CH 2 - Acute Inflammation

Question 1

Thick, yellow fluid draining from a breast fissure is

Answer 1

a purulent exudate.

Question 2

Purulent exudates and effusions are associated with

Answer 2

pathologic conditions such as pyogenic bacterial infections, in which the predominant cell type is the segmented neutrophil (polymorphonuclear leukocyte).

Question 3

Mast cells are

Answer 3

granulated cells that contain receptors for IgE on their cell surface. They are additional cellular sources of vasoactive mediators, particularly in response to allergens.

Question 4

B lymphocytes and plasma cells are

Answer 4

mediators of chronic inflammation and provide antigen-specific immunity to infectious diseases.

Question 5

Complement proteins

Answer 5

act upon one another in a cascade, generating biologically active fragments (e.g., C5a, C3b) or complexes (e.g., C567).

Question 6

Products of complement activation cause

Answer 6

local edema by increasing the permeability of blood vessels. They also promote chemotaxis of leukocytes and lyse cells (membrane attack complex) and act as opsonins by coating bacteria.

Question 7

Kinins

Answer 7

are formed following tissue trauma and mediate pain transmission.

Question 8

The most potent chemotactic factors for leukocytes at the site of injury are

Answer 8

(1) complement proteins (e.g., C5a); (2) bacterial and mitochondrial products, particularly low molecular weight N-formylated peptides; (3) products of arachidonic acid metabolism (especially LTB4); and (4) chemokines (e.g., interleukin-1 and interferon g

Question 9

Plasmin is

Answer 9

a fibrinolytic enzyme generated by activated Hageman factor (clotting factor XII).

Question 10

Histamine is

Answer 10

one of the primary mediators of increased vascular permeability.

Question 11

During acute inflammation, neutrophils (PMNs) adhere to

Answer 11

the vascular endothelium.

Question 12

What happens to PMNs after they adhere to the vascular endothelium?

Answer 12

They flatten and migrate from the vasculature, through the endothelial cell layer, and into the surrounding tissue.

Question 13

About 24 hours after the onset of infarction, PMNs are observed to do what?

Answer 13

infiltrate necrotic tissue at the periphery of the infarct.

Question 14

What is the of the PMNs in acute inflammation?

Answer 14

function is to clear debris and begin the process of wound healing.

Question 15

Lymphocytes and plasma cells are

Answer 15

mediators of chronic inflammation and provide antigen specific immunity to infectious diseases.

Question 16

Fibroblasts and macrophages regulate what?

Answer 16

scar tissue formation at the site of infarction.

Question 17

Forces that regulate the balance of vascular and tissue fluids include

Answer 17

(1) hydrostatic pressure, (2) oncotic pressure, (3) osmotic pressure, and (4) lymph flow.

Question 18

Inflammatory edema

Answer 18

1) an increase in the permeability of the endothelial cell barrier results in local edema. 2) Vasodilation of arterioles exacerbates fluid leakage 3) vasoconstriction of postcapillary venules increases the hydrostatic pressure in the capillary bed potenti

Question 19

Vasodilation of venules

Answer 19

decreases capillary hydrostatic pressure and inhibits the movement of fluid into the extravascular spaces.

Question 20

Acute inflammations’ effect on plasma oncotic pressure

Answer 20

it is not associated with changes in plasma oncotic pressure

Question 21

Hageman factor

Answer 21

(clotting factor XII) provides a key source of vasoactive mediators.

Question 22

Activation of Hageman

Answer 22

plasma protein at the site of tissue injury stimulates (1) conversion of plasminogen to plasmin, which induces fibrinolysis; (2) conversion of prekallikrein to kallikrein, which generates vasoactive peptides of low molecular weight referred to as kinins;

Question 23

Septicemia (bacteremia) denotes

Answer 23

the clinical condition in which bacteria are found in the circulation. It can be suspected clinically, but the final diagnosis is made by culturing the organisms from the blood.

Question 24

In patients with endotoxic shock

Answer 24

lipopolysaccharide released from Gram-negative bacteria stimulates monocytes/macrophages to secrete large quantities of TNF alpha.

Question 25

LPS causes

Answer 25

direct cytotoxic damage to capillary endothelial cells.

