General Pathology (inflammation & tissue healing / immunopathology & hypersensitivity) Flashcards

Question 1

Q

classification of inflammation via:

Answer

A

1) duration (acute/chronic)

2) Etiology

3) Location (local/systemic)

4) Morphology

Question 2

Q

1) DURATION

Answer

A

Acute or Chronic?

Question 3

Q

acute inflammation

Answer

A

short term process

immediate onset

swelling, redness, heat, altered/loss of function, pain

stops when “injurious” stimulus is:
a) removed
b) walled off (scarring/fibrosis)
c) broken down

Question 4

Q

acute inflammation process

Answer

A

Increased Vessel wall permeability of nearby BV

= Increased emigration of LEUKOCYTES

Question 5

Q

how do leukocytes emigrate?

Answer

A

via (along/up) CHEMOTACTIC gradient

Question 6

Q

combination of which systems?

Answer

A

cascade of events involving vascular system, immune system, and injured/damaged cells

Question 7

Q

conclusion of acute inflammation?

Answer

A

removal of stimuli = removal of inflammatory process

inflammatory response requires the presence of stimulus

Outcome?
either resolution
or
abscess formation
or
continued chronic inflammation

Question 8

Q

abscess define

Answer

A

An enclosed collection of pus in tissues, organs, or confined spaces in the body. An abscess is a sign of infection and is usually swollen and inflamed.

Question 9

Q

chronic inflammation

Answer

A

not necessarily classic symptoms/signs of inflammation (SHARP?)

delated onset

long duration

leads to tissue destruction/fibrosis

Question 10

Q

2) ETIOLOGY

Answer

A

infections

chemical

physical

immune

multifactorial etiology

Question 11

Q

infections as cause for chronic inflammation

Answer

A

bacteria, viruses, protozoa, fungi, helminthis (worms)

Question 12

Q

chemical cause for inflammation

Answer

A

Chemical – organic or inorganic, industrial, medicinal,

Question 13

Q

physical cause for inflammation

Answer

A

foreign bodies, heat, irradiation, trauma

Question 14

Q

immune cause for inflammation

Question 15

Q

3) LOCATION (classification of inflammation)

Answer

A

E.g. localized vs systemic

systemic can begin as localized

Question 16

Q

4) MORPHOLOGY (4th way to classify inflammation)

Answer

A

a) Serous

b) Fibrinous

c) Purulent

d) Ulcerative

e) Pseudomembranous

f) Chronic

g) Granulomatous

Question 17

Q

a) SEROUS INFLAMMATION

Answer

A

MILDEST TYPE

characterized by clear fluid

occurs in early stages of inflammation

typical in:
viral infections
arthritis
burns

generally “Self-limiting” (I.e. resolves without measure)

Resolves without consequences generally (E.g. Herpes)

Question 18

Q

b) FIBRINOUS INFLAMMATION

Answer

A

EXUDATE present

exudate rich in Fibrin

indicates severe inflammation

present in:
bacterial infections
E.g.
Strep throat, bacterial pneumonia, bacterial pericarditis

Doesn’t resolve easily

LEADS TO SCARRING IN “PARENCHYMA” (functional portion of organ)

Fibrosis of parenchyma = loss of function of tissue

Question 19

Q

parenchyma define

Answer

A

“In anatomy, parenchyma refers to the functional part of an organ in the body.”

“This is in contrast to the stroma or interstitium, which refers to the structural tissue of organs, such as the connective tissues.”

Question 20

Q

stroma define

Answer

A

the supportive tissue of an epithelial organ, tumor, gonad, etc., consisting of connective tissues and blood vessels.

Question 21

Q

interstitium define

Answer

A

Interstitium refers to the space or compartment between the cells in a tissue, particularly connective tissue. It is often filled with interstitial fluid and contains various structures such as collagen fibers, elastin fibers, and ground substance.

Question 22

Q

where is fibrinous inflammation seen (e.g.)?

Answer

A

present in:
bacterial infections
E.g.
Strep throat, bacterial pneumonia, bacterial pericarditis

Question 23

Q

c) PURULENT INFLAMMATION

Answer

A

PUS-forming bacteria
E.g.
Staphylococci
Streptococci

Pus accumulation @ mucosa, or skin, or @ internal organs

abscess = localized “collection” of pus

Question 24

Q

staphylococcus define

Answer

A

“a bacterium of a genus that includes many pathogenic kinds that cause pus formation, especially in the skin and mucous membranes.”

Question 25

Q

streptococcus define

Answer

A

“a bacterium of a genus that includes the agents of souring of milk and dental decay, and hemolytic pathogens causing various infections such as scarlet fever and pneumonia.”

