White blood cells, or leukocytes, are classified into two main groups: granulocytes and nongranulocytes (also known as agranulocytes).
• The granulocytes, which include neutrophils, eosinophils, and basophils, have granules in their cell cytoplasm. Neutrophils, eosinophils, and basophils also have a multilobed nucleus. As a result they are also called polymorphonuclear leukocytes or "polys." The nuclei of neutrophils also appear to be segmented, so they may also be called segmented neutrophils or "segs."
• The nongranuloctye white blood cells, lymphocytes and monocytes, do not have granules and have nonlobular nuclei. They are sometimes referred to as mononuclear leukocytes.
The lifespan of white blood cells ranges from 13 to 20 days, after which time they are destroyed in the lymphatic system. When immature WBCs are first released from the bone marrow into the peripheral blood, they are called "bands" or "stabs." Leukocytes fight infection through a process known as phagocytosis. During phagocytosis, the leukocytes surround and destroy foreign organisms. White blood cells also produce, transport, and distribute antibodies as part of the body's immune response.
Two measurements of white blood cells are commonly done in a CBC:
• the total number of white blood cells in a microliter (1x10-9 liters) of blood, reported as an absolute number of "X" thousands of white blood cells, and
• the percentage of each of the five types of white blood cells. This test is known as a differential or "diff" and is reported in percentages.
Normal values for total WBC and differential in adult males and females are:
• Total WBC: 4,500 - 10,000
• Bands or stabs: 3 - 5 %
• Granulocytes (or polymorphonuclears)
The numbers of leukocytes changes with age and during pregnancy.
• On the day of birth, a newborn has a high white blood cell count, ranging from 9,000 to 30,000 leukocytes. This number falls to adult levels within two weeks.
• The percentage of neutrophils is high for the first few weeks after birth, but then lymphocyte predominance is seen.
• Until about 8 years of age, lymphocytes are more predominant than neutrophils.
• In the elderly, the total WBC decreases slightly.
• Pregnancy results in a leukocytosis, primarily due to an increase in neutrophils with a slight increase in lymphocytes.
Leukocytosis, a WBC above 10,000, is usually due to an increase in one of the five types of white blood cells and is given the name of the cell that shows the primary increase.
• Neutrophilic leukocytosis = neutrophilia
• Lymphocytic leukocytosis = lymphocytosis
• Eosinophilic leukocytosis = eosinophilia
• Monocytic leukocytosis = monocytosis
• Basophilic leukocytosis = basophilia
In response to an acute infection, trauma, or inflammation, white blood cells release a substance called colony-stimulating factor (CSF). CSF stimulates the bone marrow to increase white blood cell production. In a person with normally functioning bone marrow, the numbers of white blood cells can double within hours if needed. An increase in the number of circulating leukocytes is rarely due to an increase in all five types of leukocytes. When this occurs, it is most often due to dehydration and hemoconcentration. In some diseases, such as measles, pertussis and sepsis, the increase in white blood cells is so dramatic that the picture resembles leukemia. Leukemoid reaction, leukocytosis of a temporary nature, must be differentiated from leukemia, where the leukocytosis is both permanent and progressive.
Therapy with steroids modifies the leukocytosis response. When corticosteroids are given to healthy persons, the WBC count rises. However, when corticosteroids are given to a person with a severe infection, the infection can spread significantly without producing an expected WBC rise. An important concept to remember is that, leukocytosis as a sign of infection can be masked in a patient taking corticosteroids.
Leukopenia occurs when the WBC falls below 4,000. Viral infections, overwhelming bacterial infections, and bone marrow disorders can all cause leukopenia. Patients with severe leukopenia should be protected from anything that interrupts skin integrity, placing them at risk for an infection that they do not have enough white blood cells to fight. For example, leukopenic patients should not have intramuscular injections, rectal temperatures or enemas.
Drugs that may produce leukopenia include:
• Antimetabolites
• Barbiturates
• Antibiotics
• Anticonvulsants
• Antithyroid drugs
• Arsenicals
• Antineoplastics
• Cardiovascular drugs
• Diuretics
• Analgesics and anti-inflammatory drugs
• Heavy metal intoxication
Leukocytes: critical low and high values
• A WBC of less than 500 places the patient at risk for a fatal infection.
• A WBC over 30,000 indicates massive infection or a serious disease such as leukemia.
When a patient is receiving chemotherapy that suppresses bone marrow production of leukocytes, the point at which the count is lowest is referred to as the nadir.