Question 26

Suppurative inflammation

Answer 26

describes a condition in which a purulent exudates is accompanied by significant liquefactive necrosis. It is the equivalent of pus.

Question 27

Chronic inflammation

Answer 27

is nonsuppurative.

Question 28

Fibrinoid necrosis is observed in areas of

Answer 28

necrotizing vasculitis.

Question 29

Granulomatous inflammation is seen in patients with

Answer 29

tuberculosis.

Question 30

Reactive gliosis is

Answer 30

a normal response of the brain to injury and infection but is not visible on the cut surface of the brain at autopsy.

Question 31

A transudate denotes

Answer 31

edema fluid with low protein content

Question 32

An exudate denotes

Answer 32

edema fluid with high protein content.

Question 33

A purulent exudate or effusion contains

Answer 33

a prominent cellular component (PMNs).

Question 34

A serous exudate or effusion is characterized

Answer 34

by the absence of a prominent cellular response and has a yellow, strawlike color.

Question 35

Fibrinous exudates does not contain

Answer 35

leukocytes.

Question 36

Serosanguineous exudate contains

Answer 36

RBCs and has a red tinge.

Question 37

Eosinophils are particularly evident during

Answer 37

allergic-type reactions and parasitic infestations.

Question 38

Infections with Trichinella are accompanied by

Answer 38

eosinophilia, and skeletal muscle is typically infiltrated by eosinophils.

Question 39

Patients with muscular dystrophy show

Answer 39

elevated serum levels of creatine kinase, but eosinophils are not seen on muscle biopsy.

Question 40

Bacterial infections are associated with

Answer 40

neutrophilia, and affected tissues are infiltrated with PMNs.

Question 41

Viral infections are associated with

Answer 41

lymphocytosis, and affected tissues are infiltrated with B and T lymphocytes.

Question 42

Polymyositis,

Answer 42

an autoimmune disease, does not feature eosinophils.

Question 43

The importance of oxygen dependent mechanisms in the bacterial killing by phagocytic cells is exemplified in

Answer 43

chronic granulomatous disease of childhood.

Question 44

Children with CGD

Answer 44

suffer from a hereditary deficiency of NADPH oxidase, resulting in a failure to produce superoxide anion and hydrogen peroxide during phagocytosis.

Question 45

Persons with CGD are susceptible to

Answer 45

recurrent bacterial infections.

Question 46

Patients deficient in myeloperoxidase cannot produce

Answer 46

hypochlorous acid (HOCl)

Question 47

Patients deficient in myeloperoxidase experience

Answer 47

an increased susceptibility to infections with the fungal pathogen Candida.

Question 48

Catalase

Answer 48

converts hydrogen peroxide to water and molecular oxygen.

Question 49

Deficiency of C1 inhibitor

Answer 49

with excessive cleavage of C4 and C2 by C1s, is associated with the syndrome of hereditary angioedema.

Question 50

Hereditary angioedema is characterized by

Answer 50

episodic, painless, nonpitting edema of soft tissues.

Question 51

Hereditary angioedema is the result of

Answer 51

chronic complement activation, with the generation of a vasoactive peptide from C2

Question 52

Hereditary angioedema may be life threatening because of

Answer 52

the occurrence of laryngeal edema.

Question 53

Chronic granulomatous disease

Answer 53

is due to a hereditary deficiency of NADPH oxidase.

Question 54

Myeloperoxidase deficiency

Answer 54

increases susceptibility to infections with Candida.

Question 55

Selective IgA deficiency and Wiskott-Aldrich syndrome are

Answer 55

congenital immunodeficiency disorders associated with defects in lymphocyte function.

Question 56

Eosinophils are recruited in

Answer 56

parasitic infestations and would be expected to predominate in the portal tracts of the liver in patients with schistosomiasis.

Question 57

Eosinophils contain

Answer 57

leukotrienes and platelet-activating factor, as well as acid phosphatase and eosinophil major basic protein.

Question 58

Plasma cells

Answer 58

are differentiated B lymphocytes that secrete large amounts of monospecific immunoglobulin.

Question 59

Inflammation has historically been referred to as either acute or chronic, depending on

Answer 59

the persistence of the injury, clinical symptoms, and the nature of the inflammatory response.