Question 26

Q

d) ULCERATIVE INFLAMMATION

Answer

A

inflammation of body surfaces

or inflammation of mucosa

leads to ulceration or necrosis of epithelial lining

Question 27

Q

ulcer define

Answer

A

defect involving the epithelium;

can also extend into the connective tissue

“A break on the skin, in the lining of an organ, or on the surface of a tissue. An ulcer forms when the surface cells become inflamed, die, and are shed. Ulcers may be linked to cancer and other diseases.”

E.g.
Peptic Ulcer

Question 28

Q

e) PSEUDOMEMBRANOUS INFLAMMATION

Answer

A

combination of:
a) Ulcerative infl
b) Fibrinous infl
c) Purulent infl

Exudate present:
consist of:
Fibrin, pus, (cellular debris), mucous

–> Exudate forms pseudomembrane on the surface of ulcers

E.g. pathology
DIPHTHERIA
pseudomembranes form on throat
–> when scraped away, expose bleeding ulcers

Question 29

Q

inflammation type that is combination of purulent, fibrinous, and ulcerative

Answer

A

pseudomembranous inflammation

Question 30

Q

f) CHRONIC INFLAMMATION

Answer

A

Exudate present
contains:
monocytes, lymphocytes, (macrophage, plasma cell)

Question 31

Q

important feature of mechanism of Chronic inflammation

Answer

A

stimulation of proliferation of FIBROBLASTS

inflammation persists via constant recruiting of new inflammatory cells

Recall:
Loss of parenchyma via Scarring/fibrosis

Question 32

Q

fibroblasts and scar formation (fibrosis)

Answer

A

“Fibroblasts are expected to contract wounds and secrete ECM during the process, but uncontrolled proliferation of fibroblasts and excessive deposition of ECM contributes to the scar formation and should be avoided.”

Question 33

Q

Chronic inflammation and loss of function

Answer

A

E.g.
Scarring of fallopian tubes associated with pelvic inflammatory disease can lead to infertility

E.g.
Fibrosis associated with chronic lung disease can impair passage of oxygen into lungs

Question 34

Q

g) GRANULOMATOUS INFLAMMATION

Answer

A

special type of chronic inflammation

NOT PRECEDED BY ACUTE INFLAMMATION

Question 35

Q

mechanism of granulomatous inflammation

Answer

A

accumulation at the site of injury by
–>T-lymphocytes and Macrophages

Cytokines released by lymphocytes

Cytokines transform macrophages into Epithelioid cells

Question 36

Q

what happens to epithelioid cells?

Answer

A

fuse together

form multinucleated “Giant cells”

Nodules are then formed

Question 37

Q

What are Nodules composed of? What are nodules called?

Answer

A

Multinucleated giant cells,

epithelioid cells,

and lymphocytes aggregate into nodules

called GRANULOMAS
–> “grain” “swelling”

Question 38

Q

what do granulomas do?

Answer

A

destroy tissue

persist for long time

E.g.
Syphilis
Tuberculosis

Question 39

Q

What are clinical findings (clinical correlations) of inflammation?

Answer

A

a) Fever

Leukocytosis

Constitutional symptoms

Question 40

Q

a) Fever

Answer

A

elevation in body temperature >37 degrees celsius

generally normal body temperature b/w 36-37

Question 41

Q

What causes fever? What is the mechanism?

Answer

A

Pyrogenic Cytokines:
–> Interleukin 1 (IL-1)
–> tumor necrosis factor (TNF)

Question 42

Q

interleukin define

Answer

A

“any of a class of glycoproteins produced by leukocytes for regulating immune responses.”

Question 43

Q

IL-1

Answer

A

“The Interleukin-1 family is a group of 11 cytokines that plays a central role in the regulation of immune and inflammatory responses to infections or sterile insults.”

Question 44

Q

insult

Answer

A

MEDICINE
“an event or occurrence that causes damage to a tissue or organ.”

E.g.
“the movement of the bone causes a severe tissue insult”

Question 45

Q

pyrogen

Answer

A

“A pyrogen is, by definition, a substance that produces a rise in temperature in a human or animal.”

“differentiated into exogenous and endogenous pyrogens”

Question 46

Q

exogenous pyrogen

Answer

A

“Exogenous pyrogens are substances that induce fever reactions after parenteral administration.”

Question 47

Q

parenteral

Answer

A

“situated or occurring outside the intestine.”

para-
distinct from, but analogous to.

Question 48

Q

exogenous pyrogens E.g.

Answer

A

“Exogenous pyrogens are molecules found outside of the body, such as endotoxins from gram-negative bacteria or pyrogenic prions.”

“Exogenous pyrogens either provoke endogenous pyrogen production to create a fever within the body or activate toll-like receptors (TLRs) to create a fever.”

Question 49

Q

endogenous pyrogens E.g.

