Acute Inflammation 2023-2024 Lecture Notes PDF

Summary

These lecture notes cover Acute Inflammation, focusing on the causes, features, and mechanisms involved. They are for the 2023-2024 academic year at the University of Babylon-Hammurabi Medical College in Iraq.

Full Transcript

ACUTE INFLAMMATION -1
Prof. Dr. Hadi Al-mousawi
Histopathologist F. I. C. M. Path.
Session 3
L1
2023-2024
References

Robbins basic pathology.
Muir's Textbook of pathology.
Objectives
Major causes and biological purposes of acute
inflammation.
Characteristic macroscopic features of acute
inflammation.
Characteristic microscopic features
- Oedema.
-Vasodilatation.
-Neutrophil margination and migration.
How the microscopic changes relate to the
macroscopic ones.
 Acute inflammation
Definition:
The local response of living tissues to injury due to
any agent.
So it is body defense reaction in order to : eliminate
or limit the spread of injurious agents as well as
to remove the consequent necrosed cells and
tissues.

Innate, immediate and early.

Short duration –minutes/hours/few days
 Acute Inflammation
Major characteristics of acute inflammation
1. Vascular reaction
Accumulation of fluid exudate and neutrophils
in tissues
2.Controlled by a variety of chemical mediators
derived from plasma or cells
3.Protective, but can lead to local complications
and systemic effects
4. usually followed by repair.
Objectives
Major causes and biological purposes of
acute inflammation.
Characteristic macroscopic features of acute
inflammation.
Characteristic microscopic features
- Oedema.
-Vasodilatation.
-Neutrophil margination and migration.
How the microscopic changes relate to the
macroscopic ones.
 Causes of acute inflammation
Microbial Infections (bacterial, viral, fungal, parasitic)
are among the most common and medically important
causes of inflammation.
eg. pyogenic organisms
Hypersensitivity reactions (acute phase) against
environmental substances or against “self” tissues.
Physical &Chemicals agents: (e.g., thermal injury, such
as burns or frostbite; irradiation; toxicity from certain
environmental chemicals) injure host cells and elicit
inflammatory reaction.
Tissue necrosis. including ischemia (as in a myocardial
infarct) and physical and chemical injury
Objectives
Major causes and biological purposes of acute
inflammation.
Characteristic macroscopic features of acute
inflammation.
Characteristic microscopic features
- Oedema.
-Vasodilatation.
-Neutrophil margination and migration.
How the microscopic changes relate to the
macroscopic ones.
 Clinical features of acute
inflammation
Main clinical signs:
–RUBOR = redness
–TUMOR = swelling
–CALOR = heat
–DOLOR = pain
& loss of function
Objectives
Major causes and biological purposes of acute
inflammation.
Characteristic macroscopic features of acute
inflammation.
Characteristic microscopic features
- Oedema.
-Vasodilatation.
-Neutrophil margination and migration.
How the microscopic changes relate to the
macroscopic ones.
 Acute inflammation has two major
components:

Vascular changes.

Cellular events.
 Vascular Changes
1. Transient vasoconstriction of arterioles (few sec.).

2. Vasodilatation of arterioles and then capillaries
---> increase in blood flow(heat and redness).

3. Increased permeability of blood vessels
---> exudation of protein -rich fluid into tissues
---> slowing of circulation.

4. Concentration of RBCs in small vessels and increased
viscosity of blood = STASIS
 Increased Vascular Permeability
Increasing vascular permeability-------->
movement protein-rich fluid and even blood
cells into the extravascular tissues--->increases
the osmotic pressure of the interstitial fluid
------- > leading to more outflow of water from
the blood into the tissues.
Fluid loss from vessels -Starling‟s Law
Fluid flow across vessel walls is determined by
the balance of hydrostatic pressure within the
vessel and the difference in colloid osmotic
pressure (protein content) between the plasma
and interstitial fluid:-
–Increase hydrostatic pressure ---> increase fluid
flow out of vessel
–Increase colloid osmotic pressure of
interstitium ---> increase pulls fluid into vessel
and/or prevents fluid from leaving
 Fluid exudation
Acute inflammation -
–arteriolar dilatation leads to increase in
hydrostatic pressure
–increased permeability of vessel walls leads
to loss of protein into interstitium
Net flow of fluid out of vessels
 Exudate vs Transudate
Fluid loss in inflammation is an EXUDATE = high
protein content, specific gravity above 1.02.

