Acute and Chronic Inflammation

Question 1

What is inflammation and what are 3 general ways that it provides a protective response?

Answer 1

• tissue response to damage or infections that bring host defense cells and molecules from the ciruclation to the site of damage
• Protective response bc:
  
  • destroys/ contains harmful agent
  • Prepares for occurence of healing/repair
  • Without inflammation, infections and wounds would not heal

Question 2

What are the four cardinal signs of inflammation?

Answer 2

Calor (heat)

Rubor (red)

Tumor (swelling)

Dolor (pain)

Functio lase (loss of function0

Question 3

Describe the general sequence of events for an inflammatory reaction. 5 steps

Answer 3

1. recognition by macrohages etc in cells and tissues
2. mediators (amines, cytokines) released by macrophages, DCs and mast cells recruit leukocytes
3. vasodilation and increased vascular permeability-leads to edema
4. elimination of microbes and dead tissue by lymphocytes
5. repair via cytokines and growth factors

Question 4

How are acute and chronic inflammation different? Describe:

onset

cellular infiltrate

tissue inury, fibrosis

local ad systemic signs

Answer 4

• ONSET
  
  • Acute: fast minutes
  • Chronic: slow days
• CELLULAR INFILTRATE:
  
  • Acute: PMNs (neutrophils)
  • Chronic: monoctes/macrophage and lymphocytes (T/B)
• TISSUE INJURY:
  
  • Acute: mild and self limited
  • Chronic: severe and progressive
• LOCAL AND SYSTEMIC SIGNS:
  
  • Acute: prominent
  • Chronic: less prominent, may be subtle

Question 5

Damage to the sit of injury/adjacent normal tissue may occur. What are 4 ways which this can occur?

Answer 5

1. acute inflammation: resolves w/o permanent damage
2. long standing infection (chronic): permanent damage possible
3. autimmune disease (ex lupus)
4. Allergies: inflammation against something that should be a toleragen

Question 6

What recognizes abnormal stimulus in the body?

Answer 6

1. Cells with receptors that detect the presence of infectous pathogens (Epithelial cells, Dendritic cells, phagocytes, and usually the receptor is a TLRs)
2. sensors of cell damage that are activated by: uric acid, ATP, reduced intracellular K, cytosolic DNA. The sensors activate inflammasome
3. circulating complement proteins

Question 7

What is inflammasome?

Answer 7

• sensors of cell damage would activate it
• cytoplasmic complex recognizing parts of dead cells that trigger the activation of caspase-1 which activates IL-1 triggering leukocte recruitment

Question 8

What are the three components of actue inflammation? (what things change)

Answer 8

1. Dilation of small vessels
2. increased permebility of small vessels (influenceing lymph vessels & nodes)
3. Emigration of leukocytes from circulation, leukocyte activation

Question 9

Describe how dilation of small vessels occurs during acute inflammation. What does this lead to?

Answer 9

• histamine and NO induce vasodilation
• first affects arterioles then capillary beds
• vasodilation leads to stasis of flow/congestion resulting in erythema and calor
• margination of leukocytes

Question 10

How does vascular permeability increase during acute inflammation?

Answer 10

1. endothelial cell contraction due to histamine and bradykinin
   
   • ​​predominately affect venules
2. You might also get endothelial cell injury from burns or things traveling through it-increased transcytosis

Question 11

How do lymph vessels respond to acute inflammation?

Answer 11

• edema fluid and cellular debris drain
• sometimes secondary lymphandentitis occurs

Question 12

What is edema?

Answer 12

• excess fluid in interstitia, or serosal cavities
  *

Question 13

WHat is transdudate?

Answer 13

• Hypocellular and low protein contetnt leading to fluid leakage
  
  • ex: non-inflammatory extravascular fluid, ultrafiltrate or plasma with a low specici gravity
• Usually not from inflammation but is from liver failure or heart failure. whereas exudate is typically from inflammation/trauma. less serious thatn exudate. increased hydroststaic or decreased colloid pressure.

Question 14

What is Exudate? What causes it?