Answer

A

“Interleukin-1 (IL-1), tumor necrosis factor, and prostaglandin E have all been shown to act as endogenous pyrogens. IL-1β, the most potent endogenous pyrogen, is balanced by the IL-1 receptor antagonist (IL-1Ra).”

Question 50

Q

what activates endogenous pyrogens

Answer

A

“Fever, a common symptom of many diseases, is elicited by exogenous pyrogens (such as bacterial LPS) or an inflammatory insult, which results in the production of cytokines such as IL-1β that act as endogenous pyrogens.

These cytokines then stimulate the neural pathways that increase body temperature.”

Question 51

Q

can fever occur without endogenous pyrogens, only exogenous?

Question 52

Q

are endogenous pyrogens always activated by exogenous pyrogens?

Question 53

Q

can fever occur without either?

Question 54

Q

b) Leukocytosis (Clinical findings/correlations of inflammation)

Answer

A

increase in circulating WBCs

Esp during infection

Question 55

Q

cytosis

Answer

A

“It essentially means ‘of the cell’.”

“sometimes refers to predominance of certain type of cells.”

Question 56

Q

TNF (Tumor necrosis factor) – a cytokine

Answer

A

“an inflammatory cytokine produced by macrophages/monocytes during acute inflammation”

“is responsible for a diverse range of signalling events within cells, leading to necrosis or apoptosis.”

SOME STUDIES SUGGEST TNF IS CRYOGENIC, OTHERS SUGGEST TNF IS PYROGENIC
–> controversy

Question 57

Q

TNF and IL-1 (CYTOKINES), the hypothalamus, and prostaglandins

Answer

A

“Interleukin-1 initiates fever by inducing an abrupt increase in the synthesis of prostaglandins, particularly prostaglandin E2, in the anterior hypothalamus.”

Question 58

Q

prostaglandin and fever

Answer

A

“Fever is thought to be initiated by pyrogenic cytokines inducing the production of prostaglandin E2 (PGE2) in the preoptic area (POA)”

“PGE2 may act as a paracrine mediator that stimulates the neural pathways that raise body temperature.”

Question 59

Q

c) Constitutional symptoms (Clinical findings/correlations of inflammation)

Answer

A

non-specific; include fatigue, weakness, depression, malaise, lack of appetite, achiness, etc.

Question 60

Q

INFLAMMATORY DISORDERS

Answer

A

Immune disorders

Infections

Injuries

Arthritides

Cancer

Question 61

Q

HEALING AND REPAIR, vs inflammation

Answer

A

inflammation may result in tissue loss

Question 62

Q

consequence of tissue loss (via inflammation) depends on the type of cell

(in terms of regenerative/dividing capabilities)

3 types

Answer

A

1) continuously dividing, mitotic
–> “LABILE” cells

2) “quiescent cells”
Aka “Facultative mitotic” / “stable” cells

3) non-dividing cells – “post-mitotic” cells – “permanent” cells

Question 63

Q

“Labile cell”

Answer

A

cells that continuously multiply and divide throughout life

Question 64

Q

quiescent cell

Answer

A

Quiescence is a cellular state in which a cell remains out of the cell cycle but retains the capacity to divide.

Answer 61

A

“In cellular biology, stable cells are cells that multiply only when needed. They spend most of the time in the quiescent G0 phase of the cell cycle”

Answer 62

A

BIOLOGY
“capable of but not restricted to a particular function or mode of life.”

Answer 63

A

Permanent cells are defined as cells that are unable to replicate in postnatal life.

E.g.
Nervous cells
skeletal muscles
cardiac cells

Answer 64

A

“Undifferentiated stem cells divide by mitosis”

differentiate and replace los cells

E.g.
skin cells

resolution – minimal tissue damage – tissue returns to normal

(Note visible scars / scar tissue can still occur depending on severity of injury to skin)

Answer 65

A

I.e. cells in G0 phase

Do not divide regularly

can be stimulated to divide to replace lost cells

E.g. Hepatocytes (liver cells)

Outcome?
regeneration –> damaged tissue is replaced
–>
However, replacement can still be limited depending on extent of damage

Answer 66

A

E.g. neurons, skeletal/cardiac muscle cells

No division/mitosis

Outcome?
Parenchymal tissue gets replaced with Scar tissue (connective tissue)
I.e.
Leads to loss of function

Answer 67

A

wound is clean

free of foreign materials

free of necrotic tissue

edges are closed together

Answer 68

A

large break in tissue

more inflammation

longer inflammation

more scar tissue

presence of foreign bodies / bacteria

more “Granulation tissue”

Answer 69

A

“Granulation tissue is new connective tissue and microscopic blood vessels that form on the surfaces of a wound during the healing process.”

Answer 70

A

MEDICINE
“the healing process of a wound.”