Fluid loss due to hydrostatic pressure
imbalance only (eg. venous outflow obstruction)
is a TRANSUDATE = low protein content, specific
gravity less than 1.012
 Oedema
Oedema = excess of fluid in interstitium, can be
transudate or exudate
(Oedema leads to increased lymphatic
drainage)
Pus = a purulent exudate, rich in neutrophils
and cell debris
 In inflammation, lymph flow is increased and
helps drain edema fluid, leukocytes, and cell
debris from the extravascular space.
In severe inflammatory reactions, especially
to microbes, the lymphatics may transport the
offending agent, contributing to its
dissemination.
 Mechanisms lead increased vascular permeability in
acute inflammatory reactions

Endothelial cell contraction leading to intercellular
gaps in postcapillary venules. is the most common
cause of increased vascular permeability.
Endothelial injury. vascular leakage occur due to
endothelial cell necrosis and detachment.
Endothelial cells are damaged in
Sever burns.
Infections
as a consequence of leukocyte accumulation along the
vessel wall.
 Mechanisms lead increased vascular permeability in
acute inflammatory reactions

Increased transcytosis of proteins. occurs
through channels formed by fusion of
intracellular vesicles
Leakage from new blood vessels. tissue repair
involves new blood vessel formation
(angiogenesis).
These vessel sprouts remain leaky until
proliferating endothelial cells mature
sufficiently to form intercellular junctions.
 Cellular Events
LEUKOCYTES RECRRUTEMNT TO SITE OF INJURY.
1.Stasis causes neutrophils to line up at the edge of blood
vessels along the endothelium
= MARGINATION.

2.Neutrophils then roll along endothelium, sticking to it
intermittently = ROLLING.

3.Then stick more avidly = ADHESION.

4.Followed by EMIGRATION of neutrophils through blood
vessel wall.

5. MIGARTION in interstitial tissues toward
a chemotactic stimulus.
 Margination and Rolling.
The smaller red cells tend to move faster
than the larger white cells, leukocytes are
pushed out of the central axial column and
thus have a better opportunity to interact
with lining endothelial cells, especially as
stasis sets in.=== margination.
 If the endothelial cells are activated by
cytokines and other mediators produced
locally, they express adhesion molecules
to which the leukocytes attach loosely.
These cells bind and detach and thus
begin to tumble on the endothelial
surface =====rolling.
 The weak and transient interactions
involved in rolling are mediated by the
selectin family of adhesion molecules.
The three members of this family are E-
selectin , expressed on endothelial cells; P-
selectin , present on platelets and
endothelium; and L-selectin , on the surface
of most leukocytes.
Adhesion.
The rolling leukocytes are able to sense
changes in the endothelium that initiate the
next step in the reaction of leukocytes, which
is firm adhesion to endothelial surfaces.
This adhesion is mediated by integrins
expressed on leukocyte cell surfaces
interacting with their ligands on endothelial
cells
 Emigration (Transmigration).
leukocytes migrate through the vessel wall
primarily by squeezing between cells at
intercellular junctions. This extravasation of
leukocytes, called diapedesis.
occurs mainly in the venules of the systemic
vasculature.
migration (Chemotaxis) & phagocytosis
After extravasating from the blood, leukocytes
move toward sites of infection or injury along a
chemical gradient.
Both exogenous and endogenous substances can
be chemotactic for leukocytes, including the
followings :
1. Bacterial products.
2. Cytokines.
3. Components of the complement system.
4. Products of the lipoxygenase pathway of
arachidonic acid (AA) metabolism
 Neutrophils phagocytose microorganisms

Activated neutrophils may release toxic
metabolites and enzymes causing
damage to the host tissue
Neutrophil margination ….
And emigration Migration
Objectives
Major causes and biological purposes of acute
inflammation.
Characteristic macroscopic features of acute
inflammation.
Characteristic microscopic features
- Oedema.
-Vasodilatation.
-Neutrophil margination and migration.
How the microscopic changes relate to the
macroscopic ones.
How do these changes combat injury?
1.Exudation of fluid
Delivers plasma proteins to area of injury
immunoglobulins
inflammatory mediators
fibrinogen
Dilutes toxins

Increases lymphatic drainage
Delivers micro-organisms to phagocytes
and antigens to immune system
How do these changes combat injury?
2.Infiltration of Cells
Removes pathogenic organisms, necrotic
debris
3. Vasodilatation
Increases delivery, increases temperature
4. Pain and loss of function
Enforces rest, reduces chance of further
traumatic damage.