• The granulocytes, which include neutrophils, eosinophils, and basophils, have granules in their cell cytoplasm. Neutrophils, eosinophils, and basophils also have a multilobed nucleus. As a result they are also called polymorphonuclear leukocytes or "polys." The nuclei of neutrophils also appear to be segmented, so they may also be called segmented neutrophils or "segs."
• The nongranuloctye white blood cells, lymphocytes and monocytes, do not have granules and have nonlobular nuclei. They are sometimes referred to as mononuclear leukocytes.
The lifespan of white blood cells ranges from 13 to 20 days, after which time they are destroyed in the lymphatic system. When immature WBCs are first released from the bone marrow into the peripheral blood, they are called "bands" or "stabs." Leukocytes fight infection through a process known as phagocytosis. During phagocytosis, the leukocytes surround and destroy foreign organisms. White blood cells also produce, transport, and distribute antibodies as part of the body's immune response.
Two measurements of white blood cells are commonly done in a CBC:
• the total number of white blood cells in a microliter (1x10-9 liters) of blood, reported as an absolute number of "X" thousands of white blood cells, and
• the percentage of each of the five types of white blood cells. This test is known as a differential or "diff" and is reported in percentages.
Normal values for total WBC and differential in adult males and females are:
• Total WBC: 4,500 - 10,000
• Bands or stabs: 3 - 5 %
• Granulocytes (or polymorphonuclears)
- Neutrophils (or segs): 50 - 70% relative value (2500-7000 absolute value)
- Eosinophils: 1 - 3% relative value (100-300 absolute value)
- Basophils: 0.4% - 1% relative value (40-100 absolute value)
- Lymphocytes: 25 - 35% relative value (1700-3500 absolute value)
- Moncytes: 4 - 6% relative value (200-600 absolute value)
The numbers of leukocytes changes with age and during pregnancy.
• On the day of birth, a newborn has a high white blood cell count, ranging from 9,000 to 30,000 leukocytes. This number falls to adult levels within two weeks.
• The percentage of neutrophils is high for the first few weeks after birth, but then lymphocyte predominance is seen.
• Until about 8 years of age, lymphocytes are more predominant than neutrophils.
• In the elderly, the total WBC decreases slightly.
• Pregnancy results in a leukocytosis, primarily due to an increase in neutrophils with a slight increase in lymphocytes.
Leukocytosis, a WBC above 10,000, is usually due to an increase in one of the five types of white blood cells and is given the name of the cell that shows the primary increase.
• Neutrophilic leukocytosis = neutrophilia
• Lymphocytic leukocytosis = lymphocytosis
• Eosinophilic leukocytosis = eosinophilia
• Monocytic leukocytosis = monocytosis
• Basophilic leukocytosis = basophilia
In response to an acute infection, trauma, or inflammation, white blood cells release a substance called colony-stimulating factor (CSF). CSF stimulates the bone marrow to increase white blood cell production. In a person with normally functioning bone marrow, the numbers of white blood cells can double within hours if needed. An increase in the number of circulating leukocytes is rarely due to an increase in all five types of leukocytes. When this occurs, it is most often due to dehydration and hemoconcentration. In some diseases, such as measles, pertussis and sepsis, the increase in white blood cells is so dramatic that the picture resembles leukemia. Leukemoid reaction, leukocytosis of a temporary nature, must be differentiated from leukemia, where the leukocytosis is both permanent and progressive.
Therapy with steroids modifies the leukocytosis response. When corticosteroids are given to healthy persons, the WBC count rises. However, when corticosteroids are given to a person with a severe infection, the infection can spread significantly without producing an expected WBC rise. An important concept to remember is that, leukocytosis as a sign of infection can be masked in a patient taking corticosteroids.
Leukopenia occurs when the WBC falls below 4,000. Viral infections, overwhelming bacterial infections, and bone marrow disorders can all cause leukopenia. Patients with severe leukopenia should be protected from anything that interrupts skin integrity, placing them at risk for an infection that they do not have enough white blood cells to fight. For example, leukopenic patients should not have intramuscular injections, rectal temperatures or enemas.
Drugs that may produce leukopenia include:
• Antimetabolites
• Barbiturates
• Antibiotics
• Anticonvulsants
• Antithyroid drugs
• Arsenicals
• Antineoplastics
• Cardiovascular drugs
• Diuretics
• Analgesics and anti-inflammatory drugs
• Heavy metal intoxication
Leukocytes: critical low and high values
• A WBC of less than 500 places the patient at risk for a fatal infection.
• A WBC over 30,000 indicates massive infection or a serious disease such as leukemia.
When a patient is receiving chemotherapy that suppresses bone marrow production of leukocytes, the point at which the count is lowest is referred to as the nadir.