Answer 14

• cellular (white and RBCs) and protein rich
• inflammatory extravasculr fluid with high specific gravity
• caused by alteration in normal vessel permeability usually from inflammation
• this is more serious than transudate which doesn’t have much more than fluid.

Question 15

What is pus?

Answer 15

pirulent exudate rich in leukocytes-infected

Question 16

Histamine:

where is it released from, in response to what, and what does it cause?

Answer 16

HIstamne:

• released from mast cells in connective tissue near vessels
• released in response to IL-1, trauma, complement
• causes vasodilation and increases vascular permeability

Question 17

Nitric Oxid (NO) where is it released from, in response to what, and what does it cause?

Answer 17

• released by endothelial cells in response to injury and causes vasodilation

Question 18

Bradykinin where is it released from, in response to what, and what does it cause?

Answer 18

Bradykinin is a plasma protein resulting from activation of kinin system due to exposure to a site of endothelial injury. leading to vasodilation, increased permeability and ***pain***

Question 19

What is the origin of neutrophils

Answer 19

from hematopoetic stem cell marrow

Question 20

What is the origin of macrophages

Answer 20

• from hematopoietic cells in marrow (in inflammatory reactions)
• many tissue resident macrophages (stem cells during development)

Question 21

WHat is the life span of neutrophils?

Answer 21

1-2 days

Question 22

What is the life span of macrophages?

Answer 22

inflammatory macrophages: days or weeks

tissue-resident macrophages: years

Question 23

How do neutrophils respond to stimuli?

Answer 23

rapid, short-lived responses

Question 24

how do macrophages respond to stimuli

Answer 24

more prolonged, slower, dependent on new gene transcription

Question 25

Describe how leukocytes ahere to th endothelium

Answer 25

• leukocytes marginate close to wall as the blood flow slows (due to vasodilation)
• Molecules roll and adhere to endothelial cels with the help of adhesion molecules
  
  • Selectins: on endothelial cells, platelets, leukocytes
  • Integrins: on leukocytes

Question 26

WHat is the role of selectin/how does it work?

Answer 26

• exists on endothelial cells, pltelets, leukocytes
  
  • P-selectin, L-selectin etc.
  • not present on cell surfaces until cell activated by mediators ( histamine, thrombin, etc.
  • aid in rolling and loose attachment to endothelial cells

Question 27

What is the role of integrin and how does it work?

Answer 27

• integrin is on leukocytes
• activated by expression of chemokines on endothelial cells
• TNF and IL-1, secreted by macropages at the site of injury, increase endothelial cell ligand expression
• results in stable attachment of leukocytes to endothelium

Question 28

What is the difference in attachment between selectin and integrin?

Answer 28

selectin aids in loose attachment and integrins aid in stable attachment

Question 29

What is DIapedesis?

Answer 29

movement of leukocyte through vessel wall

Question 30

Describe the process of transmigration in actue inflammation

Answer 30

• leukocytes squeeze between endothelial walls
• this is driven by chemokine: CD31 (PECAM) on leukocytes and endothelial cells

Question 31

How is chemotaxis involved in acute inflammation?

Answer 31

• Chemotaxis is the movement along a chemical gradient
• after crossing the vessel wall, cell migrate towards the injury site based upon chemotactic factor like chemokines, complement and leukotrienes

Question 32

Leukocytes are involved in acute inflammation. What activates them? when does activation occur and what are the 4 results of leukocyte activation?

Answer 32

• Leukocytes are nuetrophils and macrophages
• they are activated by microbes, necrotic tissue, mediators
• activation occurs after recruitment to site of injury
• the results are:
  
  • Phagocytosis
  • intracellular destruction
  • release of substances that destroy dead tissue and microbes
  • more mediator production (amplify inflammatory reaction)

Question 33

How does phagocytosis occur in inflammation?

Answer 33

• leukocyte recognizes a microbe via a specific surface receptor or opsonins marking the microbe as a target
• Engulfment and formation of pahgocytotic vacuole within leukocyte and fusion with a lysosome

Question 34

How are microbes are killed and degraded?

