Lecture 5 Inflammation 2024-2025 PDF

Summary

This document provides a general overview of inflammation, covering terminology, significance, and components. It details acute and chronic inflammation, including vascular and cellular changes, and concludes by discussing outcomes, types of inflammation, and ulcers. It's suitable for medical students.

Full Transcript

2024-2025 General Pathology Dr Ali Al khafaji
Lecture 5 Inflammation
Inflammation:-
It is Complex biological response of vascularized living tissues to local injury or harmful stimuli,
such as pathogens, damaged cells, or irritants. Inflammation is induced by chemical mediators
that are produced by host cells in response to injurious stimuli.
Terminology
Inflammatory conditions are termed by adding the suffix (-itis) to the affected organ or tissue
For example:-
Pulpitis : inflammation of pulp
Gingivitis: inflammation of gingiva
Hepatitis: inflammation of liver
Appendicitis: inflammation of appendix

Significance of inflammation
1- It can cause life-threatening hypersensitivity reaction.
2- It can cause progressive organ damage from chronic inflammation and subsequent fibrosis
like rheumatoid arthritis and atherosclerosis.

The components of acute and chronic inflammatory responses: circulating cells and proteins, cells of blood vessels, and
cells and proteins of the extracellular matrix.

Components of inflammation:
Many tissues and cells are involved in the inflammatory reaction, including
1- plasma fluid proteins.
2- circulating leukocytes (neutrophils, monocytes, eosinophils, lymphocytes, basophils, in
addition to platelets).
3- blood vessels.
4-The connective tissue cells are mast cells, fibroblasts, macrophages, and lymphocytes.
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5-The extracellular matrix consists of structural proteins (collagen, elastin), adhesive
glycoproteins (fibronectin, laminin), and proteoglycans.
Inflammation is divided into
1- Acute inflammation
2-Chronic inflammation
Acute inflammation Chronic inflammation
Early onset (sec. – min) Later onset (days)
Short duration (min. – days) Longer duration (wks – yrs)
Fluid exudation (edema( Inducing B.V. proliferationand scarring
Polymorph nuclearleukocyte Involving lymphocytes and
emigration.(neutrophils) macrophages infiltration

The cardinal signs of inflammation
The classical signs of inflammation are:
1-Redness
2- Swelling
3--Heat
4-Pain
5-loss of function
These signs are typically more prominent in acute inflammation than in chronic inflammation
General characters of inflammation: -
A- Inflammation is generally characterized by two main components:
1- Vascular wall response.
2- Inflammatory cell response.
B- The effects of inflammation are mediated by inflammatory mediators which are:1- Circulating
plasma proteins
2- Factors produced locally by vessel wall or inflammatory cells.
C- Termination: Active anti-inflammatory mechanism begins when:
1- The causative agents is eliminated
2- The secreted mediators are removed
Acute Inflammation has Two Major Components
I-VASCULAR CHANGES: the main vascular reactions are increased blood flow secondary to
vasodilation and increased vascular permeability, both designed to bring blood cells and proteins
to site of injury
A-change in vascular caliber and flow
1- Initial transient vasoconstriction, followed by

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2- Vasodilation causing increasing in blood flow to the area of injury. (this is the cause of heat
and redness).
B- Increased Vascular Permeability (Vascular Leakage)
increased vascular permeability leading to the escape of a protein-rich fluid (exudate) into the
extravascular tissue. The loss of protein from the plasma reduces the intravascular osmotic
pressure and increases the osmotic pressure of the interstitial fluid. results in edema ( which is
the cause of swelling)
The most common mechanism of vascular leakage
1-endothelial cell contraction leading to the formation of endothelial gaps in venules which is
elicited by histamine, bradykinin, leukotrienes, , and many other classes of chemical mediators.
2- Direct endothelial injury as by burns or infections
Edema Excessive fluid in the interstitial tissue or body cavities which may be either exudates or
transudate
Exudate is an inflammatory extravascular fluid that has a high protein concentration, cellular
debris,. It implies significant alteration in the normal permeability of small blood vessels in the
area of injury.
Transudate is a fluid with low protein content that results from increase hydrostatic pressure as
a consequence of reduced venous return. transudate is accumulate in non inflammatory conditions
Purulent exudates, is an inflammatory exudate rich in leukocytes (mostly neutrophils), the
debris of dead cells and, in many cases, microbes.

