Inflammation Handout PDF

Summary

This document is a handout on inflammation, covering general considerations, stages, and outcomes of inflammatory processes. The handout contains detailed information, diagrams, and chemical structures related to inflammation.

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Inflammation

Gerard Leaño Lamayra, MD, FPSP
Anatomic and Clinical Pathology
General Considerations
Inflammation - reaction of a tissue and its
microcirculation to a pathologic insult;
characterized by the generation of inflammatory
mediators and movement of fluid and leucocytes.

Clinical signs:
(1) Rubor (redness)
(2) Calor (heat)
(3) Tumor (swelling)
(4) Dolor (pain)

(5) Loss of function (functio laesa)
General Considerations
John Hunter – modern understanding on the
vascular basis of inflammation.

Rudolf Virchow - described that inflammation is a
reaction to prior tissue injury.

Thomas Lewis - described the importance of
chemical mediators in the inflammatory response.
Primary purpose of inflammatory
response
-eliminate the pathologic insult and
remove injured tissue components.

What inflammation accomplishes:
(1) regeneration of normal tissue architecture
(2) formation of scar tissue to replace those that
cannot be repaired

Further extension of injury or the effects of the
inflammatory response may lead to loss of
function of the organ or tissue.
Stages in inflammatory process
(1) Initiation of the mechanisms responsible for the
localization and clearance of foreign substances
and injured tissues; stimulated when injury to
tissues has occurred.

(2) Amplification of the inflammatory response;
both soluble mediators and cellular inflammatory
systems are activated.

(3) Termination of the inflammatory response;
accomplished by specific inhibitors of
inflammatory mediators.
SEQUENCE OF EVENTS
Normal histology

Vasodilatation

Increased vascular permeability

Leakage of exudate

Margination, rolling, adhesion of WBCs

Transmigration (diapedesis)

Chemotaxis
SEQUENCE OF EVENTS

PMN (neutrophil) Activation

PHAGOCYTOSIS: Recognition, Attachment,
Engulfment, Killing (degradation or digestion)

Termination

100% RESOLUTION, SCAR, or CHRONIC
INFLAMMATION are the three possible outcomes
SEQUENCE OF EVENTS
INFLAMMATION
-earliest response following tissue injury occurs
within the microvasculature at the level of
capillary and post-capillary venule.

-changes in the structure of the vascular wall lead to
the following:
(i) loss of endothelial cell integrity
(ii) leakage of fluid and plasma components
(iii) emigration of red and white blood cells from the
intraluminal space into the extravascular tissue
ACUTE INFLAMMATION

“PROTECTIVE” RESPONSE

NON-specific

Hallmarks of acute inflammation:
1. Accumulation of fluid and plasma components in
affected tissues
2. Vascular stimulation of platelets
3. Presence of polymorphonuclear leucocytes
ACUTE INFLAMMATION
Major events:

1. Changes in vascular flow and caliber

2. Increase vascular permeability

3. Leucocyte exudation
ACUTE INFLAMMATION

Neutrophil

Polymorphonuclear
Leukocyte (PMN)
STIMULI for acute inflammation

INFECTIOUS agents
PHYSICAL agents
CHEMICAL agents
Tissue Necrosis
Foreign bodies
Immune “responses”, or “complexes”
Vascular Changes in acute
inflammation
Changes in vascular flow
and caliber

Increased vascular
permeability
INCREASED vascular permeability
Edema- manifested as swelling; movement of fluid
into the extravascular space which exceeds the
clearance ability of the lymphatics.

inflammatory edema – due to alterations in the
anatomy and function of the microvasculature
promoting fluid accumulation in tissues.

