Neutrophils

Question 1

What is the primary function of neutrophils?

Answer 1

phagocytosis and bactericidal action

Question 2

What processes are necessarry for the phagocytotic and bactericidal functions of neutrophils?

Answer 2

stickiness for emigration through vessel walls; chemotaxis - motile response toward an attractant in tissue; ingestion/degranulation; bacteriocidal action

Question 3

What may neutrophil function be compromised by?

Answer 3

deficiency of various humoral/cellular components; drug actions; toxic bacterial products

Question 4

What are the secondary functions of neutrophils?

Answer 4

secretion of endogenous pyrogen when exposed to bacteria/bacterial products; contribute to pathology of certian conditions - ex. immune complex glomerulonephritis, rheumatoid arthritis

Question 5

Define septecemia.

Answer 5

Bacteria in the bloodstream.

Question 6

Define bacteremia.

Answer 6

Bacteria in the bloodstream.

Question 7

Define diapedesis.

Answer 7

the process of a neutrophil passing through the endothelium of the blood vessels and into the tissues of the body

Question 8

What is the fourth stage of neutrophil production?

Answer 8

myelocyte

Question 9

What is the third stage of neutrophil production?

Answer 9

promyelocyte

Question 10

What is the second stage of neutrophil production?

Answer 10

myeloblast

Question 11

What is the progenitor cell type for neutrophil production?

Answer 11

stem cell

Question 12

What are the three types of myelocytes?

Answer 12

neutrophillic, eosinophillic, basophilic

Question 13

How are the three different types of myelocytes identified?

Answer 13

The three types of myelocytes are identified by the presence of specific granules in the cytoplasm

Question 14

What is the fifth stage of neutrophil production?

Answer 14

metamyelocytes

Question 15

What is the sixth stage of neutrophil production?

Answer 15

neutrophilic band

Question 16

What is the seventh stage of neutrophil production?

Answer 16

neutrophilic segmenter

Question 17

What is the first stage that a neutrophil cell line progenitor can be distinguished?

Answer 17

myelocyte

Question 18

How many divisions occur during neutrophil production?

Answer 18

five points of division - myeloblast (one division), promyelocyte (one division), and myelocyte (about three divisions)

Question 19

How many days supply of neutrophils does the body store?

Answer 19

In health there is about a five day supply of neutrophils in storage.

Question 20

What is a neutrophilic left shift?

Answer 20

A neutrophilic left shift occurs during periods of increased need. When mature neutrophils in stroage are depleted, progressively younger cells are released into the blood.

Question 21

WHat are the mechanicms for increased neutrophil production?

Answer 21

increased stem cell input; increased effective granulopoiesis in proliferation/maturation

Question 22

When does increased stem cell input occur?

Answer 22

at the earliest demand for neutrophils

Question 23

How many days from increased stem cell input until a difference is seen in blood neutrophil numbers?

Answer 23

4-5 days

Question 24

What steps are taken to increase effective granulopoiesis in proliferation and maturation?

Answer 24

additional divisions; normal myelocyte attrition decreased

Question 25

When may a sustained neutrophilia be noticed?

Answer 25

2-3 days after initial stimulus

Question 26

What is neutrophil production regulated by?

Answer 26

granulopoietin

Question 27

What is another term used to refer to granulopoietin?

Answer 27

CSF - colony stimulating factor

Question 28

Where is granulopoietin produced?

Answer 28

granulopoietin is produced in the bone marrow by bone marrow macrophages

Question 29

What is the stimulus for granulopoietin stimulus?

Answer 29

presence of bacterial products

Question 30

What is the function of granulopoietin?

Answer 30

it is absolutly required to stimulate the mitosis of stem cells, and affects the number of divisions of any cell in the maturation series

Question 31

What is neutrophil release from the bone marrow promoted by?

Answer 31

plasma factor or leukocytosis-inducing factor - LIF

Question 32

What is LIF concentration increased by?

