Inflamamtion happens ONLY in
living organisms
Acute inflammation
Initial rapid response
Develops within minutes or hours
Lasts for short period of time
Inflammatory cells: neutrophils
Chronic inflammation
Usually follows unhealed or untreated acute inflammation or rise de novo
It takes days or weeks to develop
Lasts for long period of time
Inflammatory cells: lymphocytes, macrophages
Chemical mediators of inflammation
produced by hsot cells & plasma proteins
induce & regulate inflammation
cardinal signs of inflammation
heat
redness
swelling
pain
loss of function
most common causes of inflammation
infection and microbial toxins
which cells sence presence of microbes and necrotic cells?
epithelial cells
macrophages
dendritic cells
leukocytes
-> express TLRs
acute inflamation has 3 major components
(1) dilation of small vessels, leading to an increase in
blood flow
(2) increased permeability of the microvasculature, enabling plasma proteins and leukocytes to leave the circulation
(3) emigration of the leukocytes from the microcirculation, their accumulation in the focus of injury, and their activation to eliminate the offending agent
The escape of fluid, proteins, and blood cells from the vascular system into interstitial tissues or body cavities is known as
exudation
exudate
Extravascular fluid
High protein concentration
Cellular debris
->Increase in permeability of blood vessels during inflammation
=> EDEMA
rich in proteins and acute inflammatory cells
Transudate
Low protein concentration
Little or no cells , low specific gravity
-> Osmotic or hydrostatic imbalance BUT the vascular permeability is normal
clear sterile filrate of blood
main leukocates in inflammation are
neutrophil and macrophages
steps in leukocyte migration
margination
rolling
adhesion
transmigration
selectins
WEAK ADHESION
Mediate the initial weak interactiones between leukocytes and endotheium (E, P, L), expression of selectin depends on the state of endothelial cells and inflammatory mediators
Express on the surface of cells only when activated by endothelial injury, cytokines,...
Important for the process of rolling and slowing down the leukocytes
Integrins
FIRM ADHESION
Mediate firm adhesion of leukocytes to blood vessel wall
Adhesion of leukocytes to endothelial cells
Adhesions of various cells to extracellular matrix
Integrins on the surface of leukocytes have low-afinity for ligands, they have to be activated by chemokines
Main site of transmigration
postcapillary venules
PECAM-1 (CD31)
important step in binding leukocytes to endothelium and transmigration process
Collagenase are
enzymes secreted by leukocytes in extravascular space
chemotaxis is
locomotion along a chenical gradient
Chemoattractants (exogenous/endogenous):
Bacterial products
Cytokines
Component of complement (C5a)
Leukotrien B4
process of phahocytosis
Recognition and attachment of the particle to be ingested; manose receptors (sugars
in the bacterial wall), scavanger receptors (LDL microbe particles) and opsonins receptors (IgG and C3b)
Engulfment; formation of phagosome and phagolysosomes
Intracellular destruction of microbes nad debris; ROS, NO, lysosomal enzymes, granular enzymes
unlike lysosmes granular enzymes are
actively secreted
neutrophils have:
Specific (secondary) granules packed with lysozme, collagenase, gelatinase,...
Azurophil (primary) granules packed with MPO, bactericidila factors,..
protective mechanism agains granular enzymes
anti-protease in the serum and tissue fluids like α1-anti-trypsin
Neutrophil extracellular traps (NETs) are
extracellular fibrillar networks that concentrate anti-microbial substances at sites of infection and prevent the spread of the microbes by trapping them in the fibrils
cell derived mediators of inflammation
Histamine
Prostaglandins
Chemokines
Platelet-activating factor
plasma derived
Complement
Kinins
vasocative amines
Histamine and Serotonin
Stored in cells as preformed molecules in an active form
Produced by mast cells in the tissue, but also basophils and platelets in the blood
Released after degranulation of cells
-> physical injury
-> binding of antibodies to mast cells
-> complement products called anaphylatoxins
effects of histamine
stimulation of endothelial retraction -> higher permeability
dilation of arteriloles
short action
binds to H1 receptor on endo cells
antihistaminica block
H1 receptors
serotonin
vesoactive mediator in paltelets and neuroendocrine cells, GI tract
neurotrasmitter in GI
VASOCONSTRICOR
Arachidonic acid derivates
Arachidonic acid is derived from phospholipids through the action of phospholipases.
Arachidonic acid is further metabolized through two pathways:
•Lipoxygenase pathway -> leukotriens and lipoxins •Cyclooxygenase pathway -> prostaglandins
=> bind to G protein-coupled receptors on many cell types and can mediate virtually every step of inflammation
Prostagladins
Mainly produced in mast cells, macrophages and endothelial cells
COX-1, COX-2 ØPGE2, PGD2, PGF2a, PGI2 (prostacyclin), and TXA2 (thromboxane A2)
Pain, fever
Note the opposite effects of prostacyclin and thromboxane A2!!!