The post-capillary venule is the primary site at
which vasoactive mediators induce endothelial
changes including endothelial cell contraction and
gap formation
Some definition of terms:
edema- accumulation of fluid within the
extravascular component and interstitial tissues.

effusion – excess body fluid in the cavities of the
body, i.e. peritoneum, pleura.

transudate – excess fluid with low protein content
(sp. gr. 20
components, in
circulating
plasma

Multiple sites of
action, but
LYSIS is the
underlying
theme
KININ SYSTEM
BRADYKININ is KEY
component

ALSO from circulating
plasma

ACTIONS
 Increased permeability
 Smooth muscle
contraction, NON
vascular
 PAIN
CLOTTING FACTORS
Also from circulating plasma

Coagulation, i.e., production of fibrin

Fibrinolysis
EICOSANOIDS (Arachidonic acid
derivatives)
Part of cell membranes

1) Prostaglandins (including thromboxanes)
2) Leukotrienes
3) Lipoxins

-multiple actions at many levels
Prostaglandins
(thromboxanes included)
Pain

Fever

Clotting
mechanism
Leukotrienes

Chemotaxis

Vasoconstriction

Increased
permeability
Lipoxins

INHIBIT
chemotaxis

Vasodilatation

Counteract
actions of
leukotrienes
Platelet-Activating Factor
(PAF)
Phospholipid

From MANY cells,
like eicosanoids

ACTIVATE
PLATELETS,
powerfully
CYTOKINES/CHEMOKINES
CYTOKINES are PROTEINS produced by
MANY cells, but usually LYMPHOCYTES
and MACROPHAGES, numerous roles in
acute and chronic inflammation.
TNFα, IL-1, by macrophages

CHEMOKINES are small proteins which are
attractants for PMNs.
NITRIC OXIDE

Potent
vasodilator

Produced from
the action of
nitric oxide
synthetase from
arginine
LYSOSOMAL CONSTITUENTS
PRIMARY SECONDARY
also called also called SPECIFIC
AZUROPHILIC, or
non-specific

Myeloperoxidase Lactoferrin
Lysozyme Lysozyme

Acid hydrolases Alkaline phosphatase
Collagenase
FREE RADICALS

O2– (superoxide)
H2O2 (peroxide)
-
OH (hydroxyl radical)
VERY DESTRUCTIVE!!!
NEUROPEPTIDES

Produced in CNS (neurons)
Substance P
Neurokinin A
OUTCOMES OF ACUTE INFLAMMATION

(1) 100% complete
RESOLUTION

(2) SCAR

(3) CHRONIC inflammation
CHRONIC INFLAMMATION
-may be a sequel to acute inflammation or an autoimmune
response to a foreign antigen.

-occur when inflammatory response is unable to eliminate the
injurious agent or restore injured tissue to its normal state.

-primarily serves to contain
and remove a
pathological agent or process within a
tissue.
-frequently observed in conjunction with reparative
responses: namely, granulation tissue and fibrosis.
Cellular components of chronic
inflammation

Lymphocytes
Macrophages (aka,
histiocytes)
Plasma cells
Eosinophils
Mast cells
CHRONIC INFLAMMATION

MONOCYTE
Lymphocyte MACROPHAGE
HISTIOCYTE
CAUSES of CHRONIC INFLAMMATION

1) PERSISTENCE of infection

2) PROLONGED EXPOSURE to insult

3) AUTO-IMMUNITY
Chronic inflammation as a
PRIMARY RESPONSE
-the presence of cells characteristic of chronic
inflammation does not necessarily imply existence
of a persistent inflammation.

-a chronic inflammatory infiltrate is a primary
response to parasitic infections, certain
immune diseases, parasitic
infestations, and malignant tumors.
GRANULOMATOUS INFLAMMATION
-the mechanism for dealing with indigestible
substances.

-the principal cells involve are macrophages
and lymphocytes.
after amassing substances that they cannot
ingest, the macrophages lose their motility and
accumulate at site of injury.
they undergo changes in structure that
transforms them into epithelioid cells.
GRANULOMATOUS INFLAMMATION
-nodular collections of epithelioid cells form
granulomas.