Answer 32

LIF is increased by bacterial products and in certian neutropenic disorders (origin unknown)

Question 33

What is the reason for rapid neutrophilia (<2 days)?

Answer 33

increased rate of release

Question 34

In health what are normal neutrophil kinetics?

Answer 34

neutrophils move slower than red blood cells and plasma through venules resulting in uneven distribution, and they hesitantly adhere to the endothelium of the vessels. these cells are not included in WBC count

Question 35

What is the marginal neutrophil pool?

Answer 35

neutrophils adhered to the endothelium of the vessels and not included in the WBC count

Question 36

What is the circulating neutrophil pool?

Answer 36

cells moving with the red blood cells and plasma - the neutrophil count in WBC count

Question 37

In the dog, how much of the total neutrophil supply is in circulation?

Answer 37

about half - CNP = MNP

Question 38

In the cat, how much of the total neutrophil supply is in circulation?

Answer 38

1/4 - MNP is about 3x> CNP

Question 39

What is the average neutrophil transit time?

Answer 39

10 hours

Question 40

How often is the body’s neutrophil supply replaced?

Answer 40

about 2.5 times a day

Question 41

How are neutrophils lost in health?

Answer 41

through secretions, excretions and mucous membranes

Question 42

What is an epinephrine induced neutrophilia caused by?

Answer 42

An epinephrine induced neutrophilia is caused by mobilization of the MNP cells

Question 43

What is physoilogic neutrophilia caused by?

Answer 43

epinephrine (stress)

Question 44

What is the transit time of an epinephrine induced neutrophilia?

Answer 44

20-30 minutes after the release of epinephrine

Question 45

What are some things that can cause stress that results in a physiologic neutrophilia?

Answer 45

fear, exercise, excitement, rough handling, strange surroundings, hypertension, seizures, parturition

Question 46

Can a physiologic neutrophilia be seen in healthy animals?

Answer 46

yes

Question 47

What types of neutrophils are not increased in a physiologic leukogram?

Answer 47

band neutrophils

Question 48

What are the characteristics of a corticosteroid induced neutrophilia?

Answer 48

transit time in circultion increased, bone marrow release rate increased

Question 49

Are immature forms of neutrophils seen in corticosteroid induced neutrophilia?

Answer 49

If the body’s storage pool is adequate immature forms are not released

Question 50

Why do corticosteroids cause a neutropilia?

Answer 50

Corticosteroids decrease neutrophil stickiness and an increase in the percentage of CNP.

Question 51

What induces the release of corticosteroids?

Answer 51

pain, anesthesia, surgical manipulation, trauma, noninflammatory cachetic disorder, neoplasia and hyperadrenocorticism (Cushing’s)

Question 52

What may be an indicator of stress accompanying an inflammitory disorder?

Answer 52

lymphopenia

Question 53

How long does it take a dose of exogenous corticosteroids to cause a corticosteroid neutrophilia?

Answer 53

within 4-8 hours of a single dose

Question 54

How long does it take for the leukogram to return to normal after the administration of exogenous corticosteroids?

Answer 54

12-24 hours

Question 55

In patients who have been administered corticosteroids long term, how long does it take to return to a normal leukogram following the cessation of treatment?

Answer 55

48-72 hours

Question 56

What is the magnitude of neutrophilia in inflammitory disease determined by?

Answer 56

magnitude is determined by the balance between the rate of bone marrow release and the rate of tissue emigration

Question 57

If the rate of bone marrow release is highter then the rate of tissue emigration, what is the result?

Answer 57

neutrophilia

Question 58

What is the result of a rate of tissue emigration that is higher then the rate of bone marrow increase?

Answer 58

neutropenia

Question 59

What is the appropriate physiologic response to increased tissue demand for neutrophils?

Answer 59

a “left shift” as progressively more neutrophils enter the blood

Question 60

What results indicate that tissue demand is exeeding supply?