Question 60

The cellular components of chronic inflammation are

Answer 60

lymphocytes, antibody producing plasma cells and macrophages.

Question 61

The chronic inflammatory response is often

Answer 61

prolonged and may be associated with aberrant repair (i.e., fibrosis).

Question 62

Neutrophils are featured in

Answer 62

acute inflammation and menstruation

Question 63

patient with viral myocarditis will show an accumulation of

Answer 63

lymphocytes in the affected heart muscle.

Question 64

Naïve lymphocytes encounter

Answer 64

antigen-presenting cells (macrophages and dendritic cells) in the secondary lymphoid organs.

Question 65

Naïve lymphocytets with APCs in the secondary lymphoid organs

Answer 65

In response to this cell-cell interaction, they become activated, circulate in the vascular system, and are recruited to peripheral tissues (e.g., heart).

Question 66

Binding of vasoactive mediators to specific receptors on endothelial cells results in

Answer 66

contraction and gap formation leading to the leakage of intravascular fluid into the extravascular space.

Question 67

Direct injury to endothelial cells also leads to

Answer 67

leakage of intravascular fluid.

Question 68

A fibrinous exudate contains

Answer 68

large amounts of fibrin as a result of activation of the coagulation system.

Question 69

When a fibrinous exudate occurs on a serosal surface, such as the pleura or pericardium, it is referred to as

Answer 69

fibrinous pleuritis or fibrinous pericarditis.

Question 70

Release of exogenous pyrogens by bacteria, viruses, or injured cells stimulates

Answer 70

the production of endogenous pyrogens such as IL-1 alpha, IL-1 beta, and TNF-alpha.

Question 71

IL-1 is

Answer 71

a 15-kDa protein that stimulates prostaglandin synthesis in the hypothalamic thermoregulatory centers, thereby altering the “thermostat” that controls body temperature.

Question 72

Inhibitors of cyclooxygenase

Answer 72

(e.g., aspirin) block the fever response by inhibiting PGE2 synthesis in the hypothalamus. Chills, rigor (profound chills with shivering and piloerection), and sweats (to allow heat dissipation) are symptoms associated with fever.

Question 73

Many inflammatory cells are able to

Answer 73

recognize, internalize, and digest foreign materials, microorganisms, and cellular debris. This process is termed phagocytosis, and the effector cells are known as phagocytes.

Question 74

Phagocytosis of most biologic agents is enhanced by

Answer 74

their coating with specific plasma components (opsonins), particularly immunoglobulins or the C3b fragment of complement.

Question 75

The primary role of neutrophils in inflammation is

Answer 75

host defense and débridement of damaged tissue.

Question 76

However, when the neutrophilic response is extensive or unregulated, the chemical mediators of inflammation may

Answer 76

prolong tissue damage. Thus, the same neutrophil-derived lysosomal enzymes that are beneficial when active intracellularly can be harmful when released to the extracellular environment.

Question 77

Proteolytic enzymes that are released by phagocytic cells during inflammation are regulated by

Answer 77

a family of protease inhibitors, including alpha 1-antitrypsin and alpha 2-macroglobulin.

Question 78

These plasma-derived proteins alpha 1-antitrypsin and alpha 2-macroglobulin do what?

Answer 78

inhibit plasmin-activated fibrinolysis and activation of the complement system and help protect against nonspecific tissue injury during acute inflammation.

Question 79

Lysozyme is

Answer 79

a glycosidase that degrades the peptidoglycans of Gram positive bacterial cell walls.

Question 80

Myeloperoxidase is contained within

Answer 80

neutrophil granules.

Question 81

Selectins are

Answer 81

sugar-binding glycoproteins that mediate the initial adhesion of leukocytes to endothelial cells at sites of inflammation.

Question 82

E-selectins are found on

Answer 82

endothelial cells

Question 83

P-selectins are found on

Answer 83

platelets

Question 84

L-selectins are found on

Answer 84

leukocytes.

Question 85

E-selectins are stored in

Answer 85

Weibel-Palade bodies of resting endothelial cells.