Formation of transudates and exudates. , A transudate is formed when fluid leaks out because of increased hydrostatic
pressure or decreased osmotic pressure. C, An exudate is formed in inflammation because vascular permeability increases
as a result of the increase in interendothelial spaces.

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II-CELLULAR CHANGES:
LEUKOCYTE RECRUITMENT AND ACTIVATION
A critical function of inflammation is to deliver leukocytes to the site of injury and to activate the
leukocytes to perform their normal functions in host defense. Leukocytes ingest offending agents,
kill bacteria and other microbes, and get rid of necrotic tissue and foreign substances.
The sequence of events in the recruitment of leukocytes from
the vessel lumen to the extravascular spaces consist of:-
1-Margination and rolling
2-Adhesion
3-Transmigration across the endothelium (also called
diapedesis)

Mechanisms of leukocyte migration through blood vessels. The leukocytes (neutrophils shown here) first roll, then become activated and adhere
to endothelium, then transmigrate across the endothelium, pierce the basement membrane, and migrate toward chemoattractants emanating from
the source of injury. Different molecules play predominant roles in different steps of this process: selectins in rolling; integrins in firm adhesion.

Leukocyte Activation
Once leukocytes have been recruited to the site of infection or tissue necrosis, they must be
activated to perform their functions. Stimuli for activation include microbes, products of
necrotic cells, and several mediators
Phagocytosis
Phagocytosis: Is the engulfment and degradation of the bacteria and cellular debris by
neutrophils and macrophages.
Phagocytosis involves three distinct but interrelated steps:-
(1) Recognition and attachment of the particle to be ingested by the leukocyte (adherence and
opsonization).
(2) Its engulfment, with subsequent formation of a phagocytic vacuole.
(3) Killing or degradation of the ingested material..(reactive oxygen and nitrogen species and
lysosomal enzyme)

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1-Recognition and Attachment (adherence and opsonization)

Phagocytosis of microbes and dead cells is initiated by recognition of the particles by receptors
expressed on the leukocyte surface; these receptors recognize microbes and host protein
(opsonins). Contact of the bacteria or antigen with the phagocyte cell membrane is essential for
trapping the agent and triggering the final steps of phagocytosis. The efficiency of phagocytosis
is greatly enhanced when microbes are opsonized by specific proteins (opsonins) for which the
phagocytes express high-affinity receptors.
Opsonization: it is coating the antigen with antibody or complement. This coating enhances or
increases the binding of the antigen to the leukocyte cell membrane.
The major opsonins are IgG antibodies, the C3b breakdown product of complement, and certain
plasma lectins, all of which are recognized by specific receptors on leukocytes
2-Engulfment
During engulfment, extensions of the cytoplasm (pseudopods) flow around the particle to be
engulfed, eventually resulting in complete enclosure of the particle within a phagosome created
by the plasma membrane of the cell. The limiting membrane of this phagocytic vacuole then
fuses with the limiting membrane of a lysosome resulting in discharge of the granule's contents
into the phagolysosome.
3-Killing and Degradation:
The ultimate step in the elimination of infectious agents and necrotic cells is their killing and
degradation within neutrophils and macrophages of the. Microbial killing is accomplished largely
by oxygen-dependent mechanisms. (reactive oxygen and nitrogen species and lysosomal enzyme)

Phagocytosis. Phagocytosis of a particle (e.g., a bacterium) involves (1) attachment and binding of the particle to receptors on the
leukocyte surface, (2) engulfment and fusion of the phagocytic vacuole with granules (lysosomes), and (3) destruction of the ingested particle.iNOS, inducible nitric
oxide synthase; NO, nitric oxide; ROS, reactive oxygen species.