Answer 71

A

“In the granulation tissue, fibroblasts are activated and acquire α-SM actin expression and become myofibroblasts.”

“These myofibroblastic cells synthesize and deposit the ECM components that eventually replace the provisional matrix”

“Myofibroblasts mediate wound contractions, but their persistent presence in tissues is central to driving fibrosis”

Answer 72

A

a) Leukocytes (i.e.WBC)

b) CT cells

c) Epithelial cells

d) Macrophage

Answer 73

A

Leukocytes (i.e.WBC)
–> Esp polymorphonuclear neutrophils —> “scavenging at the initial site of injury”

Answer 74

A

produce scar tissue

E.g. Fibroblasts/myofibroblasts

Answer 75

A

undergo mitosis and extend across the wound

(except for permanent / non-mitotic cells)

Answer 76

A

stay @ site of healing

produce:
growth factors
cytokines
mediators

all act on connective tissue cells

Answer 77

A

a) myofibroblast

b) angioblast

c) fibroblasts

Answer 78

A

hybrid b/w smooth muscle cell and fibroblast

can contract and secrete ECM

Answer 79

A

“The contraction is considered one of the important events in wound healing because it results in the closure of the wound”

Answer 80

A

precursor to blood vessels

Answer 81

A

produce most ECM

Answer 82

A

1) blood clot forms, seals area

2) inflammation develops

3) phagocytes (including monocytes & macrophages) remove debris

4) Granulation tissue forms in gap (highly vascular – brings new blood supply)

5) tissue is fragile

Answer 83

A

6) mitosis of epithelial cells

7) fibroblasts enter area – produce collagen (basic component of scar tissue)

8) macrophages/fibroblasts produce cytokines to attract more fibroblasts

Answer 84

A

9) Fibroblasts also stimulate epithelial cell division –> and increase ANGIOGENESIS

10) cross-linking of collagen fibres = tight, strong scar

11) capillaries in area decrease

12) Note that scar tissue is not normal functional tissue

Answer 85

A

Young age

Good nutrition

Adequate hemogloblin

Effective circulation

Clean wound

No foreign bodies

No complications

Small wound

Site of wound

Answer 86

A

Advanced age

Poor nutrition

Anemia

Poor circulation

Presence of other disorders (diabetes)

Irritation or excessive mobility

Infection, foreign materials

Large sized wound

Answer 87

A

1) Loss of function

2) Deficient scar formation

3) Excessive scar formation

4) Infection

Answer 88

A

scar tissue replaces parenchymal tissue

Answer 89

A

?

age/genetic/medications/nutrition/infection?

Answer 90

A

Keloids – overgrowth of scar tissue with excessive collagen

Contracture – fixation and deformity of the joint

Adhesions – bands of scar tissue that join two normally separated surfaces
e.g.
intestine

Answer 91

A

“Keloid growth might be triggered by any sort of skin injury — an insect bite, acne, an injection, body piercing, burns, hair removal, and even minor scratches and bumps.”

“Sometimes keloids form for no obvious reason.”

“Keloids aren’t contagious or cancerous.”

Answer 92

A

“Keloid disease is considered a genetic disease due to a strong genetic susceptibility to keloid formation as it occurs predominantly in people of African and Asian descent, runs in families, and has been found in twins.”

Answer 93

A

“Keloids are raised scar-like skin growths. Unlike hypertrophic scars, the connective tissues in keloids continue to grow beyond the wound site.”

“Hypertrophic scars are contained within the site of injury and may regress over time, while keloids spread beyond the borders of the initial injury and do not regress.”

“hypertrophic scars tend to have collagen in a wavy, regular pattern, whereas keloids have no distinct pattern of collagen.”

Answer 94

A

“a condition of shortening and hardening of muscles, tendons, or other tissue, often leading to deformity and rigidity of joints.”

Answer 95

A

“Contracture can be caused by any of the following: Brain and nervous system disorders, such as cerebral palsy or stroke. Inherited disorders (such as muscular dystrophy) Nerve damage.”

“Reduced use (for example, from lack of mobility or injuries)
Severe muscle and bone injuries.
Scarring after traumatic injury or burns.”

Answer 96

A

MEDICINE
“an abnormal union of membranous surfaces due to inflammation or injury.”