Question 86

Upon activation, E-selectins are

Answer 86

redistributed along the luminal surface of the endothelial cells, where they mediate the initial adhesion (tethering) and rolling of leukocytes.

Question 87

After leukocytes have come to a rest

Answer 87

integrins mediate transendothelial cell migration and chemotaxis.

Question 88

Cadherins

Answer 88

mediate cell-cell adhesion, but they are not involved in neutrophil adhesion to vascular endothelium.

Question 89

Entactin and laminin are

Answer 89

basement membrane proteins.

Question 90

The initial response of arterioles to neurogenic and chemical stimuli is

Answer 90

transient vasoconstriction.

Question 91

Shortly thereafter the initial response in arterioles

Answer 91

vasodilation occurs, with an increase in blood flow to the inflamed area. This process is referred to as active hyperemia.

Question 92

Asthma is

Answer 92

a chronic lung disease caused by increased responsiveness of the airways to a variety of stimuli.

Question 93

Chemical mediators released by chronic inflammatory cells in the lungs of asthma patients stimulate

Answer 93

bronchial mucus production and bronchoconstriction.

Question 94

Among the mediators released by chronic inflammatory cells in the lungs of asthma patients are

Answer 94

leukotrienes, also known as slow-reacting substances of anaphylaxis.

Question 95

Leukotrienes are derived from

Answer 95

arachidonic acid through the lipoxygenase pathway.

Question 96

Leukotrienes stimulate

Answer 96

contraction of smooth muscle and enhance vascular permeability.

Question 97

What are responsible for the development of many of the clinical symptoms associated with asthma and other allergic reactions?

Answer 97

Leukotrienes

Question 98

When IgE-sensitized mast cells are stimulated by antigen what happens?

Answer 98

preformed mediators of inflammation are secreted into the extracellular tissues.

Question 99

Histamine binds to specific H1 receptors in the vascular wall, inducing endothelial cell contraction, gap formation, and edema. Massive release of histamine may cause

Answer 99

circulatory collapse (anaphylactic shock).

Question 100

Bradykinin and Hageman factor are

Answer 100

plasma-derived mediators.

Question 101

Myeloperoxidase catalyzes

Answer 101

the conversion of H2O2, in the presence of a halide (e.g., chloride ion), to form hypochlorous acid.

Question 102

hypochlorous acid

Answer 102

This powerful oxidant is a major bactericidal agent produced by phagocytic cells.

Question 103

Patients deficient in myeloperoxidase

Answer 103

cannot produce hypochlorous acid and have an increased susceptibility to recurrent infections.

Question 104

Catalase

Answer 104

catabolizes H2O2.

Question 105

Cyclooxygenase

Answer 105

mediates the conversion of arachidonic acid to prostaglandins.

Question 106

NADPH oxidase

Answer 106

is involved in oxygen-free radical formation during the neutrophil respiratory burst.

Question 107

Superoxide dismutase

Answer 107

reduces the superoxide radical to H2O2.

Question 108

The macrophage

Answer 108

is the pivotal cell in regulating chronic inflammation.

Question 109

Macrophages are derived from

Answer 109

circulating monocytes,

Question 110

Macrophages regulate

Answer 110

lymphocyte responses to antigens

Question 111

Macrophages secrete

Answer 111

a variety of mediators that modulate the proliferation and function of fibroblasts and endothelial cells.

Question 112

Leukopenia is defined as

Answer 112

an absolute decrease in the circulating WBC count.

Question 113

Leukopenia is

Answer 113

occasionally encountered under conditions of chronic inflammation, especially in patients who are malnourished or who suffer from a chronic debilitating disease.

Question 114

Leukopenia may also be caused by

Answer 114

typhoid fever and certain viral and rickettsial infections.

Question 115

Leukocytosis is defined as

Answer 115

an absolute increase in the circulating WBC count.

Question 116

Neutrophilia is defined as

Answer 116

an absolute increase in the circulating neutrophil count.

Question 117

Pancytopenia

Answer 117

refers to decreased circulating levels of all formed elements in the blood.

Question 118

Vasodilation of precapillary arterioles does what?

Answer 118

increases blood flow at the site of tissue injury. (active hyperemia)

Question 119

active hyperemia is caused by

Answer 119

the release of specific mediators.