Answer 34

within a phagolysosome via ROS and leukocytes secreting enzymes into the extracellular space to degrade microbes and dead tissue

Question 35

What mediators are associated with vasodilationand what is the source?

Answer 35

HIstamine, Nitric Oxide

Source: mast cells, basophils, platelets, endothelium, macrophages, mast cells, leukocytes

Question 36

What mediators are associated with increased vascular permeability?

Answer 36

histamine, bradykinin

source: mast cells, basophils, platelets, plasma, leukocytes

Question 37

What mediators are associated with chemotaxis, leukocyte recruitment and activation

Answer 37

IL-1, TNF, Bacterial products

Question 38

What mediators are associated with fever?

Answer 38

IL-1, TNF

source: macrophages, endothelial cells, mast cells

Question 39

What medators are associated with pain?

Answer 39

bradykinin

source: mast cells, leukocytes, plasma

Question 40

What mediators are associated with tissue damage?

Answer 40

Reactive oxygen species, NO

Question 41

Describe the key steps in acute inflammation

Answer 41

1. Recognition of injurious agent by receptors on epithelial cells and endothelial cells
2. initiation of the inflammatory response: release of Il-1 and TNF activates endothelial cells
3. Recruitment of leukocytes:
   
   1. margination: leukocyte accumulation at periphery of vessels
   2. RollingL weak and transient adhesions to endothelium (selectins)
   3. Adhesion: firm adhesion to endothelium (Integrins)
   4. Transmigration: movement through endothelium to interstitium (CD31)
4. Leukocytes move towards site of infection (chemotaxis) and are activated by microbes, necrosis, mediators
5. Phagocytosis and killing

Question 42

What are the 3 causes of leukocyte functional defects?

Answer 42

• defect in leukocyte production: bone marrow suppression due to chemotherapy and/or radiation
• defect in adhesion and chemotaxis: sepsis, diabetes, dialysis, malignancy
• defect in phagocytosis and microbial activity: sepsis, diabetes, anemia, malnutrition

Question 43

How does acute inflammation resolve?

Answer 43

• Resolution:
  
  • mediators degrade
  • vascular permeability returns to normal
  • neutrophils die (by apoptosis)
  • debris cleared by macrophages
• OR progession to chronic inflammation
• OR scarring or fibrosis

Question 44

What does the morphology of inflammed tissue reflect?

Answer 44

severtity of inflammation, specific cause, and tissue affected

Question 45

What are general conditions of all actue inflammation?

Answer 45

• accumulation of leukocytes (neutrophils and macrophages) and fluid in extracellular tissue
• dilation of small blood vessels

Question 46

List the 3 subtypes (morphologic patterns) of inflammation

Answer 46

• serous
• fibrinous
• suppurative

Question 47

Describe Serous inflammation and list examples

Answer 47

• Mildest form of acute inflammation
• outpouring of thin fluid (very few cells or proteins) from plasma or serosal cavity linings due to injury of surface epithelia
• examples:
  
  • peritoneal, pleural, or pericardial effusions-CHF, fluid overload
  • Skin blister from burn, viral infection or trauma

Question 48

Describe Fibrinous inflammation and list examples

Answer 48

• occurs secndary to more severe injury
• larger vascular leaks, passage of fibrinogen, conversion to fibrin
• affects linings: meninges, pericardium, pleura, peritoneum
• May resolve completely or may organize leading to scarring
• examples:
  
  • fibrinous pericarditis from uremia, a transmural myocardial infarct, or acute rheumatic fever
  • fibrinous pleuritis
  • fibrinous peritonitis

Question 49

Describe suppurative (purulent) inflammation

Answer 49

• when large numbers of neutrophils are present along with necrotic cells, edema fluid, bacteria, usually liquified and called PUS
• occurs with infections: pyogenic bacteria are most llikely (ex staph)
• abscess
• ex: acute appendicitis, acute bronchopneumonia, acute meninngitis

Question 50

What is an abscess?