“bands of scar tissue that join two normally separated surfaces”

Answer 97

A

“can occur after surgery, infection, injury (trauma) or radiation”

Answer 98

A

“May develop in an inflamed tissue because microorganisms can more easily penetrate when the barrier is damaged and the blood supply is impaired”

Answer 99

A

Immunopathology

what is immunity?

cells of immune system

antibodies

antigen-antibody reaction

hypersensitivity

transplantation

Answer 100

A

protection from disease

esp infectious disease

Answer 101

A

1) natural immunity: born w/ it

2) acquired immunity: develops w/ exposure

Answer 102

A

non-specific

primitive

inherited

not dependent on previous exposure to foreign substances

can be:
a) mechanical
b) WBC
c) protein

Answer 103

A

mechanical factors

E.g.
skin
ciliated cells in mucosa of nose/bronchi

Answer 104

A

macrophages

PMNs (polymorphonuclear neutrophils)

Natural killer cells

Answer 105

A

protective proteins foundin tissue/plasma:
–> complement system (plasma proteins)

–> Properdin = plasma protein that activates “ALTERNATIVE” Complement pathway

–> Lysozyme = protein found in tears, in nasal/intestinal secretions –> Bactericidal

“lysis” + “enzyme” = lysozyme

Answer 106

A

first line = mechanical/chemical barriers

second line = inflammation, phagocytosis

third line of defense = specific immune response (acquired)

Answer 107

A

reactions acquired

specific response to ANTIGENS

Answer 108

A

“a toxin or other foreign substance which induces an immune response in the body, especially the production of antibodies.”

any chemical substance that can elicit a specific immune response

Answer 109

A

ability of immune system to:

a) DISTINGUISH self from nonself

b) GENERATE immunological memory

c) MOUNT reaction of various cells

Answer 110

A

IMMUNOCOMPETANCE:
body’s ability to mount an appropriate immune response

Answer 111

A

1) Lymphcytes

2) Plasma cells

Answer 112

A

T lymphocytes (T cells)
= T helper cells (CD4+ cells)
= T suppressor (CD8+ cells)
(aka T cytotoxic cells)

B lymphocytes (B cells)

Answer 113

A

agranular immune cells

ROUND nucleus

very little cytoplasm

Derived from BONE MARROW STEM CELLS (I.e. “Lymphoid Progenitor” cells)

Answer 114

A

from Lymphoid progenitor cells which develop @ bone marrow

Answer 115

A

(other than NK cells)

a) T cell (progenitor)
b) B cell (progenitor)

Answer 116

A

B lymphocytes via B progenitor
–> AT BONE MARROW

T lymphocytes via T progenitor
–> AT THYMUS

Answer 117

A

PRIMARY LYMPHOID ORGANS

Answer 118

A

B cells, T cells, and NK cells

Answer 119

A

B/T cell for acquired

NK cells for natural

Answer 120

A

they go from where they are made to
—> SECONDARY LYMHOID ORGANS

Answer 121

A

SPLEEN

LYMPH NODES

also include:
GI TRACT

BRONCHIAL MUCOSA (“mucosa associated lymphoid tissue” = MALT)

Answer 122

A

distinct functions

similar morphology

Answer 123

A

about 2/3 T cells circulating

also found in –>
spleen & lymph nodes

(T helper = CD4+
& T cytotoxic = CD8+)

Answer 124

A

Common to all T cells

TCR (receptor)
–> Linked to a protein called CD3

Answer 125

A

recognition of ANTIGENS

essential for activity of T cells

Answer 126

A

T cells that do not have TCR-CD3 complex

I.e. function the same as T cells, but without Specificity of acquired immunity
–> therefore part of natural immunity

Answer 127

A

inhibit/destroy VIRUS-infected cells

Kill tumour cells / foreign cells

Answer 128

A

immune response to ANTIGENS

help B cells PRODUCE ANTIBODIES

“Express” CD4 protein on surface

secrete CYTOKINES (including Interleukins)

Answer 129

A

TH1 and TH2

depending on which cytokines they produce

Answer 130

A

make:

a) Interleukin-2 (IL-2)

b) IFN-gamma (interferon gamma)
–> stimulate macrophage
–> granuloma formation

Answer 131

A

make:

a) interleukin-4
b) IL-5
c) IL-13

ILs important for
–> secretion of IgE
–> other Ig’s
–> Eosinophil activation

Answer 132

A

Prevent unwanted ANTIBODY production

have CD8 protein on surface

mediate killing of virus-infected cells / tumour cells

Answer 133

A

used as MARKERS for T lymphocytes

significant for COUNTING T cells in blood

CD4+ to CD8+ ratio = 2:1

So 2/3 = CD4+ (helper)
& 2/3 = T cell (vs Bcell)

Answer 134

A

differentiate into ANTIBODY-producing PLASMA cells

–> when stimulated by antigens “

Answer 135

A

protein produced by plasma cells

in response to stimulation by antigen

antibodies are produced to fight against antigens

Answer 136

A

fully differentiated descendent –> FROM B cells

OVAL SHAPED
round nucleus, not central

abundant ribosomes & RER @ cytoplasm

Answer 137

A

Proteins

of IMMUNOGLOBULIN class

each antibody = 110 amino acids

Answer 138

A

IgA, IgD, IgE, IgG, IgM

Answer 139

A

Smallest immunoglobulin

MOST ABUNDANT

acts as OPSONIN
–> binds to foreign substances –> facilitates phagocytosis
I.e.
OPSONIZATION

can cross placenta

produced in small amounts on initial immunization
–> BOOSTED production @ re-exposure

