Causes of Microcytic Hypochromic Anemia. Technician with a blood sample. Photo Credit Keith Brofsky/Digital Vision/Getty Images. Anemia is a condition marked by inadequate oxygen- carrying capacity of the blood. ![]() Normochromic Hypochromic Anemia Diet TreatmentAn insufficient number of red blood cells or an abnormally low amount of oxygen- transporting hemoglobin within the red blood cells can cause anemia. Anemias are commonly grouped according to the appearance of the red blood cells. Microcytic hypochromic anemias are those with abnormally small red blood cells containing a low concentration of hemoglobin. Disturbances in hemoglobin and red blood cell production in the bone marrow cause microcytic hypochromic anemias. Iron deficiency anemia is the most prevalent type of anemia in general and of microcytic anemia in particular, reports Dr. National Library of Medicine Medline Plus entry. This disorder develops when the amount of iron absorbed from the diet fails to keep pace with total body iron losses, leading to an iron deficiency. Normochromic Hypochromic Anemia Diet For ToddlersNutrient : Type of Anaemia: Other Features of Deficiency: Iron: Microcytic hypochromic red cells and neutrophil hypersegmentation is also possible. A·nae·mi·a (. Microcytic hypochromic anemia information including symptoms, diagnosis, misdiagnosis, treatment, causes, patient stories, videos, forums, prevention, and prognosis. Many types of anemia can't be prevented. But iron deficiency anemia and vitamin deficiency anemias can be avoided by having a diet that includes a variety of vitamins. ![]() Because iron is an essential component of hemoglobin, insufficient iron slows red blood cell production. The red blood cells produced are microcytic and hypochromic. Iron deficiency anemia develops when the diet lacks iron, the gastrointestinal tract fails to absorb dietary iron, or the amount of iron lost by the body is abnormally high. The National Heart, Lung and Blood Institute reports that menstruation, childbirth, gastrointestinal bleeding and intestinal parasites can cause excessive iron losses, leading to iron deficiency. Prolonged breastfeeding, excessive amounts of cows' milk and strict vegan diets may lead to iron deficiency anemia due to insufficient dietary iron. Certain medications, removal of the stomach or large sections of the small intestine, and malabsorptive intestinal diseases such as Crohn's or celiac disease can interfere with iron absorption. Treatment of iron deficiency anemia centers on replenishing the body's iron stores. The sideroblastic anemias are characterized by a defect in the production of hemoglobin. Specifically, incorporation of iron into the hemoglobin molecule is defective, explains the medical reference text . Those that reach the circulation are microcytic and hypochromic. Sideroblastic anemia can be inherited or acquired. Copper and vitamin B6 deficiencies, excessive alcohol consumption and certain medications can precipitate sideroblastic anemia. Correction of the underlying cause often corrects the acquired form of the condition. Frequent blood transfusions prove necessary for people with inherited sideroblastic anemia. The thalassemias are a group of inherited blood disorders characterized by defects in the protein portions of the hemoglobin molecule. The thalassemias, including alpha thalassemia and beta thalassemia, cause a microcytic hypochromic anemia. The alpha thalassemias most commonly occur in people of Chinese, Indian, Southeast Asian or Filipino ancestry, reports the National Heart, Lung and Blood Institute. Beta thalassemias prove most common in people of Mediterranean, African or Asian ancestry. The severity of anemia associated with the thalassemias varies, depending on the number of defective genes inherited. Anemia. Anemia is a condition that occurs when the amount of hemoglobin in a person's blood drops below normal. A decrease in hemoglobin is often associated with a decrease in the number of red blood cells (RBCs) and hematocrit. Hemoglobin is contained within RBCs and is necessary to transport and deliver oxygen from the lungs to the rest of the body. Without a sufficient supply of oxygen, many tissues and organs throughout the body can be adversely affected. People with anemia may experience fatigue and weakness and may lack energy. Anemia is a fairly common condition, affecting both men and women of all ages, races, and ethnic groups. However, certain people have increased risk of developing anemia. These include people with diets poor in iron and vitamins, chronic diseases such as kidney disease, diabetes, cancer, inflammatory bowel disease, a family history of inherited anemia, chronic infections such as tuberculosis or HIV, and those who have had significant blood loss from injury or surgery. Anemia can be mild, moderate, or severe depending on how much the RBC count and/or hemoglobin levels are decreased. In general, the main causes of anemia include: Impaired or decreased production of RBCs by the bone marrow due to nutritional deficiency (e. B vitamin deficiencies), bone marrow failure (e. Loss of RBCs due to bleeding or to increased destruction of RBCs as in hemolytic anemia. Anemia may be acute or chronic. Chronic anemia may develop slowly over a period of time with long- term illnesses such as diabetes, chronic kidney disease, or cancer. In these situations, the anemia- related symptoms may not be apparent because the underlying disease masks its symptoms and/or the body adapts to anemia when it develops over a period of time. The presence of anemia in chronic conditions may often go undetected for a period of time and sometimes may only be discovered during tests or examinations for other conditions. Anemia may also occur in acute episodes such as with substantial blood loss (extensive injury or invasive surgery) or with certain anemias in which a significant number of RBCs are destroyed known as hemolytic anemia. Signs and symptoms may become apparent very quickly, and the cause can be determined from a combination of physical examination, medical history, and testing. Anemias can also be described based on the RBC size and concentration of hemoglobin in them. If cell size is much smaller than normal, it is known as microcytic anemia. If it is much bigger than normal, then it is macrocytic anemia. Likewise, if the concentration of hemoglobin is much lower than normal, it is hypochromic anemia; if the concentration is much higher than normal, the RBCs are called hyperchromic. Within the two broad categories of general causes of anemia, there are several types with different specific causes. Some of the most common types are summarized in the table below. Click on the links to read more about each one. Type of Anemia. Description. Examples of Causes. Iron Deficiency. Deficiency of iron leads to decreased production of hemoglobin; low levels of hemoglobin in turn leads to production of smaller and hypochromic RBCs. Blood loss; diet low in iron; poor absorption of iron. Pernicious Anemia and B Vitamin Deficiency. RBCs do not develop as they normally would because of a lack of B vitamins (B1. RBCs. Lack of intrinsic factor (needed for B1. B vitamins; decreased absorption of B vitamins. Aplastic. Bone marrow is unable to produce enough blood cells; a life- threatening condition. Cancer therapy, exposure to toxins, autoimmune disease, viral infections. Hemolytic. RBCs are destroyed faster than the bone marrow can replace them. Inherited causes such as sickle cell disease and hereditary spherocytosis; other causes include transfusion of incompatible blood, autoimmune disease, certain drugs (penicillin)Anemia of Chronic Diseases. Various conditions over the long term can cause decreased production of RBCs. Kidney disease, rheumatoid arthritis, diabetes, tuberculosis, HIV, Crohn disease, cancer, and others. This article only addresses some of the more common causes of anemia, especially those that are not typically associated with white blood cell and platelet abnormalities. There are many other conditions that can, for various reasons, result in some level of anemia, such as: Bleeding—significant bleeding resulting from, for example, trauma or surgery (acute) or from gastrointestinal bleeding (ulcers) occurring over time (chronic)Leukemia (acute or chronic)Lymphoma. Myelodysplastic syndrome. Multiple myeloma. Myeloproliferative neoplasms (e. Infections (e. g., HIV).
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. Archives
November 2017
Categories |