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Outcomes of Acute Inflammation depends on:-
1-The nature and intensity of the injury.
2-The site and tissue affected.
3-The responsiveness of the host.
Outcomes of acute inflammation
1-Resolution: Regaining normal histological & functional tissue. It occurs when there is:
a- Limited or short lived injury.
b. Minimal or no tissue damage.
c. Tissue which is capable of replacing any irreversibly injured cells.
2- Progression to chronic inflammation: Occur if
a. The offending agent is not removed.
b. There is continuing tissues injury.
c. There is decreased capacity of the affected tissue to regrow.
Chronic inflammation may be followed by restoration of the normal structure and function or
may lead to scarring.
3-Suppuration : means pus formation
Pus: A purulent inflammatory exudate caused by pyogenic bacteria
Pus is a mixture of:-
1. Living & dead neutrophils.
2. Bacteria.
3. Cellular debris.
4. edema fluid
Abscesses are focal collections of pus, typically have a central, largely necrotic region rimmed
by a layer of preserved neutrohils with a surrounding zone of dilated vessels and fibroblast
4- Scarring and fibrosis
It means replacement of the injured tissue by fibrous connective tissue. This occurs if we have
large tissue destruction as in abscess or if the inflammation occur in tissue that do not regenerate

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(Outcomes of Acute Inflammation)

Morphology of acute inflammation
Depend on
1- The nature and intensity of injury
2- The site and tissues affected
3- The responsiveness of the host
Types
1- Serous inflammation
2- Suppurative (purulent) inflammation
3- Ulcers
1- serous inflammation characterized by
Outpouring of thin fluid (plasma or mesothelial secretion).
Example (Pleural, pericardial cavities &peritoneal.)
The Fluid called effusion

2-Fibrinous inflammation characterized by
Inflammation of lining body cavities
Example (Meninges, pericardium & pleura)
More severe injury with more vascular permeability
Large molecules pass (fibrinogen) lead to fibrin deposited in extracellular

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3- Suppurative (purulent) inflammation characterized by
Formation of Large amount of pus or purulent exudates
Infiltration of Neutrophile, with necrotic cells and edema
Causative agents mostly Bacteria (staph , strepto, pneumo…….
Example (Acute appendicitis)

The Pus is thick creamy yellow or blood stain
4- Pseudomembranous inflammation of mucous membrane characterized by
Sever injury cause extensive epithelial necrosis and sloughing
Made greates large shallow ulcers
Cover by mixture of fibrin +dead epithelium +neutrophils +red cells +bacteria
Forming white-creamy color pseudo-memberane
Diphtheria

Abcess
It’s a Localized collection of purulent inflammatory exudates in the tissue or organ.
Abscesses have central mass of necrotic leukocyte and tissue debris surrounded by
preserved neutrophile without vascular dilatation
My be wall off and replace by CT

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Ulcer
It's a local defect or exracavation of surface of an organ that is shedding by inflammatory
necrotic tissue.
Most common in

1- inflammatory necrosis of mucosa-lined cavities ( mouth , larynx, stomach…)
2- subcutaneous inflammation of lower extremities ( old age with vascular defect)
Effects of acute inflammation
Effects of acute inflammation Beneficial Harmful effects
effect 1- swelling and edema like acute
1- dilution of toxin by edemas fluid. epiglositis
2- production of Ab. 2- increased tissue pressure that may lead
3-fibrin network formation form scaffold to tissue necrosis
for inflam. Cells & limits spread of infection 3-digestion of viable tissue
4- sever damage in allergic reaction
5-generalized increased vascular
permeability ---shock (anaphylactic shock)

The end

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