Answer 140

A

only Ab that can cross placenta

provides protection to baby

Answer 141

A

found in mucosal secretions:

tears, nasal secretions

found in (breast?) milk, intestinal contents

“Mucosal Homeostasis”

Answer 142

A

via 5 basic units

neutralize Microorganisms

LARGEST IMMUNOGLOBULIN

FIRST immunoglobulin to appear after immunization

natural antibody against blood group ABO antigens

ACTIVATES COMPLEMENT SYSTEM (Classical pathway)

Answer 143

A

IgM

via classical pathway

Also IgG (??)

Answer 144

A

also via plasma cells

attached to MAST CELLS

involved in ALLERGIC REACTION
E.g.
hay fever, asthma

“Present in trace amounts in serum” (???)

Answer 145

A

found exclusively on B cells

membrane bound (Not circulating freely)

Not released into “serum” or body fluids (freely)

activates B cells in response to ANTIGEN

Answer 146

A

antigen attached to IgD (on B cell membrane)

instead of freely circulating antibody attaching to antigen

Answer 147

A

via contact b/w:
a) antigen
b) immune cell

any foreign substance may function as antigen

Answer 148

A

B cell @ “Antigen Receptor Complex” (ARC)

B cell consumes antigen
–> Functions as “Antigen Presenting Cell” (APC)

–> Presents antigen to T cells

Answer 149

A

“Antibody production requires the support of T helper cells”

Helper T cells:
“help activate B cells to secrete antibodies and macrophages to destroy ingested microbes”

“also help activate cytotoxic T cells to kill infected target cells.”

Answer 150

A

“antigens are presented to T cells in the context of the major histocompatibility complex (MHC)”

MHC on surface of APCs

T helper cells produce Cytokines:
–> transform the B cell into a plasma cell
–> plasma cell produces Ab

Answer 151

A

multivalent = multiple binding sites (epitope)

Answer 152

A

“the part of an antigen molecule to which an antibody attaches itself.”

Answer 153

A

Ag and Ab bind –> form complexes

complexes enlarge

–> phagocytosed in Spleen/Liver by “fixed” Macrophages

–> smaller complexes can bind on RBCs / endothelial cells

Answer 154

A

clumping –> “Agglutination”

= clumping of RBCs & separation from serum

Answer 155

A

if complement system is activated, RBC lysis can occur (Hemolysis)

–> Classic complement system pathway

Answer 156

A

“enhances the ability of antibodies and phagocytic cells to clear microbes and damaged cells from an organism, promote inflammation, and attack the pathogen’s cell membrane.”

Answer 157

A

aka allergic disorders

“abnormal immune response to exogenous antigen”

“or reaction to endogenous auto-antigens (auto-immune disorders)”

Answer 158

A

aka allergic disorders

including autoimmune disorders

Answer 159

A

abnormal immune response to exogenous antigen

or reaction to endogenous auto-antigens (autoimmune disorders)

Answer 160

A

“An autoantigen is usually a … normal protein … that is recognized by the immune system of patients suffering from a specific autoimmune disease.”

“an antigen that is a normal bodily constituent and against which the immune system produces autoantibodies”

Answer 161

A

type 1 = anaphylactic type

type 2 = cytotoxic Ab-mediated reaction

type 3 = immune complex-mediated reaction

type 4 = cell-mediated, delayed-type reaction

Answer 162

A

mediated by IgE + MAST cells (OR basophils)

NOTE THAT IgE is on MAST CELL membrane (vs freely floating)

Answer 163

A

plasma cells sensitized to foreign stimuli (E.g. Pollen)

Answer 164

A

Ag-Ab complex forms on Mast Cells

triggers release of HISTAMINE
(vasoactive granules)

Histamine release =
instantaneous - increased vascular permeability, edema, eosinophilia

Answer 165

A

“something that causes the blood vessels to constrict or dilate”

Answer 166

A

Hay Fever (allergic rhinitis)

seasonal allergy (pollens)
–> pollen, animal “dander” (skin/hair)

Answer 167

A

itching, sneezing, conjunctivitis (irritation/inflammation of conjunctiva of eyes)

Answer 168

A

antihistamines

corticosteroids

Answer 169

A

Atopic dermatitis (eczema)

typical disease of childhood

chronic skin irritation

genetic predisposition exists

Answer 170

A

“a” without
“topic” place

= unusual

“Atopy refers to the genetic tendency to develop allergic diseases such as allergic rhinitis, asthma and atopic dermatitis (eczema)”

“Atopy typically associated with heightened immune responses to common allergens, esp inhaled allergens / food allergens.”