Answer 50

central area of necrotic tissue surrounded by preserved neutrophils, dilated vessels and fibroblastic proliferation

Question 51

What is an ulcer?

Answer 51

• local defect
• surface of organ or tissue
• sloughing of surface covering and necrotic inflammatory tissue
• occurs when tissue necrosis and inflammation are present on or near a surface (skin, GI tract) may be acute or chronic
• ex: pepic ulcer, skin ulcer

Question 52

What kind of inflammation is this?

Answer 52

• fibrous inflammation
• usually caused by uremia

Question 53

What kind of infection is this?

Answer 53

suppurative

Look at all of the neutrophils!

Question 54

Please summarize the initation of inflamm response

Answer 54

• recognition of injury by cell recepors resulting in cytoking ( Il-1, TNF) production and leukocyte recruitment

Question 55

What causes chronic inflammation?

Answer 55

• persistent infection
• prolonged exposure to toxic agents
• hypersensitivity disease: autoimmune, allergy

Question 56

What is chronic inflammation characterized by?

Answer 56

• infiltration by mononuclear cells: macrophages, lymphocytes and plasma cells
• tissue destruction from continous inflammation
• attempts at healing: angiogenesis (blood vessel formation) and fibrosis (deposition of collagen)

Question 57

What is the role of macrophages in chronic inflammation?

Answer 57

• macrophages persist bc of release of dead cells and stimulation by cytokines
• they secrete products that result in continued tissue injury

Question 58

How are lymphocytes involved in chronic inflammation?

Answer 58

• amplify and propagate chronic inflammation
  
  • T&Bs migrate to site and Plasma cells produce immunoglobi against persistent antigen and there is bidirectional interaction with macrophages

Question 59

What is the role of eosinophils in chronic inflammation?

Answer 59

parasitic infection and IgE mediation inflamation (allergies) using Major basic protein

Question 60

WHat are mast cells

Answer 60

• they are found in conenctive tissue
• they have a receptor for IgE that is specific for environmental antigen and release histamine and arachidonic acid metabolites and they are central in allergies

Question 61

What are the morphologic features of chronic inflammation?

Answer 61

• mononuclear cell infiltrates-macrophages, lmphocytes, plasma cells
• tissue destruction
• attempted tissue repair: angiogenesis and fibrosis

Question 62

Describe granulomatous inflammation

Answer 62

• aggregate of epithelioid histocytes (macrophages)
• multinucleated giant cells
  
  • fusion of many macrophages, IFN-y induces giant cell formation
• surrounding fibrosis
• in TB: central caseous necrosis

Question 63

What is this arrow showing?

Answer 63

Angiogenesis

Question 64

What type of inflammation is typically seen in appendicitis?

Answer 64

acute suppurative inflammation

• neutrophils through wall surface
• no giant cells usually

Question 65

What are the systemic effects of inflammation?

Answer 65

• Called acute phase response
• fever
• elevated levels of acute-phase proteins
• leukocytosis

Question 66

What type of inflammation is this?

Answer 66

granulomatous- bc you can se the giant cell!

Question 67

WHat causes a fever and what does a fever cause?

Answer 67

• in response to pyrogens both exgenous (endotoxins lipopolysaccharides) and endogenous (Leukocytes release IL-1 and TNF)
• cause production of prostaglandins (PGE2) which stimulate the hypothalamu to repeat higher temepratures

Question 68

What are the effects of acute phase proteins in inflammation?

Answer 68

• C-reactive protein, firbinogen
• bind to microbe wall to aid in elimination
• fibrinogen binds to erythrocytes causing stacks that sediment more rapidly than normal and therefore increased sed rate is used to monitor activity of inflammation

Question 69

What is leukocytosis?

Answer 69

• stimulated by TNF, IL-1
  
  • WBC count is high (15,000-20,000)
• neutrophilia-bacterial infection
• lymphocytosis-viral infections
• eosinophilial allergies, asthma, prasitic infections
• Leukopenia-typhoid, rickettsiae