Leukotrines
produced in leukocytes and mast cells by the action of lipoxygenase and are involved in vascular and smooth muscle reactions and leukocyte recruitment.
Multiple steps in leukotrien production
LTB4 important for chemotaxis,activation of neutrophils and stimulation of ROS production
LTC4 , LTD4 and LTE4 are important for vasoconstriction and bronchospasm
Classification of Inflammations
Duration -> acute or chronic
Etiology -> infectious, chemical, physical or immune causes
Location -> localized or widespred
Pathologic features
morphology of acute inflammation
vasodilation, accumulation of leukocytes, Oedema
Pathologic forms of inflamamtion
• Serous inflammation
• Fibrinous inflammation
• Purulent inflammation
• Ulcerative inflammation
• Pseudomembranous inflammation
• Chronic inflammation
• Granulomatous inflammation
Serous infammation
• Early stage of most inflammation (e.g., pneumonia,...)
• Viral infection of skin vesicles in herpesvirus infection
• Joint swelling in rheumatoid arthritis
Marked by exudation of EC serous fluid -> effusion
Fibrunous inflammation
• Increased↑vascular leaks
• Localprocoagulant stimulus
High molecular proteins such as fibrinogen pass out of the blood
Fibrinous Pericarditis
• Fibrinous exudate is characteristis of inflammation in the lining of body cvities such as pericaridium or pleura
• Eosinophilicmeshworkor amorphous coagulum
Outcomes of fibrinous inflammation
• Dissolvedbyfibrinolysisand cleared by macrophages
• Ingrowth of granulation tissue – leads to scarring
• Obliterationofpericardialsac
purulent inflammation characterised by
pus
Pus consists of
neutrophils
debris of necrotic cells
Oedema fluid
tracheobronchitis is
diffuse purulent inflammation
brain abcess is
localized purulent inflammation
abcess is
localized collection of pus
ulcer is
local defect of the surface of an organ or tissue (hole)
acute: -> intense polymorphonuclear infiltration and vascular dilatation in the margins and base
chronic: -> mononuclear infiltration and fibrosis
chronic inflamation charaterized by
• Mononuclear cells infiltration
• Tissue injury – destruction
• Attempts of healing - repair by fibrosis and angiogenesis
cuases of chronic inflammation
persistent infection
hypersenitivity disease (autoimmune)
prolonged exposure to toxins
Granulomatous inflamation
The granuloma consists of:
• Epithelioid cells (activated macrophages)
• Lymphocytes
• Multinucleated giant cells
Noncaseating granulomas
Sacroidosis
Chrons disease
Foreign body geanuloma
Caseating granulomas
langhans giant cells
regeneration of labile tissue
can readily regenerate after
injury as long as stem cells are preserved.
regeneration of stabile tissue
cells are normally in the G0 stage, but they can divide in response to injury
regeneration of permanent tissue
terminally differentiated nonproliferative cells
liver regeneration
regenerates from progenitor cells
very fast
repair by scaring
replacement of injured tissue by ct if its not capeble of regeneration
cells participating in wound healing
Polymorphonuclear leukocytes
Macrophages (central cellular players in the repair process)
Myofibroblasts
Fibroblasts
Angioblasts
Epithelial cells
Angiogenesis
formation of new blood vessels
critical in healing
newly formed vessels are leaky (incomlete interendothelial junctions) -> edema
granulation tissue
Inflammatory cells
Proliferation of fibroblasts
New thin-walled capillaries
Loose extracellular matrix
Complications of wound healing
• Defects in healing:
-> Chronic wounds (venous leg ulcers, diabetic ulcers, pressure sores, arterial ulcers)
• Deficient scar formation -> Dehiscence
• Excess scar formation -> Keloid /hypertrophic scar –> Contractures –> Exuberant granulation
classical macrophage activation
Induced by microbial products
TLRs and IFN-y play important role
M 1 macrophages produce NO and ROS
Important role in host defense against microbial pathogens
alternative macrophage activation
Tlymphocytes, IL-4, IL-13
M 2macrophages stimulate tissue repair
secrete growth factors that promote angiogenesis, activate fibroblasts, and stimulate collagen synthesis
when granulomatous we alway have to check for
TBC
Immune granuloma
Persistent Tcell mediated response to an antigen thant can't be easily removed (microbe or self-antigen)
Tlymphocytes, IL-2, IFN-y
foreign body granuloma
Inflammatory response to inert foreign body
ABSENT Tcell-mediated immune responses
Talc, surgical material,...
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