Answer 171

A

associated with hyperproduction of IgE vs. allergens

Answer 172

A

improves with age

Answer 173

A

bronchial asthma

one of several types of asthma

not always immunologically mediated

Answer 174

A

coughing / wheezing

associated with constriction of bronchi

overproduction of mucous by bronchial glands

Answer 175

A

anaphylactic shock

life-threatening, severe

systemic response to allergen

esp allergen that body was previously sensitized to

Answer 176

A

massive release of histamine

+ other vasoactive substances

Can also lead to “Circulatory collapse”

Answer 177

A

condition where there is a complete or almost complete interruption of blood circulation

E.g.
via heart
via pulmonary embolism

Or in this case:
SUDDEN GENERAL VASODILATION

Answer 178

A

first exposure via macrophage (act as APC)

present to B cell. B cell differentiates to plasma cell

plasma cell produce ANTIBODIES

send antibodies to Mast Cells

upon second/later exposure, MAST cell release Histamine
–> causes vasodilation and VASCULAR PERMEABILITY

Answer 179

A

Mediated by IgG or IgM

cytotoxic Antibodies react with Antigens in cells

ACTIVATES COMPLEMENT SYSTEM = cell LYSIS (Via classic pathway)

Answer 180

A

Classic pathway –> leads to cell lysis

Answer 181

A

extrinsic or intrinsic

Answer 182

A

proteins/DNA/RNA

Answer 183

A

drugs, chemicals, bacteria, infected cell secretions/excretions

Answer 184

A

re-exposure = Hypersensitive reaction/disease (when genetically predisposed)
I.e.
Autoimmune disease

Answer 185

A

Goodpasture’s syndrome

autoimmunity to collagen type 4

Renal/pulmonary damage

Answer 186

A

“Goodpasture syndrome is a rare disorder in which your body mistakenly makes antibodies that attack the lungs and kidneys.”

note:
hemoptysis (hemo + ptysis)
hematuria (hemat + uria)

Answer 187

A

Hemolytic anemia

Answer 188

A

relating to or involving the rupture or destruction of red blood cells.

Answer 189

A

Anemia is a problem of not having enough healthy red blood

Answer 190

A

In hemolytic anemia, red blood cells in the blood are destroyed earlier than normal

Answer 191

A

“An acute hemolytic transfusion reaction (AHTR), is a life-threatening reaction to receiving a blood transfusion.”

“transfusion of mismatched blood”

Answer 192

A

RBC are targeted among many other parts of body

E.g.
skin
joints
kidneys
heart/lungs
brain/nervous
blood vessels
other organs (liver, spleen, GI tract)

Answer 193

A

Graves disease

form of hyperthyroidism

common in women

antibodies to thyroid stimulating hormone RECEPTOR (TSH receptor)

results in overproduction of thyroid hormones

Answer 194

A

“Antibodies that make the cells produce thyroid hormone can lead to hyperthyroidism (overactive thyroid)”

Answer 195

A

weight loss despite an increased appetite.

rapid or irregular heartbeat.

nervousness, irritability, trouble sleeping, fatigue.

shaky hands, muscle weakness.

sweating or trouble tolerating heat.

frequent bowel movements.

an enlargement in the neck, called a goiter.

Answer 196

A

“Graves’ disease accounting for up to 80% of cases [of hyperthyroidism] and being more common in Blacks compared with Whites.”

Answer 197

A

Myasthenia Gravis

Antibodies block acetylcholine receptors @ NMJ

prevents binding of ACh (progressive weakness, even paralysis)

Answer 198

A

mediated by immune complexes b/w Ag and specific Ab

systemic reaction:
Ag-Ab complexes in circulation

or
localized reaction:
complexes in tissues

Answer 199

A

immune complexes are filtered through basement membranes of:

glomeruli (capillaries @kidney)
anterior eye chamber
brain choroid plexus
pericardium
lungs

Answer 200

A

Trapped agAb complexes activate Comlpement system

Via Classical pathway

Attract PMNs (polymorphonuclear neutrophils)

result in acute inflammation

–> fibrinoid necrosis

Answer 201

A

death of cells in small blood vessels

fibrinoid:
“acidophilic refractile material that somewhat resembles fibrin and is formed in the walls of blood vessels and in connective tissue”

Answer 202

A

SLE

post-streptococcal glomerulonephritis

glomeruli (capillaries @ kidney = cleaning units of kidney)

nephritis = inflammation of kidney (nephros)

Answer 203

A

acute renal disease

after upper respiratory tract infection (for those genetically predisposed)

Answer 204

A

antibodies to Streptococcal antigen

stuck on glomerular basment membrane

leads to COMPLEMENT-mediated inflammation

Answer 205

A

“It’s also possible the antigens from the bacteria are first trapped in the glomeruli, and then antibodies bind in the glomerulus itself.”

