Inflammation Lecture Notes PDF

Summary

This document is a set of lecture notes on inflammation, covering the causes, effects, and cellular response in both acute and chronic conditions. It provides a general overview of inflammatory processes.

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KAAF UNIVERSITY COLLEGE
SCHOOL OF NURSING/MW/PHN

PATHOLOGY

LECT. RICHMOND KWAKYE
INFLAMMATION
 INFLAMMATION
The term is derived from the Latin
"inflammare“ meaning to burn.
Inflammation is a local response
(reaction) of living vascularized tissues
to endogenous and exogenous stimuli.
Inflammation is fundamentally
destined to localize and eliminate the
causative agent and to limit tissue
injury.
 INFLAMMATION
Thus, inflammation is a physiologic
(protective) response to injury, an
observation made by Sir John Hunter
in 1794 concluded: “inflammation
itself not to be considered as a
disease but as a salutary operation
consequent either to some violence or
to some diseases
 INFLAMMATION
It is fundamentally a protective
response, designed to rid the organism
of both the initial cause of cell injury
(e.g., microbes, toxins) and the
consequences of such injury
(e.g.,necrotic cells and tissues).
 DEFINITION
Inflammation is defined as the complex yet systematic
biological response of vascularized living tissues to
harmful stimuli such as pathogens, damaged cell or
irritants. It is a protective mechanism, an attempt by
the organism to remove injurious stimuli as well as
initiate the healing process for the tissue.

Inflammation is a complex reaction in tissues that
consists mainly of responses of blood vessels and
leukocytes. These vascular and cellular reactions of
inflammation are triggered by soluble factors that are
produced by various cells or derived from plasma
proteins and are generated or activated in response to
the inflammatory stimulus.
 WHY INFLAMMATION
The benefits of inflammation include:
Identification of the injurious stimuli
curtailment of the progression of the
injurious agent,
dilution of the toxins produced by the
injurious agent,
destruction/degradation of the injurious
agent and preparation of the tissue for
repair
 However, inflammation is not always
beneficial e.g hypersensitivity
reactions.

Why?
 CAUSES OF INFLAMMATION
physical agents - mechanical injuries,
alteration in temperatures and pressure,
radiation injuries.
chemical agents- drugs and toxins.
biologic agents (infectious)- bacteria,
viruses, fungi, parasites
immunologic disorders- hypersensitivity
reactions, autoimmunity,
immunodeficiency states etc
genetic/metabolic disorders- examples gout,
diabetes mellitus etc…
 Nomenclature:
The nomenclatures of inflammatory
lesion are usually indicated by the
suffix 'itis'. Thus, inflammation of the
appendix is called appendicitis and
that of meninges as meningitis,
 Classification:
Inflammation is classified crudely
based on duration of the lesion and
histologic appearances into acute
and chronic inflammation.
 ACUTE INFLAMMATION
Acute inflammation is an immediate
and early response to an injurious
agent and it is relatively of short
duration, lasting for minutes, several
hours or few days.
It is characterized by exudation of
fluids and plasma proteins
(oedema)and the emigration of
predominantly neutrophilic leucocytes
to the site of injury.
The five cardinal signs of acute
inflammation
Redness (rubor) which is due to dilation of
small blood vessels within damaged tissue
as it occurs in cellulitis.
Heat (calor) which results from increased
blood flow (hyperemia) due to regional
vascular dilation
Swelling (tumor) which is due to
accumulation of fluid in the extravascular
space which, in turn, is due to increased
vascular permeability.
 Pain (dolor), which partly results from the
stretching & destruction of tissues due to
inflammatory edema and in part from pus
under pressure in as abscess cavity. Some
chemicals of acute inflammation, including
bradykinins, prostaglandins and serotonin
are also known to induce pain.
Loss of function: The inflammed area is
inhibited by pain while severe swelling may
also physically immobilize the tissue.
 Cellular response of
A.INFL.
A.Migration, rolling, pavementing, &
adhesion of leukocytes
B. Transmigration of
leukocytes( escape from the venules)
C. Chemotaxis ( leukocyte to the site
of inflammation)
D. Phagocytosis
Phagocytosis
Phagocytosis is the process of engulfment
and internalization by specialized cells of
particulate material, which includes invading
microorganisms, damaged cells, and tissue
debris.
These phagocytic cells include
polymorphonuclear leukocytes (particularly
neutrophiles), monocytes and tissue
macrophages.
Morphology of acute inflammation
Characteristically, the acute
inflammatory response involves
production of exudates.

An exudate is an edema fluid with high
protein concentration, which
frequently contains inflammatory cells.
 Effects of acute
inflammation
Beneficial effects
Dilution of toxins: The concentration of chemical and
bacterial toxins at the site of inflammation is reduced by
dilution in the exudate and its removal from the site by the
flow of exudates from the venules through the tissue to the
lymphatics.