Question 120

Vasodilation and hyperemia are primarily responsible for

Answer 120

the redness and warmth (rubor and calor) at sites of injury.

Question 121

Platelet adherence, aggregation, and degranulation occur when

Answer 121

platelets come in contact with fibrillar collagen or thrombin (after activation of the coagulation system).

Question 122

Platelet degranulation is associated with

Answer 122

the release of serotonin, which directly increases vascular permeability.

Question 123

the arachidonic acid metabolite thromboxane A2

Answer 123

plays a key role in the second wave of platelet aggregation and mediates smooth muscle constriction.

Question 124

Prostaglandins E2 and I2

Answer 124

inhibit inflammatory cell functions.

Question 125

Leukotrienes C4 and D4

Answer 125

induce smooth muscle contraction.

Question 126

PGI2

Answer 126

is a derivative of arachidonic acid that is formed in the cyclooxygenase enzyme pathway.

Question 127

PGI2 promotes

Answer 127

vasodilation and bronchodilation and also inhibits platelet aggregation.

Question 128

PGI2 activates

Answer 128

adenylyl cyclase and increases intracellular levels of cAMP.

Question 129

The action of PGI2 is diametrically opposite to that of

Answer 129

thromboxane A2

Question 130

thromboxane A2

Answer 130

activates guanylyl cyclase and increases intracellular levels of cGMP.

Question 131

Plasmin

Answer 131

degrades fibrin.

Question 132

Serotonin is

Answer 132

a vasoactive amine.

Question 133

Thrombin is

Answer 133

a protease that mediates the conversion of fibrinogen to fibrin.

Question 134

Granulomas are

Answer 134

collections of epithelioid cells and multinucleated giant cells that are formed by cytoplasmic fusion of macrophages.

Question 135

The cell is termed a Langhans giant cell when

Answer 135

the nuclei are arranged around the periphery of the cell in a horseshoe pattern

Question 136

The label foreign body giant cell is used when

Answer 136

a foreign pathogenic agent is identified within the cytoplasm of a multinucleated giant cell

Question 137

Activation of the complement cascade by

Answer 137

the classical or alternative pathway

Question 138

Activation of the complement cascade leads to

Answer 138

the cleavage of complement fragments and the formation of biologically active complexes.

Question 139

The C5b fragment

Answer 139

aggregates with complement proteins C6, C7, C8, and C9, resulting in the polymerization of the membrane attack complex (MAC).

Question 140

MAC lyses cells by

Answer 140

inserting into the lipid bilayer, forming a pore, and destroying the permeability barrier of the plasma membrane.

Question 141

Kallikrein and kinins are formed

Answer 141

following tissue trauma and mediate pain transmission.

Question 142

Cellular sources of vasoactive mediators are

Answer 142

(1) derived from the metabolism of arachidonic acid (prostaglandins, thromboxanes, leukotrienes, and platelet-activating factor), (2) preformed and stored in cytoplasmic granules (histamine, serotonin, and lysosomal hydrolases), or (3) generated as normal

Question 143

Free arachidonic acid in the acute inflammatory cells (PMNs) is derived from

Answer 143

membrane phospholipids (primarily phosphatidylcholine) by stimulus-induced activation of phospholipase A2.

Question 144

According to the Starling principle,

Answer 144

the interchange of fluid between vascular and extravascular compartments results from a balance of forces that draw fluid into the vascular space or out into tissues.

Question 145

The starling forces include

Answer 145

(1) hydrostatic pressure, (2) oncotic pressure (reflects plasma protein concentration), (3) osmotic pressure, and (4) lymph flow. When the balance of these forces is altered, the net result is fluid accumulation in the interstitial spaces (i.e., edema).

Question 146

Noninflammatory conditions leading to the formation of edema.

Answer 146

1) obstruction of venous outflow or decreased right ventricular function results in a back pressure in the vasculature, thereby increasing hydrostatic pressure. 2) Loss of albumin (kidney disorders, this case) or decreased synthesis of plasma proteins (li

Question 147

Noninflammatory edema is referred to as

Answer 147

a transudate.

Question 148

A transudate is

Answer 148

edema fluid with a low protein content.

