3Inflammation and phagocytosis

Question 1

Define Inflammation

Answer 1

A nonspecific but predictable response of living tissue to injury

Question 2

What causes injury?

Answer 2

Chemical agents, physical forces, living microbes and many other endogenous and exogenous pathologic stimuli that can disturb the normal steady state of the body

Question 3

What kind of a process is inflammation?

Answer 3

A dynamic process evolving through several phases which lasts from a few minutes to days or even months or years

Question 4

What kind of inflammation has a sudden onset and short duration?

Answer 4

Acute Inflammation

Question 5

What kind of inflammation last a long time?

Answer 5

Chronic Inflammation

Question 6

What kind of a role does inflammation play?

Answer 6

It has a protective role and is generally beneficial, but side effects may be noxious(fever). Process may become uncontrollable, producing more harm than good.(pulmonary TB elicits a protective tissue reaction that can erode pulmonary vessels, causing massive bleeding.

Question 7

What do dead and dying neutrophils produce?

Answer 7

Pus

Question 8

In what kind of tissue does inflammation occur?

Answer 8

Living ONLY! If inflammation is found during an autopsy this indicates the injury occurred before death

Question 9

Five cardinal signs of inflammation

Answer 9

1. Calor(heat)
2. Rubor(redness-erythema)
3. Tumor(swelling)
4. Dolor(pain)
5. Functio laesa(loss of function)

Question 10

Pathogenesis of Inflammation:

Circulatory Changes

Answer 10

Changes in blood flow=first response to injury
mechanical stimuli(burn) signals smooth muscles cells on pre-capillary arterioles, which act as sphincter regulating inflow of blood into the capillaries 
arterioles vasoconstrict for first few seconds after initial injury 
relaxation of smooth muscle(vasodilation) allows blood to rush into capillaries=redness, swelling and warmth

Question 11

What causes the warmth during inflammation process?

Answer 11

Arterial blood is warm and is pumped into the area in large quantities, so the inflamed tissue also becomes warm(hyperemia)

Question 12

Is the influx of blood during inflammation regulated?

Answer 12

No. The capillaries and venules are only an endothelial layer and basement membrane and cannot actively regulate the incoming bloodflow

Question 13

What do erythrocytes do during the inflammation process?

Answer 13

sludged erythrocytes form stacks, called Rouleaux formation, which impedes and slows down the circulation even more

Question 14

What do WBC do during the inflammation process?

Answer 14

They marginate and become attached to the edge of the endothelium(pavementing: stick to edges)

Question 15

What allows WBC’s to adhere?

Answer 15

Leukocytes develop elongated protrusions(present but in an inactive form normally) on their surface cytoplasm and become sticky, which allows them to adhere to the endothelial cells lining the capillaries and venules
Best known activators: Interleukins

Question 16

Where is the greatest concentration of interleukins?

Answer 16

At the site of inflammation. Derived in part from platelets and in part from leukocytes

Question 17

What is one of the most important triggers for the release of mediators of inflammation?

Answer 17

The adhesion of leukocytes to the endothelial cells

Question 18

What initiates clotting?

Answer 18

Platelets. Ultimately leads to the formation of fibrin strands that anchor the leukocytes to the vessel wall and prevent them from moving away

Question 19

How long does the permeability of the vessel walls of the capillaries and venules last?

Answer 19

Several hours to several days and is usually accompanied by leakage of fluid from the vessels into the interstitial spaces

Question 20

what cells are most common in acute inflammation?

Answer 20

Neutrophils(PMN’s)

Joined by other cells like monocytes within the first 24 hours

Question 21

What happens to PMN’s as inflammation proceeds into chronic stages

Answer 21

PMN’s have a life span of 2-4 days only, they become less prominent and are replaced by macrophages, lymphocytes and plasma cells

Question 22

Emigration of Leukocytes

Answer 22

Active process that occurs in phases

1. Adhesion of PMN’s to the endothelium
2. Insertion of cytoplasmic pseudopods between the junction of the endothelial cells
3. passage through the basement membrane
4. ameboid movement away from the vessel toward the cause of the inflammation(bacteria)

Question 23

Define Chemotaxis

Answer 23

Active movement of PMN’s along a concentration gradient. The chemoattractant being derived from bacteria or tissues destroyed by inflammation, or from activated compliment
-Chemotactic substances stimulate PMN’s to move along this gradient until they reach their source or site of inflammation

Question 24

What happens to PMN’s that reach the bacteria or other chemotactic substances?