Answer 60

immature neutrophls >/= mature neutrophils

Question 61

What can a left shift without neutrophilia indicate?

Answer 61

tissue demand may be overwhealming

Question 62

How can overwhelming tissue demand be adequately accomidated by the body?

Answer 62

increased bone marrow production and release rate

Question 63

What does the magnitude of an inflammitory neutrophilia vary with?

Answer 63

species, location of inflammation, virulence and inciting cause

Question 64

Which inflammation location elicits a greater response?

Answer 64

localized purulent inflammation elicits a greater response then generalized inflammation ex. pyymetra>septicemia

Question 65

What causes can cause a greater response?

Answer 65

pyrogenic agents and tissue necrosis

Question 66

Occasionally neutrophilia persists following removal of the inciting cause - why?

Answer 66

bone marrow response hasn’t yet decreased but the tissue demand is eliminated

Question 67

Define excessive usage neutropenia.

Answer 67

neutropenia caused by overwhealming tissue demand for phagocytes

Question 68

What are characteristics of an excessive usage neutropenia?

Answer 68

neutropenia is marked - transit time decreased due to the tissue emigration rate being greater than the bone marrow release rate

Question 69

What form of neutrophils comprise the highest proportion of all PMNs in circulation?

Answer 69

immature neutrophils

Question 70

What is the usual cause of an excessive usage neutropenia?

Answer 70

peracute pyogenic bacterial infections

Question 71

Define decreased production neutropenia.

Answer 71

neutropenia caused by granulopoietic hypoplasia

Question 72

What are characteristics of a decreased production neutropenia?

Answer 72

decreased bone marrow production/release with normal emigration

Question 73

What is the usual cause of a decreased production neutropenia?

Answer 73

Disorders of insidious onset and prolongued course.

usually serious disorders/secondary infection likely

Question 74

Define neutroenia caused by ineffective granulopoiesis.

Answer 74

neutropenia in the presence of myeloid hyperplasia

Question 75

What is an example of a disease causing neutropenia caused by ineffective granulopoiesis?

Answer 75

FeLV positive cat

Question 76

Define sequestration neutropenia.

Answer 76

a neutropenia of sudden, transient occurance. The neutrophils marginate, decreasing the circulating neutophil population and increasing the marginal neutrophil population.

Question 77

How are monocytes distributed in the body?

Answer 77

Monocytes are derived from the bone marrow and circulate briefly before becoming macrophages in the tissues.

Question 78

How can macrophages be distinguished from monocytes?

Answer 78

Macrophages contain more granules and proteolytic enzymes.

Question 79

What are some characteristics of macrophages?

Answer 79

Macrophages survive long periods in the tissue and are capable of division. They are functioning phagocytes.

Question 80

What are some examples of monocyte-derived macrophages?

Answer 80

Macrophages or histiocytes of exudates
Pleural/peritoneal macrophages
Pulmonary alveolar macrophages
CT histiocytes
Macrophages of spleen, LN’s, bone marrow
Kupffer cells of liver

Question 81

What are the functions of macrophages?

Answer 81

Macrophages are responsable for phagocytosis/diestion of particulate and cellular debris, synthesis of certian substances, processing foreign substances to a more antigenic form, and cellular immunity via delayed hypersensitivity.

Question 82

What are some examples of substances synthesized by macrophages?

Answer 82

endogenous pyrogen, interferon, colony stimulating factor

Question 83

Where does monocytopoiesis take place?

Answer 83

Monocyte precursors are derived from a stem cell, and are released into circulation directly from the promonocyte pool in the bone marrow.

Question 84

What are normal monocyte kinetics in health?

Answer 84

In health, monocytes may be unevenly distributed. Average blood transit time is unknown in animals, 12 hours in man.

Question 85

What are the causes of monocytosis?

Answer 85

Monocytosis can be corticosteroid-induced, or caused by disorders characterized by tissue demand for phagocytosis or conditions in which cellular immunity is potentiated.