Protective antibodies: Exudation results in the presence
of plasma proteins including antibodies at the site of
inflammation. Thus, antibodies directed against the
causative organisms will react and promote microbial
destruction by phagocytosis or complement-mediated cell
lysis.
 Beneficial effects

Fibrin formation: This prevents
bacterial spread and enhances
phagocytosis by leukocytes.
Plasma mediator systems
provisions: The complement,
coagulation, fibrinolytic, & kinin
systems are provided to the area of
injury by the process of
inflammation.
 Promotion of immunity: Micro-
organisms and their toxins are
carried by the exudates, either free
or in phagocytes, along the
lymphatic's to local lymph nodes
where they stimulate an immune
response with the generation of
antibodies and cellular immune
mechanisms of defense
 Harmful effects
Tissue destruction Inflammation may result in
tissue necrosis and the tissue necrosis may, in
turn, incite inflammation.
Swelling: The swelling caused by inflammation
may have serious mechanical effects at certain
locations. Examples include acute epiglottitis with
interference in breathing; Acute meningitis and
encephalitis with effects of increased intracranial
pressure.
Inappropriate response: The inflammatory
seen in hypersensitivity reactions is inappropriate
(i.e. exaggerated).
Outcomes of Acute Inflammation.

1) Complete resolution,
2) Healing by connective tissue
replacement
3) Progression of the response to
chronic inflammation.
4)Abscess formation
 When acute inflammation is successful
in eliminating the offenders the reaction
subsides, but if the response fails to
clear the invaders it can progress to a
chronic phase
CHRONIC INFLAMMATION
Chronic inflammation can be defined
as a prolonged inflammatory process
(weeks or months) where an active
inflammation, tissue destruction and
attempts at repair are proceeding
simultaneously.
 Causes of chronic
inflammation:
Persistent infections
Certain microorganisms associated
with intracellular infection such as
tuberculosis, leprosy, certain fungi etc
characteristically cause chronic
inflammation.
These organisms are of low toxicity
and evoke delayed hypersensitivity
reactions
Prolonged exposure to non-
degradable but partially toxic
substances
endogenous lipid components which
result in atherosclerosis or exogenous
substances such as silica, asbestos
Progression from acute
inflammation: Acute inflammation
almost always progresses to chronic
inflammation following
Persistent suppuration as a result of
uncollapsed abscess cavities, foreign
body materials (dirt, cloth, wool, etc)
 Autoimmuniy. Autoimmune diseases
such as rheumatoid arthritis and
systemic lupus erythematosis are
chronic inflammations from the outset.
 Cells of chronic
inflammation:
Monocytes and Macrophages
T-Lymphocytes
B-lymphocytes and Plasma cells
Mast cells and eosinophils appear
predominantly in response to parasitic
infestations & allergic reactions.
 Classification of chronic
inflammation:
Chronic inflammation can be classified into
the following two types based on histologic
features:
Nonspecific chronic inflammation: This
involves a diffuse accumulation of
macrophages and lymphocytes at site of
injury that is usually productive with new
fibrous tissue formations. E.g. Chronic
cholecystitis ( inflammation of your gall
bladder)
Specific inflammation (granulomatous inflammation):

Granulomatous inflammation is
characterized by the presence of
granuloma.
A granuloma is a microscopic
aggregate of epithelioid cells.
Epithelioid cell is an activated
macrophage, with a modified epithelial
cell-like appearance (hence the name
epithelioid)
 granuloma is a focus of chronic
inflammation consisting of a
microscopic aggregation of
macrophages that are
transformed into epithelia-like
cells, surrounded by a collar of
lymphocytes, with or without
giant cells.
 Major causes of granulomatious
inflammation include:
a) Bacterial: Tuberculosis, Leprosy,
Syphilis, Cat scratch disease,
Yersiniosis
b) Fungal: Histoplasmosis,
Cryptococcosis, Coccidioidomycosis,
Blastomycosis
c) Helminthic: Schistosomiasis
 d) Protozoal: Leishmaniasis,
Toxoplasmosis
e) Chlamydia: Lymphogranuloma
venerum
f) Inorganic material: Berrylliosis
SYSTEMIC EFFECTS OF INFLAMMATIONS

The systemic effects of inflammation
include:
a. Fever
b. Endocrine & metabolic responses
c. Autonomic responses
d. Behavioral responses
e. Leukocytosis
f. Leukopenia
g. Weight loss
 Fever
Fever is the most important systemic
manifestation of inflammation.
It is coordinated by the hypothalamus
& by cytokines (IL -1, IL-6, TNF-α)
released from macrophages and other
cells.
 Endocrine and metabolic responses
include:
The liver secrets acute phase proteins such
as:
C-reactive proteins
Serum Amyloid A
Complement and coagulation proteins
Glucocorticoids (increased)
Vasopressin (decreased)
 Autonomic responses include:
Redirection of blood flow from the
cutaneous to the deep vascular bed.
Pulse rate and blood pressure
(increased)
 Behavioral responses include:
- Rigor, chills, anoroxia, somnolence, and
malaise.
Leucocytosis is also a common feature of
inflammation, especially in bacterial
infections. Its usual count is 15,000 to 20,000
cells/mm3.
Most bacterial infections induce neutrophilia.
Some viral infections such as infectious
mononucleosis, & mumps cause
lymphocytosis.
 Parasitic infestations & allergic reactions
such as bronchial ashma & hay fever induce
eosinophilia.
Leukopenia is also a feature of typhoid
fever and some parasitic infections.. Weight loss is thought to be due to the
action of IL-1 and TNF-α which increase
catabolism in skeletal muscle, adipose tissue
and the liver with resultant negative nitrogen
balance.
 Cellular
response( assignment) 2
Briefly explain the ff cellular response to
acute inflammation
A.Migration, rolling, pavementing, &
adhesion of leukocytes
B. Transmigration of leukocytes
C. Chemotaxis