Answer 24

They lose their mobility and begin acting as scavengers by the process of “Phagocytosis”.

Question 25

How do PMNs recognize a bacterium as foreign?

Answer 25

A PMN encounters and recognizes a bacterium as foreign by the pseudopods extending from the surface of the PMN

Question 26

What happens after phagocytosis?

Answer 26

• The attachement of the cell membrane of the PMN to the bacterial cell wall.
• Attachment can be facilitated by immunoglobulins or complement which act as opsonins
• A PMN encounters and recognizes a bacterium as foreign by the pseudopods extending from the surface of the PMN

Question 27

Define Phagocytosis

Answer 27

Engulfment of the bacterium is a process by which the cytoplasm of the PMN surrounds the foreign particle and encloses it into an invagination of the cell membran

Question 28

What happens inside the phagocytic vacuole?

Answer 28

the bacterium is killed by bacteriocidal substances released from the cytoplasm of the PMN.

Question 29

What is discharged into the lumen of phagocytic vacuoles?

Answer 29

The contents of the specific granules from PMN’s. Many die in their fight with bacteria

Question 30

What causes pus?

Answer 30

Dead and dying PMNs, admixed with tissue debris, form the viscous yellow fluid

Question 31

What is an inflammation dominated by pus formation called?

Answer 31

Purulent or suppurative inflammation

Question 32

Inflammations typically produce what two important clinical findings?

Answer 32

Fever

Leukocytosis

Question 33

Define Fever

Answer 33

Elevation in body temp exceeding 37 degrees centigrade. typical response to inflamm caused by endogenous pyrogen. Substances called interleukin-I and tumor necrosis factor (TNF) act on the thermoregulator centers in the hypothalamus(thermostat)
threshhold raised= increased body temp
*they will stop once source of inflammation is eradicated

Question 34

Where do pyrogens come from?

Answer 34

they are released from the PMN’s and macrophages during inflammation

Question 35

What is leukocytosis?

Answer 35

• WBC’s exceed 12-15,000, this is leukocytosis and in acute inflammation, the neutrophils predominate.
• normal blood <10,000. mediators of inflammation act on the bone marrow, stimulating a rapid release of leukocytes

Question 36

What are the types of inflammation?

Answer 36

Serous Inflammation
Fibrinous inflammation
Purulent inflammation
Ulcerative Inflammation 
Pseudomembranous Inflammation
Granulomatous inflammation

Question 37

what is serous inflammation?

Answer 37

Considered to be the mildest form, characterized by the exudation of fluid that is clear like serum, and occurs in the early stages of inflammation

Question 38

Give examples where you would see serous inflammation?

Answer 38

Typical of viral infections: Herpesvirus(filled with serous fluid)

Autoimmune disorders: SLE,, can affect the serosal surfaces and cause a serous pericarditis, pleuritis, peritonitis

2nd degree burns

Question 39

What is fibrinous inflammation?

Answer 39

Characterized by an exudate that is rich in fibrin, formed from long strands of polymerized fibrinogen, which is one of the largest plasma proteins.

Question 40

In what infections do you see fibrinous inflammation?

Answer 40

Bacterial: strept throat or pneumonia

Question 41

Best example of fibrinous inflammation?

Answer 41

Fibrinous pericarditis:
The surface of the heart is covered with shaggy, yellowish layers of fibrin that bridges the space between the two layers of the pericardial sac, obliterating the cavity. When the friable fibrin strands are separated, the epicardium and pericardium resemble bread and butter taken apart.

Question 42

What is purulent inflammation?

Answer 42

• Typically caused by pus-forming bacteria, such as Staph and Strept.
• A viscous, yellow fluid composed of dead and dying PMN’s and necrotic tissue debris.
• Pus may accumulate on the mucosa, skin, or in the internal organs. A localized collection of pus with an organ or tissue is called an Abscess.

Question 43

What is an abscess?

Answer 43

consists of a central portion of purulent material surrounded by a wall composed of a capsule of fibrotic granulation tissue. They do not heal spontaneously and must be evacuated.
*typically caused by staph aureus

Question 44

What can happen to large abscesses?