Question 149

An exudate is

Answer 149

edema fluid with a high protein and lipid concentration that frequently contains inflammatory cells.

Question 150

An effusion represents

Answer 150

excess fluid in a body cavity such as the peritoneum or pleura.

Question 151

Lymphedema is

Answer 151

usually associated with obstruction of lymphatic flow (e.g., surgery or infection).

Question 152

Chemokines and other proinflammatory molecules activate

Answer 152

a family of cell adhesion molecules, namely the integrins.

Question 153

Molecules in the integrin family

Answer 153

participate in cell-cell and cell-substrate adhesions and cell signaling

Question 154

Integrins are involved in

Answer 154

leukocyte recruitment to sites of injury in acute inflammation.

Question 155

Arachidonic acid is metabolized by

Answer 155

cyclooxygenases (COX-1, COX-2) and lipoxygenases (5-LOX) to generate prostanoids and leukotrienes, respectively.

Question 156

The early inflammatory prostanoid response is

Answer 156

COX-1 dependent.

Question 157

COX-2

Answer 157

becomes the major source of prostanoids as inflammation progresses.

Question 158

Inhibition of COX

Answer 158

is one mechanism by which nonsteroidal anti-inflammatory drugs (NSAIDs), including aspirin, indomethacin, and ibuprofen, exert their potent analgesic and anti-inflammatory effects.

Question 159

NSAIDs block COX-2–induced formation of prostaglandins, thereby

Answer 159

mitigating pain and inflammation.

Question 160

Myeloperoxidase

Answer 160

catalyzes the conversion of H2O2, in the presence of a halide (e.g., chloride ion) to form hypochlorous acid.

Question 161

hypochlorous acid

Answer 161

This powerful oxidant is a major bactericidal agent produced by phagocytic cells.

Question 162

Superoxide dismutase

Answer 162

reduces the superoxide radical to H2O2.

Question 163

The importance of protection afforded by acute inflammatory cells is emphasized by

Answer 163

the frequency and severity of infections in persons with defective phagocytic cells.

Question 164

The most common defect of phagocytic cells is

Answer 164

iatrogenic neutropenia secondary to cancer chemotherapy.

Question 165

Chemotherapy would not be expected to deplete serum levels of

Answer 165

complement or alter the respiratory burst within activated neutrophils

Question 166

necrotizing granuloma due to M. tuberculosis appears as

Answer 166

The necrotic center is surrounded by histiocytes, giant cells, and fibrous tissue.

Question 167

Granulomatous inflammation

Answer 167

is elicited by fungal infections, tuberculosis, leprosy, schistosomiasis, and the presence of foreign material.

Question 168

Granulomatous inflammation is characteristically associated with

Answer 168

caseous necrosis produced by M. tuberculosis.

Question 169

The vascular endothelium has the ability to

Answer 169

promote or inhibit tissue perfusion and inflammatory cell influx through multiple mechanisms.

Question 170

Endothelial cells in the vicinity of the thrombus produce

Answer 170

tissue-type plasminogen activators, which activate plasmin and initiate thrombolysis (fibrinolysis).

Question 171

Nitric oxide (NO),

Answer 171

which was previously known as endothelium-derived relaxing factor, leads to relaxation of vascular smooth muscle cells and vasodilation of arterioles.

Question 172

NO also inhibits

Answer 172

platelet aggregation and mediates the killing of bacteria and tumor cells by macrophages.

Question 173

Histamine, leukotrienes, and thromboxane A2 stimulate

Answer 173

the contraction of smooth muscle cells.

Question 174

Coal workers’ pneumoconiosis

Answer 174

reflects the inhalation of carbon particles.

Question 175

The characteristic pulmonary lesions of simple coal worker’s pneumoconiosis include

Answer 175

nonpalpable coal-dust macules and palpable coaldust nodules, both of which are typically multiple and scattered throughout the lung as 1- to 4-mm black foci.

Question 176

Nodules in coal worker’s pneumoconiosis consist of

Answer 176

dust-laden macrophages associated with a fibrotic stroma.

Question 177

Nodules occur when

Answer 177

coal is admixed with fibrogenic dusts such as silica and are more properly classified as anthracosilicosis.

