thrombotic thrombocytopenic purpura and disseminated intravascular coagulation
• Infections, including malaria
• Heart surgery
• Haemodialysis
• Parasitic
• Trypanosoma congolense alters the surfaces of RBCs of its host and this may explain T. c. induced anemia

• Anemia of prematurity, from frequent blood sampling for laboratory testing, combined with insufficient RBC production
• Physical trauma or surgery, causing acute blood loss
• Gastrointestinal tract lesions, causing either acute bleeds (e.g. variceal lesions, peptic ulcers, ) or chronic blood loss (e.g. angiodysplasia)
• Gynecologic disturbances, also generally causing chronic blood loss
• From menstruation, mostly among young women or older women who have fibroma
• Many types of cancers, including colorectal cancer and cancer of the urinary bladder, may cause acute or chronic blood loss, especially at advanced stages
• Infection by intestinal nematodes feeding on blood, such as and the whipworm Trichuris trichiura
• Iatrogenic anemia, blood loss from repeated blood draws and medical procedures.

The roots of the words anemia and ischemia both refer to the basic idea of "lack of blood", but anemia and ischemia are not the same thing in modern medical terminology. The word anemia used alone implies Systemic effect effects from blood that either is too scarce (e.g., blood loss) or is dysfunctional in its oxygen-supplying ability (due to whatever type of hemoglobin or erythrocyte problem). In contrast, the word ischemia refers solely to the lack of blood (poor perfusion). Thus, ischemia in a body part can cause localized anemic effects within those tissues.

• General causes of hypervolemia include excessive sodium or fluid intake, sodium or water retention, and fluid shifts into the intravascular space.
  (2025). 9781582556789, Lippincott Williams & Wilkins. ISBN 9781582556789
• From the sixth week of pregnancy, hormonal changes cause an increase in the mother's blood volume due to an increase in plasma.

The anemia is also classified by severity into mild (110 g/L to normal), moderate (80 g/L to 110 g/L), and severe anemia (less than 80 g/L) in adults. Different values are used in pregnancy and children.

Reticulocyte counts and the "kinetic" approach to anemia have become more common than in the past in the large medical centers of the United States and some other wealthy nations, in part because some automatic counters now include reticulocyte counts. A reticulocyte count is a quantitative measure of the bone marrow's production of new red blood cells. The reticulocyte production index is a calculation of the ratio between the level of anemia and the extent to which the reticulocyte count has risen in response. If the degree of anemia is significant, even a "normal" reticulocyte count may reflect an inadequate response.

If an automated count is not available, a reticulocyte count can be done manually following special staining of the blood film. In manual examination, activity of the bone marrow can also be gauged qualitatively by subtle changes in the numbers and the morphology of young RBCs by examination under a microscope. Newly formed RBCs are usually slightly larger than older RBCs and show polychromasia. Even where the source of blood loss is obvious, evaluation of erythropoiesis can help assess whether the bone marrow will be able to compensate for the loss and at what rate.

When the cause is not obvious, clinicians use other tests, such as: ESR, serum iron, transferrin, folate, hemoglobin electrophoresis, renal function tests (e.g. serum creatinine) although the tests will depend on the clinical hypothesis that is being investigated.

When the diagnosis remains difficult, a bone marrow examination allows direct examination of the precursors to red cells, although it is rarely used as it is painful, invasive, and is hence reserved for cases where severe pathology needs to be determined or excluded.

In clinical workup, the MCV will be one of the first pieces of information available, so even among clinicians who consider the "kinetic" approach more useful philosophically, morphology will remain an important element of classification and diagnosis. Limitations of MCV include cases where the underlying cause is due to a combination of factors, such as iron deficiency (a cause of microcytosis) and vitamin B12 deficiency (a cause of macrocytosis), where the net result can be normocytic cells.

* For instance, sickle cell anemia with superimposed iron deficiency; chronic gastric bleeding with B₁₂ and folate deficiency; and other instances of anemia with more than one cause.
** Confirm by repeating reticulocyte count: ongoing combination of low reticulocyte production index, normal MCV, and hemolysis or loss may be seen in bone marrow failure or anemia of chronic disease, with superimposed or related hemolysis or blood loss. Here is a schematic representation of how to consider anemia with MCV as the starting point:

Other characteristics visible on the peripheral smear may provide valuable clues about a more specific diagnosis; for example, abnormal white blood cells may point to a cause in the bone marrow.

Iron-deficiency anemia is the most common type of anemia overall, and it has many causes. RBCs often appear hypochromic (paler than usual) and microcytic (smaller than usual) when viewed with a microscope.

• Iron-deficiency anemia is due to insufficient dietary intake or absorption of iron to meet the body's needs. Infants, toddlers, and pregnant women have higher-than-average needs. Increased iron intake is also needed to offset blood losses due to digestive tract issues, frequent blood donations, or Menorrhagia. Recommendations to Prevent and Control Iron Deficiency in the United States MMWR 1998;47 (No. RR-3) p. 5 Iron is an essential part of hemoglobin, and low iron levels result in decreased incorporation of hemoglobin into red blood cells. In the United States, 12% of all women of childbearing age have iron deficiency, compared with only 2% of adult men. The incidence is as high as 20% among African American and Mexican American women. In India it is even more than 50%. Studies have linked iron deficiency without anemia to poor school performance and lower IQ in teenage girls, although this may be due to socioeconomic factors. Iron deficiency is the most prevalent deficiency state on a worldwide basis. It is sometimes the cause of abnormal fissuring of the angular (corner) sections of the lips (angular stomatitis).
• In the United States, the most common cause of iron deficiency is bleeding or blood loss, usually from the gastrointestinal tract. Fecal occult blood testing, upper endoscopy and colonoscopy should be performed to identify bleeding lesions. In older men and women, the chances are higher that bleeding from the gastrointestinal tract could be due to colon polyps or colorectal cancer.
• Worldwide, the most common cause of iron-deficiency anemia is parasitic infestation (, amebiasis, schistosomiasis and whipworms).

• Megaloblastic anemia, the most common cause of macrocytic anemia, is due to a deficiency of either vitamin B₁₂, folic acid, or both. Deficiency in folate or vitamin B₁₂ can be due either to inadequate intake or malabsorption. Folate deficiency normally does not produce neurological symptoms, while B₁₂ deficiency does.
• Pernicious anemia is caused by a lack of intrinsic factor, which is required to absorb vitamin B₁₂ from food. A lack of intrinsic factor may arise from an autoimmune condition targeting the (atrophic gastritis) that produce intrinsic factor or against intrinsic factor itself. These lead to poor absorption of vitamin B₁₂.
• Macrocytic anemia can also be caused by the removal of the functional portion of the stomach, such as during gastric bypass surgery, leading to reduced vitamin B₁₂/folate absorption. Therefore, one must always be aware of anemia following this procedure.
• Hypothyroidism
• Alcoholism commonly causes a macrocytosis, although not specifically anemia. Other types of liver disease can also cause macrocytosis.
• Drugs such as methotrexate, zidovudine, and other substances may inhibit DNA replication such as heavy metals

A person with sideroblastic anemia (a defect in heme synthesis, commonly caused by alcoholism, but also drugs/toxins, nutritional deficiencies, a few acquired and rare congenital diseases) can have a dimorphic smear from the sideroblastic anemia alone. Evidence for multiple causes appears with an elevated RBC distribution width (RDW), indicating a wider-than-normal range of red cell sizes, also seen in common nutritional anemia.