BIOMED 10/8a Acute Inflammation

Question 1

what is acute inflammation

Answer 1

• vascular response to promote healing
• latin for set on fire
• response to infection and damage that brings cells and molecules to the damaged tissue

Question 2

Goals of acute inflammation

Answer 2

-rid the hose of initial cause of injury
-remove necrotic cells and tissue
-initiate repair
(inflammation>proliferation>maturation)

Question 3

Cardinal Signs of inflammation

Answer 3

• Redness
• Heat
• Swelling
• Pain
• Loss of Function

Question 4

How does acute inflammation stimulate or trigger pain?

Answer 4

prostaglandin E2 sensitizes specialized nerve endings to effect bradykinin and other pain mediators

Question 5

drug that blocks the enzyme that produces prostaglandin E2

Answer 5

NSAIDS

Question 6

How does acute inflammation cause loss of function?

Answer 6

pain and swelling limit the following:

• strength
• ROM
• neuromotor control (afferent signals from damage around tissue/joint go to spinal cord and motor cortex that work to decrease the motor drive to that joint)

Question 7

How does inflammation work?

Answer 7

Turn On Inflammation
1. Recognition of injury 
2. Recruitment of leukocytes
3. Removal of injurious agent and damaged tissue
Turn Off Inflammation
4. Regulation of the response 
5. Resolution

Question 8

How does recognition of an injury work?

Answer 8

1. Injury is recognized by immune cells
   - Sentinel cells in tissues
   - Leukocytes in blood stream
2. After recognized, go through phagocytosis
3. Then mediators are produced

Question 9

Define injury

Answer 9

trauma, presence of necrotic tissue, infection by pathogens or foreign bodies, maladaptive immune response

Question 10

cells in the blood

Answer 10

• Plasma (Proteins, Water - 91%, other solutes)

- Formed Elements (Platelets and leukocytes combined 1%, and erythrocytes > 90%)

Question 11

Platelets

Answer 11

Thrombocytes

Question 12

White Blood Cells

Answer 12

Leukocytes

• Neutrophils
• Monocytes (in blood), Macrophages (in tissues)

Question 13

sentinel cells

Answer 13

“sense that something is wrong and they go tell”

• Resident Macrophages (live in tissue)
• Dendritic Cells (have dendrites)
• Mast Cells (live in the tissue and early warning sign)

Question 14

Key features of Sentinel Cells

Answer 14

1. Receptors on the cell surface that sense the invading microbes and recognize biproducts of cellular necrosis of tissue
2. Bind, ingest, and phagocytize microbes and necrotic tissue
3. **release cytokines and other inflammatory mediators (most important - inflammatory mediators that are signals sent out to bloodstream to recruit leukocytes from the blood stream to the tissue)

Question 15

Cytokines

Answer 15

• Most important cytokines are histamines, prostaglandins, and leukotrienes
• signaling molecules secreted by immune cells in response to injury/infection that induce the immune response
• can upregulate or downregulate the inflammatory process as the inflammation process proceeds

Question 16

Pro-inflammatory cytokines induce

Answer 16

1. Fever
2. Inflammation
3. Tissue Destruction

Question 17

anti-inflammatory cytokines induce

Answer 17

suppression of pro-inflammatory cytokine signals

Question 18

histamines

Answer 18

• regulate inflammation
• released by mast cells
• increase vasodilation
• increase capillary permeability

Question 19

Prostaglandins and leukotrienes

Answer 19

• produced in response to cytokines

- regulatory roles in vasodilation, pain, and platelet activation

Question 20

hemostasis

Answer 20

• immediate response to traumatic injury to prevent blood loss
• damaged endothelial cells release MEDIATORS that cause:
  1. vasoconstriction
  2. activation of platelets

Question 21

Platelet activation in hemostasis

Answer 21

1. adhere to lesion/each other
2. attract other platelets
3. initiate coagulation cascade and the end product is fibrin

Question 22

what is fibrin

Answer 22

• mesh network that stabilizes a clot

- fibronectin provides initial scaffolding for infiltrating cells and ECM components

Question 23

how is injury recognized?

Answer 23

• Sentinel Cells in tissue and leukocyts in blood stream sense and recognize damage
• receptors on cell surface/interior recognize molecules (released by damaged tissue - ATP, DNA, low K+)
• Phagocytosis of microbes and necrotic tissue
• Production and release of mediators (amines, cytokines, prostaglandins, leukotrienes, and bradykinins) trigger recruitment

Question 24

what is the process of leukocyte recruitment into the tissue?