Question 178

Coal-dust macules and nodules appear on a chest radiograph as

Answer 178

small nodular densities.

Question 179

leukemoid reaction

Answer 179

Circulating levels of leukocytes and their precursors may occasionally reach very high levels (>50,000 WBC/microL). Sometimes difficult to differentiate from leukemia.

Question 180

In contrast to bacterial infections, viral infections (including infectious mononucleosis) are characterized by

Answer 180

lymphocytosis, an absolute increase in the number of circulating lymphocytes.

Question 181

Parasitic infestations and certain allergic reactions cause

Answer 181

eosinophilia, an increase in the number of circulating eosinophils.

Question 182

Leukopenia is defined as

Answer 182

an absolute decrease in the circulating WBC count.

Question 183

Myloid metaplasia and myeloproliferative disease are

Answer 183

chronic disorders of the hematopoietic system.

Question 184

neutrophilia

Answer 184

by itself does not demonstrate immature cells (band forms) and usually refers to lower levels of increased neutrophils.

Question 185

Peripheral blood lymphocytosis is defined as

Answer 185

an increase in the absolute peripheral blood lymphocyte count above the normal range (<4,000/microL in children and 9,000/microL in infants).

Question 186

The principal causes of absolute peripheral blood lymphocytosis are

Answer 186

(1) acute viral infections (infectious mononucleosis, whooping cough, and acute infection lymphocytosis), (2) chronic bacterial infections (tuberculosis, brucellosis), and (3) lymphoproliferative diseases.

Question 187

Primary biliary cirrhosis (PBC) is

Answer 187

a chronic progressive cholestatic liver disease characterized by destruction of intrahepatic bile ducts (nonsuppurative destructive cholangitis).

Question 188

PBC occurs principally in

Answer 188

middle-aged women and is an autoimmune disease.

Question 189

Most patients with PBC have

Answer 189

at least one other disease usually classed as autoimmune (e.g., thyroiditis, rheumatoid arthritis, scleroderma, Sjögren syndrome, or systemic lupus erythematosus).

Question 190

More than 95% of patients with PBC have

Answer 190

circulating antimitochondrial antibodies.

Question 191

In PBC, the cells surrounding and infiltrating the sites of bile duct damage are

Answer 191

predominantly suppressor/cytotoxic (CD8+) T lymphocytes, suggesting that they mediate the destruction of the ductal epithelium.

Question 192

In PBC, Macrophages and B lymphocytes are

Answer 192

associated with periductal inflammation but do not mediate epithelial cytotoxicity.

Question 193

Eosinophils and PBC

Answer 193

have no role in primary immune-related mechanisms.

Question 194

Corticosteroids are widely used to

Answer 194

suppress the tissue destruction associated with many chronic inflammatory diseases, including rheumatoid arthritis and systemic lupus erythematosus.

Question 195

Corticosteroids induce

Answer 195

the synthesis of an inhibitor of phospholipase A2 and block the release of arachidonic acid from the plasma membranes of inflammatory cells.

Question 196

Prolonged corticosteroid use

Answer 196

they are widely used to suppress inflammatory responses, the prolonged administration of these compounds can have deleterious effects, including atrophy of the adrenal glands.

Question 197

Myeloperoxidase

Answer 197

catalyzes the conversion of H2O2, in the presence of a halide (e.g., chloride ion) to form hypochlorous acid.

Question 198

hypochlorous acid

Answer 198

This powerful oxidant is a major bactericidal agent produced by phagocytic cells.

Question 199

Superoxide dismutase

Answer 199

reduces the superoxide radical to H2O2.

Question 200

Acute phase proteins

Answer 200

These proteins are synthesized primarily by the liver and are released into the circulation in response to an acute inflammatory challenge.

Question 201

Changes in the plasma levels of acute phase proteins are mediated primarily by

Answer 201

cytokines (IL-1, IL-6, and TNF- alpha).

Question 202

Increased plasma levels of some acute phase proteins are reflected in

Answer 202

an accelerated erythrocyte sedimentation rate,

Question 203

erythrocyte sedimentation rate is

Answer 203

an index used clinically to monitor the activity of many inflammatory diseases.