Answer 206

A

Polyarteritis nodosa

poly = many
arteritis = arteries
itis = inflammation
nodosa = w/ knots/knobs

(nodules)

Answer 207

A

immune complexes localized

via various forms of Vasculitis

damaged vessels thrombose/occlude

(thrombosis –coagulation/clotting)

arterial occlusion = INFARCTS
–> ischemic symptoms

Answer 208

A

a small localized area of dead tissue resulting from failure of blood supply.

Answer 209

A

Angina (chest pain).
Shortness of breath.
Lightheadedness or dizziness.
Difficulty speaking.
Loss of coordination.
Pain in your leg or arm.
Pale or cold leg or arm.
Paresthesia (tingling or numbness) in your leg or arm.

Answer 210

A

“small and medium-sized arteries become swollen and damaged.”

“produces painful, erythematous nodules.”

note erythematous / erythematosus

Answer 211

A

“exhibiting abnormal redness of the skin or mucous membranes due to the accumulation of blood in dilated capillaries (as in inflammation)”

erythema:
“abnormal redness of the skin or mucous membranes due to capillary congestion (as in inflammation)”

Answer 212

A

erythema + “osus” (?)

osus:
“full of, overly, prone to”

Answer 213

A

involves T-Cells (T-lymphocytes)

involves macrophages

cells aggregate –> Form Granulomas @ injury site

Answer 214

A

“tiny cluster of white blood cells and other tissue”

“form as a reaction to infections, inflammation, irritants or foreign objects”

Answer 215

A

“Chronic (aberrant) macrophage–T cell interaction leads to the formation of … granulomas”

“typically formed during infection, especially when the host has difficulties to eliminate the infectious organism”

Answer 216

A

involve macrophages & Langerhan’s cells (epidermal immune cells)

–> These cells function as APCs (Langerhan’s cells are DENDRITIC cells)

–> as APCs they process Ag-complexes –> present to T-Lymphocytes

–> T helper cells are exposed to Ag complex

–> leads to immune memory formation –> for subsequent re-exposure

Answer 217

A

Ag complex of:

M tuberculosis (Mycobacterium Tuberculosis)

Mycobacterium Leprae

various fungi

most commonly:
CONTACT DERMATITIS
E.g.
to gold, rubber gloves,
poison ivy, etc.

Answer 218

A

accounts for granulomas developing in response to tumours

also note idiopathic granulomatous diseases:
sarcoidosis

Answer 219

A

sarco = flesh
oid = resembling
sis = condition

“Sarcoidosis is a condition that develops when groups of cells in your immune system form red and swollen (inflamed) lumps, called granulomas, in various organs in the body.”

Answer 220

A

Tuberculosis is the formation of an organized structure called granuloma

Answer 221

A

“The structure of granulomas is distinct across the spectrum of leprosy.”

Answer 222

A

“Contact dermatitis is an itchy rash caused by direct contact with a substance or an allergic reaction to it.”

“rash isn’t contagious, but can be very uncomfortable”

Answer 223

A

“Solid tissue transplant / graft will only “take” if donor and recipient are immunologically similar enough to avoid rejection”

“Immunosuppressive drugs used to facilitate acceptance of transplants”

used for life

Answer 224

A

“Autografts
Self donor - skin, hair, blood vessels”

“Isografts
Identical twins”

“Homografts / Allografts
Same species not genetically identical”

“Xenografts
Transplants between different species”

Answer 225

A

type of transplant

“RBC in greater number than WBCs, success depends on matching RBCs”

“blood surface antigens lead to formation of four groups with specific antibodies”

Answer 226

A

Group A: (antigen A) anti-B antibodies

Group B: (antigen B) anti-A antibodies

Group O: (neither antigen) anti-B and anti-A (universal donor)

Group AB: (both antigens) neither antibody (universal acceptor)

Answer 227

A

if blood group of A donor is infused into B group, the recipient’s blood antibodies will hemolyze donor’s RBCs

“chills, shivering, fever and eventually shock”

Answer 228

A

name from experiment done on Rhesus monkeys

Rh+ individuals have certain ANTIGENS on RBCs

if mother is Rh- and 1st child is Rh+, mother may create Rh antibodies during delivery

if 2nd child is Rh+, antibodies will destroy fetal RBCs

Therefore, doctor/nurse immunizes mother against Rh immediately after first delivery

Answer 229

A

dendritic cells
monocytes/macrophages
B lymphocytes

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General Pathology (inflammation & tissue healing / immunopathology & hypersensitivity) Flashcards

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