Answer 24

1. Vascular changes
   - predominant, heat, redness, swelling
2. Cellular changes

Question 25

vascular changes that cause recruitment of leukocytes into the tissue

Answer 25

1. cytokines and inflammatory mediators act on the endothelial cells of the BVs in the tissue and cause
   - Vasodilation: main driver is histamines that increase BF to the area, but decrease velocity
   - Vessel permeability: causes edema after endothelial cell retraction yields small pores on the surface
   - Vascular Stasis: results from increased BF, decreased velocity, and increased hemoconcentration; accounts for warmth and redness; facilitates extravasation of leukocytes into tissue

Question 26

cellular changes caused that trigger recruitment of leukocytes into the tissue

Answer 26

1. Activation: integrin receptors grab onto surface proteins of WBCs and activate them to slowemdown
2. Extravasation of WBCs (roll, adhere, migrate)
3. Chemotaxis - WBCs are drawn to area of injury

Question 27

Removal of injurious agent and damaged tissue

Answer 27

1. First Wave = neutrophils (still upregulating inflammation)
2. Second Wave = macrophages (anti-inflammatory that begin down regulation)

Question 28

process that entails the first wave of removal of injurious agents

Answer 28

• neutrophils ingest and destroy microbes, necrotic tissue through phagocytosis
• they create a reactive oxygen and reactive nitrogen species
• the release cytokines before death to call in macrophages
• then they die quickly through apoptosis

Question 29

after apoptosis of neutrophils, what happens to the second wave of cells?

Answer 29

• macrophages enter and phagocytize remaining microves, necrotic tissue, and dead neutrophils
• they “clean up” the mess made by the damage and the neutrophils
• they produce anti-inflammatory cytokines thatbegin the downregulation of inflammation

Question 30

after removal or injurious agent, what happens?

Answer 30

Regulation of the response - collateral damage if there was no regulation.

• once activated, leukocytes have SHORT HALF LIVES.
• anti-inflammatory signals activate to stimulate down regulation of inflammation (lymphocytes are an example)

Question 31

after regulation of the response what happens?

Answer 31

Resolution

• leukocyte activation triggers proliferation and migration of fibroblasts (not immune cells, but cells that make new tissues)
  1. fibroblasts produce collagen and ECM comps
  2. main cell of proliferative phase

Question 32

what can go wrong with inflammation?

Answer 32

1. too little inflammation - infections unchecked, or wounds/tissues don’t heal
2. misdirected inflammation - against self tissues in autoimmune disease (rheumatoid arthritis)
3. inflammation in response to normally harmless substances (allergies)
4. inflammation tthat is excessively prolonged or repetitive (chronic inflammation)

Question 33

what happens when the resolution phase is off?

Answer 33

we get chronic inflammation and see a lot more formation of scar tissue which leads to poor recovery and function

• repeated stimuli
• repeated injurious agents
• bacterial pathway that’s hard to remove
• autoimmune disease

Question 34

what is pus?

Answer 34

bacterial invasions that lead to neutrophils to phagocytize then macrophages come in to eat dead neutrophils and the result is pus

Question 35

what is abscess

Answer 35

area of inflammation that is walled off and we get lots of scarring

Question 36

what is the Physical therapist’s role with inflammation?

Answer 36

• History questions
• tests and measures
• prognosis and acute inflammation
• intervention and acute inflammation

Question 37

what are important history questions to ask in regards to inflammation?

Answer 37

1. has this happened before?
2. how long has this been like this?
3. MECHANISM OF INJURY
   - traumatic
   - atraumatic
4. pain?
   - location?
   - impact on function?
   - motions that provoke pain?
   - type of pain? Dull, ache, shooting
   - severity of pain (0-10 0 is no pain, 10 is the worst pain)
   - what makes it better
5. SOB?
6. Dizziness?

Question 38

Tests and measures to complete with inflammation?

Answer 38

1. assessment of function - anterior drawer, ROM, strength, larger functions like gait, standing, cutting, etc.
2. assessment of edema

Question 39

what is edema?

Answer 39

fluid in interstitial space (space that surrounds the cells and blood vessels where the ECM and ground substance are - part of the tissue that is not cells and blood vessels)

Question 40

how do you asses edema?

Answer 40

• increased girth at the body part
• tight, shiny skin
• indentation of skin under clothing
• weepind/leaking fluid
• interferes with movement, NMS control, can be painful
• may indicate a health problem (DVT/diabetes)
• different kinds of edema

Question 41

what are the different types of edema?

Answer 41

1. inflammatory: red, hot, painful
2. non-inflammatory or pitting: variety of causes, indentation left on skin
3. Effusion: excess fluid in enclosed space, joint effusion or pleural effusion

Question 42

what information do we want when completing tests and measures on patients with inflammation?

Answer 42

• location (limb/tissue, unilateral/bilateral)
• duration (acute/chronic)
• inflammatory vs pitting (press firmly for 5 seconds and rate from 1-4 based on indentation lasting time)
• amount (girth/volumetric)

Question 43

prognosis and acute inflammation

Answer 43

• acute inflammation should last for days or weeks
• is this a repeat?
• is there another source?

Question 44

intervention for acute inflammation

Answer 44

-manage inflammation and promote healing
-POLICE
Protection
Optimal Loading
Ice
Compression
Elevation