Answer 44

• They tend to rupture, forming a sinus (a cavity usually occupied by a previous abscess that drains through a tract to the surface of the body)
• May also form fistulas

Question 45

What is a fistula?

Answer 45

channels formed between two preexisting cavities or hollow organs and the surface of the body. A fistula can be formed between two loops of bowel, fused together by inflammation

Question 46

What is the best example of a fistula?

Answer 46

Crohns disease

Question 47

What is ulcerative inflammation

Answer 47

Inflammation of body surfaces or the mucosa of hollow organs, like the stomach or intestines, may result in ulceration, or a loss of epithelial linings.

Question 48

What is an ulcer and what are some complications associated with them?

Answer 48

An ulcer is defined as a defect involving the epithelium, but may extend into the deeper connective tissues as well (i.e. peptic ulcer)
Complications: perforations, neoplastic transformation

Question 49

What is pseudomembranous inflammation?

Answer 49

A form of ulcerative inflammation that is combined with fibrinopurulent exudation.

The exudate of fibrin, pus, cellular debris and mucous forms a pseudomembrane on the surface of ulcers that can be scraped away to expose ulcerated defects that bleed profusely.

Question 50

What causes pseudomembranous colitis?

Answer 50

Clostridium difficile: caused by a bacterial overgrowth secondary to intake of broad-spectrum antibiotics.
AKA antibiotic associated colitis
*can kill if not treated

Question 51

What is Granulomatous Inflammation?

Answer 51

A special form of chronic inflammation that typically is not preceded by an acute, PMN-mediated inflammation.

Question 52

What may cause Granulomatous Inflammation?

Answer 52

may be caused by antigens that evoke a cell-mediated hypersensitivity reaction, or by antigens that persist at the site of inflammation.

Question 53

What is the best example of Granulomatous Inflammation

Answer 53

Tuberculosis is the prototype granulomatous disease, as are certain fungal diseases.

TB is an acid fast bacteria can only be seen on AFB(acid fast bacillus)stain

Question 54

When is TB activated?

Answer 54

TB is contained in granulomas in a healthy person, will release with immunodeficiency (chemo, AIDS)

Question 55

What are the 3 classes of cells in relation to their capacity to proliferate?

Answer 55

Continuously Dividing Cells
Quiescent Cells
Nondividing Cells

Question 56

What is the term used for how the brain repairs itself?

Answer 56

Gliosis

Question 57

What is the term used for how the heart repairs itself?

Answer 57

Fibrosis

Question 58

What are continuously dividing cells?

Answer 58

AKA Labile Cells, are cells that divide throughout the entire lifespan. These cells divide at a regular rate and give rise to more differentiated cells
AKA “stem cells”

Question 59

What is an example of a continuously dividing cell?

Answer 59

RBC’s live 120 days and the division of their bone marrow precursors is paced to allow continuous compensated for their programmed loss

Question 60

continuously dividing cells and repair

Answer 60

Can easily repair a defect in skin wounds or mucosal ulcers that can heal readily under appropriate conditions as the superficial layers are replenished from the descendants of cycling stem cells in the basal layer or the intestinal crypts.
*fast repair

Question 61

Quiescent cells

Answer 61

AKA Stable Cells, do not divide regularly, but can be stimulated to divide if necessary

Question 62

Best example of Quiescent cells?

Answer 62

Kidneys and liver:
Loss of liver parenchyma following a partial hepatectomy stimulates the remaining liver cells to enter mitosis and, by dividing, replace the loss. Once the liver has regenerated, the cells become stable again, and stop dividing.

Question 63

Nondividing cells

Answer 63

AKA Permanent Cells, do not have the capacity to proliferate under any circumstances.

Question 64

Examples of nondividing cells

Answer 64

neurons and myocardial cells. A loss of myocardial cells repairs itself by fibrous scarring. A loss of brain cells, also irreversible, repairs by Gliosis

Question 65

What cells are involved in wound healing?

Answer 65

The most important cells that are involved in wound healing are the Leukocytes, Macrophages, connective tissue cells and Epithelial cells.

Question 66

What are the roles of PMN’s and macrophages in wound healing?

Answer 66

PMN’s play a brief role in scavenging the initial site of injury, and macrophages stay at the site of injury and healing and produce certain factors and mediators that act on certain connective tissues cells.