-granulomas are the morphological hallmark
of granulomatous inflammation.
small collections of epithelioid cells surrounded
by a rim of lymphocytes; they are also populated
by multinucleated giant cells formed by
cytoplasmic fusion of macrophages.
GRANULOMA
4 COMPONENTS

Fibroblasts

Lymphocytes

HISTIOCYTES

“GIANT” cells
GRANULOMATOUS INFLAMMATION
Langhans giant cells –when the nuclei are
arranged around the periphery of the cell in a
horseshoe pattern.
GRANULOMATOUS INFLAMMATION
Foreign body giant cells – when a foreign
pathogenic agent or other indigestible material is
identified within the cytoplasm of multinucleated
giant cell.
GRANULOMATOUS INFLAMMATION
-the fate of granulomatous reaction is influenced by
the cytotoxicity of the inciting agent and its
immunogenicity.

-the typical tissue response elicited by:
(1) fungal infections
(2) tuberculosis
(3) leprosy
(4) schistosomiasis
(5) presence of foreign material, i.e. suture, talc
(6) sarcoidosis
MORPHOLOGIC PATTERNS in acute
and chronic inflammation

1. Serous inflammation

2. Fibrinous inflammation

3. Suppurative or purulent inflammation

4. Ulcer
Serous inflammation
-marked by an outpouring of thin fluid from the
blood serum or secretions of mesothelial cells
lining the body cavities (an effusion).
Fibrinous inflammation
-fibrinous exudates develop when the vascular leaks
are large enough or there is a procoagulant
stimulus in the interstitium.
-characteristic inflammation of body cavities.
Suppurative inflammation
-characterized by the production of large amount of
pus consisting of neutrophils, necrotic cells, and
edema fluid.
Ulcers
-local defect, or excavation, of the surface of an
organ or tissue that is produced by sloughing
(or shedding) of the inflammatory necrotic
tissue.
Systemic Manifestations of
Inflammation
-local injury may result in systemic effects that can
be debilitating:
(i) entrance of pathogen in the bloodstream
resulting in systemic activation of mediator
systems in the plasma and inflammatory cells
(sepsis)

(ii) severe local injury resulting in the release of
cytokines into the circulation causing
systemic effects
Systemic Manifestations of
Inflammation
-prominent systemic manifestations include:
(1) fever
(2) shock
(3) leucocytosis
(4) leucopenia
(5) acute phase response
Fever
-clinical hallmark of inflammation.

-bacteria, viruses, and injured cells stimulate the
production of endogenous pyrogens (IL-1, Il-6,
TNF-α) released by macrophages which stimulates
prostaglandin synthesis in the hypothalamic
thermoregulatory centers altering the
“thermostat” that controls the body temperature.
Shock
-under massive injury or infection spreading to the
blood, systemic release of TNF-α cause
systemic vasodilatation, increased vascular
permeability with vascular volume loss leading to
hypotension and shock.

-systemic activation of coagulation pathways
may occur generating microthrombi throughout
the body with consumption of clotting factors
predisposing to bleeding.
Leucocytosis
-increase in the number of circulating leucocytes.

-presents as a 2-3x increase mainly neutrophils.

-release of mediators accelerating release of
PMNs from the bone marrow.

-production of colony-stimulating factors induce
proliferation of bone marrow hematopoietic
precursor cells.
Leucocytosis

Neutrophilia – most common in association with
bacterial infections and tissue injury.

Lymphocytosis – usually accompany viral
infections.

Eosinophilia – associated with parasitic
infestations and allergic reactions.
Leucopenia
-absolute decrease in circulating white cell count.

-seen in patient with chronic debilitating
diseases, typhoid fever, and certain viral
and rickettsial infections.
Acute phase response
-characterized clinically by fever, leucocytosis,
decreased appetite, altered sleep patterns.

-changes in the plasma levels of acute phase
proteins.
group of molecules synthesized in the liver and
release in the circulation in response to acute
inflammatory response, e.g. C-reactive protein,
haptoglobulin, fibrinogen.
-reflected in accelerated erythrocyte
sedimentation rate (ESR) which is used as
qualitative index to monitor activity of many
inflammatory processes.