Question 86

How is a corticosteroid-induced monocytosis identified?

Answer 86

It is recognized by its associated with neutrophilia without left shift, lymphopenia and eosinopenia

Question 87

How do monocytes respond to exogenous corticosteroids?

Answer 87

They respond the same as with endogenous c-steroids but return to normal within 24 hours post-tx.

Question 88

When else may a monocytopenia be observed?

Answer 88

A monocytopenia may be observed during decreased production neutropenia.

Question 89

Is monocytopenia a clinically useful feature of leukograms?

Answer 89

no

Question 90

What are some examples of causes of monocytosis?

Answer 90

painful episodes; hyperadrenocorticism, supperation (body cavities, necrosis, internal hemorrage, hemolytic disease, immune mediated diseases, granulomatous disorders, and decreased production neutropenia

Question 91

What is the function of eosinophils?

Answer 91

Eosinophils are attracted by the chemical mediators of immediate-type allergic or anaphylactic hypersensitivity and inhibit the function thereof.

Question 92

When are the chemical mediators of immediate-type hypersensitivity?

Answer 92

These mediators are released from mast cells sensitized by an antibody during contact with a specific antigen?

Question 93

What is the role of the eosinophil?

Answer 93

To restrain and modulate the response of chemical mediators being released by mast cells that have been sensitized by an antibody during contact with a specific antigen?

Question 94

Where are eosinophils produced?

Answer 94

Eosinophils are produced in the bone marrow in a process very similar to that of neutrophil production.

Question 95

What are normal eosinophil kinetics?

Answer 95

The blood transit time of eosinophils is 24-35 hours. Eosiniophilic stem cells are responsive to CSF, which is dependant on sensitized lymphocytes.

Question 96

When is eosinophilia seen?

Answer 96

In cases of parasitism and in cases of probably Ag-Ab interaction in tissues rich in mast cells.

Question 97

What are some examples of tissues rich in mast cells?

Answer 97

skin, lung, GI tract, female genital tract

Question 98

When does eosinophilia occur in cases of parasitism?

Answer 98

Eosinophilia occurs in cases of parasitism where sensitization has occurred or the host/parasite contact is long and intimate.

Question 99

What is eosinopenia generally attributed to?

Answer 99

Eosinopenia is generally attributed t the effects of corticosteroids.

Question 100

What are the functions of basophils?

Answer 100

Basophils degranulate when antigen complexes with antibodies on their surfaces, a source of mediators of immediate-type hypersensitivity, and a source of heparin and plasma lipemia clearing agents.

Question 101

What leukocyte produces heparin?

Answer 101

the basophil

Question 102

How are basophils produced?

Answer 102

Basophil production parallels that of neutrophils.

Question 103

What are normal basophil kinetics?

Answer 103

Basophils are sparse in most animals.

Question 104

When may a basophilia might be seen?

Answer 104

Basophilia may be seen in cases of hyperlipemia or alongise eosinophilia during disorders of long-standing Ab stimulation for example, chronic heartworm disease.

Question 105

What are characteristics of lymphocytes?

Answer 105

Only about 10% of lymphoctyes ever appear in blood. These cells are recirculated and most are t-lymphocytes. The vast majority remain in lymphoid tissue. Lymphocytes are long lived, capable of division and transformation to more active forms.

Question 106

What are the two categories of lymphocytes?

Answer 106

The two categories of lymphocytes are t-lymphocytes and b-lymphocytes.

Question 107

What are the characteristics of t-lymphocytes?

Answer 107

T-lymphocytes are emoryologically derived from the thymus and provide cell-mediated immunity.

Question 108

What are the characteristics of B-lymphocytes?

Answer 108

B-lymphocytes are embryologically derived from bone marrow and provide humoral (antibody) immunity.

Question 109

What are lymphocyte kinetics?

Answer 109

Lymphocytes recirculate