Question 67

Cells in healing: Myofibroblasts

Answer 67

Have hybrid properties of both smooth muscle cells and Fibroblasts. This enables them to contract, which occurs within the first few days of healing, reducing the defect, holding the margins of tissue in close approximation. This enables the proliferating epithelial cells to cover the surface defect and also restores the integrity of the surface epithelium.

Question 68

Cells in healing: Angioblasts

Answer 68

Are the precursors of blood vessels that proliferate like sprouts from the several small blood vessels at the margins of the wound. These appear 2-3 days after incision, and by the 5th-6th day, the entire field is permeated by these newly formed blood vessels that will allow the influx of blood and it’s accompanying oxygen and nutrients.

Question 69

Cells in healing: fibroblasts

Answer 69

Fibroblasts: are the cells that produce most of the extracellular matrix, including :

- Fibronectin:  important in providing tensile strength to the connective tissue matrix and also has the ability to “glue” other substances and cells together.
- Collagen:  the wound initially consists of Type III collagen that is immature or young collagen laid down by fibroblasts

Question 70

What is type 3 collagen replaced by in healing?

Answer 70

Type III collagen is replaced by Type I collagen, which is the most common form of collagen in the body, providing increased strength for all tissues

Question 71

When does collagen acquire its full strength?

Answer 71

When it is laid down in the extracellular spaces. This occurs several weeks after injury, when the collagen fibers are cross-linked with each other, forming a dense meshwork.

Question 72

Describe the process of a scab

Answer 72

• Healing of sterile surgical wounds occurs by First Intention. The incision site initially contains coagulated blood that forms a scab.
• The scab is invaded in PMN’s whose function is to scavenge debris. These are replaced 2-4 days later by macrophages. The growth factors and mediators secreted by the macro-phages promote the ingrowth of myofibroblasts, angioblasts, and fibroblasts

Question 73

What is the vascularized connective tissue that is rich in macrophages, myofibroblasts, angioblasts, and fibroblasts

Answer 73

Granulation tissue

Question 74

What is granulation tissue?

Answer 74

a temporary, makeshift structure that changes over time. Initially it contains many myofibroblasts, which contract the wound and then disappear. The wound that was initially filled with extravasated blood will become edematous and filled with granulation tissue

Question 75

How is a scar developed?

Answer 75

the composition of the matrix changes from Fibronectin and Collagen Type III to predominantly Collagen Type I.
These changes in the dermis on skin wounds are accompanied by a proliferation of epithelial cells from the margins of the wound. These cells cover the defect within 3-7 days.

Question 76

How long does the transformation of granulation tissue to scar typically take?

Answer 76

Under ideal circumstances, the granulation tissue filling the skin defect in the wound is transformed into a scar within 3-6 weeks.

Question 77

Define first intention

Answer 77

orderly sequence of events that characterizes the healing of sharp, sterile, surgical wounds

Question 78

What heals as a secondary intention?

Answer 78

large defects and essentially all infected wounds

-Large defects cannot readily be bridged, and the surgeon cannot juxtapose the gaping tissue margins.

Question 79

Why does the granulation tissue remain exposed in secondary intention?

Answer 79

-The wound contraction cannot be accomplished by the myofibroblasts, and in such cases, the granulation tissue remains exposed to the external surface.

Question 80

Is secondary intention healing fast or slow?

Answer 80

Wound healing by secondary intention is usually prolonged, and some wounds never completely heal.

Question 81

What are the most important determinants of wound healing?

Answer 81

1. Site of the wound: skin heals better than brain
2. Infection: sterile heal faster than infected
3. Mechanical factors: movement may slow healing, having clean edges that come together easily decreases healing time.
4. Age: adults heal slower than children
5. Circulatory status: Ischemic tissues heal poorly(diabetes)
6. Nutritional and metabolic factors: general well-being promotes wound healing(vit C vital for healing)

Question 82

Complications of wound healing:

Answer 82

1. Deficient scar formation: slow formation of granulation tissue occurs in diabetics(diabetes and metabolism disturbances)
   (inadequate collagen prod. in pt using corticosteroid hormones)
   *both above result in scars that may not have sufficient tensile strength and dehiscence may occur
2. Excess scar formation: Keloids

Question 83

Define Dehiscence

Answer 83

Separation of the wound margins

Question 84

What are keloids?

Answer 84

hypertrophic scars composed predominantly of Type III collagen, and results from defective remodeling of scar tissue, with a resultant immature scar.