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61190
Acute Inflammation
Descrição
Blood Science Mapa Mental sobre Acute Inflammation, criado por maisie_oj em 29-04-2013.
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blood science
blood science
Mapa Mental por
maisie_oj
, atualizado more than 1 year ago
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Criado por
maisie_oj
mais de 11 anos atrás
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Resumo de Recurso
Acute Inflammation
Definition
Complex reaction of vascularized tissue to injurious agents or necrotic tissue
Aims to get rid of irritants and prepare injured tissue for repair
Consists of vascular, cellular and systemic responses
Generally protective but can be harmful
Hypersensitivity (e.g. to insect bite)
Inflammatory diseases
Repair of cell damage leading to fibrosis
2 types
Acute
Rapid onset
Short duration (mins, hours, days)
Chronic
Long duration (months, years)
Different cell types and tissue responses
Causes
Infection - bacterial/parasitic
Trauma
Physical/Chemical agens - burns, irradiation
Tissue necrosis (by definition)
Foreign bodies (e.g. sutures)
Immune reaction
Some causes have distinct features but all produce fundamental features
Symptoms
Calor (hotness)
Rubor (redness)
Tumour (swelling)
Dolor (pain)
Laseofunctio (loss of function)
Vascular Changes
Alterations in vascular calibre cause changes in blood flow
Transient constriction then dilation of arterioles, capillaries and venules
Increased blood flow to capillaries
Increased permeability of capillaries
Structural changes in small blood vessels allow plasma proteins and cells to leave circulation
Increased vascular permeability
Accumulation of fluid in interstitial tissue - oedema
Protein-rich fluid = exudate
Protein-low fluid = transudate
Migration of leukocytes into tissue
Loss of fluid causes blood to become more viscous - moves more slowly (stasis)
Allows cells to come into contact with blood vessel wall
Leukocytes stick to endothelium and migrate out into tissues
Changes to Vascular Permeability
Formation of Endothelial Gaps
Rapid, short duration - 30 mins
Caused by histamine, leukotrienes, bradykinin
Cause cell contraction
TNF and IL-1 have similar effects but they are delayed (4-6-hours)
Only affects venules
Direct Endothelial Cell Injury
Rapid, long lasting
Caused by necrotising injuries - burns
Destruction of endothelial cells causes immediate, sustained vascular permeability
Response can be delayed - sunburn
Leukocyte Mediated Endothelial Cell Injury
Leukocytes activated as part of acute inflammatory response
Release toxic oxygen species which kill endothelial cells
Increased Transcytosis
Enhanced by VEGF and histamine
Movement of interconnected vesicles across cytoplasm
Vesicuvacuolar organelle
Angiogenesis
Part of response to acute inflammation
New blood vessels are leaky
Prolonged
Cellular Changes
Leukocyte extravasation
Margination, rolling (transient adhesion) and firm adhesion to endothelium
Transmigration across endothelium (diapedesis)
Migration in the tissue towards chemotactic stimulus
Accumulation in area of injury
Activation to destroy and engulf injurious agent
Margination - cells occupy periphery of blood vessel (due to stasis)
Leukocyte Adhesion and Transmigration
Selectins
E-selectin - endothelial cells
P-selectin - endothelial cells and platelets
L-selectin - leukocytes
Bind to sialyl-Lewis X-modified glycoprotein on leukocytes
Mediate rolling
Immunoglobulins
ICAM-1 - mediates adhesion, arrest and migration
VCAM-1 - mediates adhesion
Found on endothelial cells
CD31 (PECAM) - mediates migration
Ligands for integrins
Transmembrane protein - alpha and beta subunit
Beta2 integrins
LFA-1 (CD11a/CD18)
Mac-1 (CD11b/CD18)
Chemotaxis
Movement along a chemical gradient
Stimuli
Endogenous
Complement components (C5a) in plasma
Products of the lipoxygenase pathway (LTB4) from damaged tissue
Cytokines (IL-8) from activated macrophages/lymphocytes
Exogenous
Bacterial products
Chemotactic factors bind to 7 g-protein coupled receptors on leukocytes
PLCg and PI3K activation
Actin polymerisation
Migration
Leukocyte Activation
Via 4 receptors on leukocytes
7 transmembrane G-protein coupled receptors
Recognise microbes, C5a and bacterial products
Initiates release of microbicidal factors
Toll-like receptors
Different TLRs recognise different microbes
Bind to LPS and dsRNA (found in some viruses)
Lead to production of cytokines and ROIs
Mannose receptor
Causes ingesting of microbes
Binds terminal mannose/fucose residues on bacterial wall that aren't present in mammals
Scavenger receptors
Bind to modified LDL/bacterial wall
Phagocytosis
3 stages
Recognition and attachment
Microbes bind to specific receptors - aided by opsonisation (higher affinity)
Opsonins
IgG - Fc receptor
C3 complement fragment - CR1
Fibrinogen - integrins
Fibronectin - CR proteins
Engulfment
Cytoplasmicpseudopods flow around particle and form phagosome
Fuses with lysosomal granule ieukocyte (phagolysosome)
Killing and degradation
Generally via RO species
H2O2-MPO-Halide system
Bacteriacidal permeability increasing protein (BPI)
Lysozyme - hydrolysis of glycopeptides
Lactoferrin
Major basic protein - cytotoxic to parasites
Defensins - cytotoxic to microbes
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