05-10-21 - Acute Inflammation Flashcards
What are the causes of acute inflammation?
What causes are the most common?
- Microbial infection (primary cause)
- Hypersensitivity (allergic) reactions (primary cause)
- Physical agents
- Chemical agents
What are the 5 signs of acute inflammation?
What causes them?
Red (rubor)
• Caused by dilation of blood vessels
Hot (calor)
• Peripheral increase in temperature
• Due to increased blood flow (hyperaemia)
Swollen (tumor)
• Due to mainly oedema (swelling caused by fluid build up)
• Some contribution from inflammatory cells
Painful/tendor (dolor)
• Stimulation of nerve endings by pressure and chemical mediators
Loss of function
What are the 2 initial phases of acute inflammation?
- Vascular phase – dilation and increased permeability
- Exudative phase – fluid and protein leaking through capillary walls, cells through venules => with the neutrophil polymorph being the most common cell to leak out
How does dilation occur during the vascular phase? What is it caused by?
- Capillary beds that are mainly empty start to contain blood, cells, and fluid
- This is from the release and activation of the pre-capillary sphincters, which leads to the opening of significant numbers of capillary beds
What causes the increased vascular permeability during the vascular phase? Hubby
What happens during this process?
Where does it occur specifically?
- The increase in vascular permeability of the vascular phase is produced by chemical mediators, including histamine and bradykinin
- It involves the stimulation of endothelial cells cytoskeleton by chemical mediators, which causes transient intercellular gaps (between the cells) to appear.
- The endothelial cells are not damaged in this process, just moved slightly
- This increase in vascular permeability is confined to post capillary venules
How does the exudate phase occur in venules?
What would occur normally?
What does the exudate contain = PROTEINS 2? fifi
What is a feature of this exudate?
- During the exudate phase, there is an increase in hydrostatic pressure (outwards), which causes fluid and proteins to be pushed out into the localised damaged tissue surrounding the venules.
- In transudate (normal) circumstances, any outflow of fluid is compensated by inflow of fluid (oncotic pressure)
- The exudate has a high protein content including:
- Immunoglobulins – may be important for destruction of invading organisms
- Fibrinogen – this is used to develop fibrin,
It creates a network that traps blood cells, platelets, and other components, forming a stable clot.
Wound Healing: The fibrin mesh provides a scaffold for cells involved in healing, helping to organize tissue repair and promote the healing process.
Preventing Blood Loss: By forming clots, fibrin helps stop bleeding, protecting the body from excessive blood loss.
- Fibrin makes extravascular contact, and is found on the surfaces of acutely inflamed organs
- The exudate has a high turn over rate, and is continuously removed by lymphatics
What conditions are exudate and transudate under?
How do they differ?
Exudate – occurs under acute inflammatory process
• Net flow out of fluid release and proteins
• Increased vascular permeability
• High protein content
Transudate – normal circumstances
• No net flow out
• Normal vascular permeability
• Low protein content
What happens to the lymphatic system during acute inflammation?
What is the role of the lymphatic system in acute inflammation? <=> ANTIGENS
Two types of inflammation of lymphatic system
- The lymphatics become dilated during acute inflammation
- The lymphatics drain the fluid from the exudate
- Antigens are carried to the local lymph nodes
- These antigens can then interact with a wide range of immune cells in the lymph nodes, which can then start to generate an immune response
- Lymphangitis – Inflammation of the lymphatic system
- Lymphadenitis – Inflammation of the local lymph node
What is the diagnostic feature of acute inflammation?
What are the 6 tasks neutrophils can perform? KDIPPP
Why might these be harmful?
What must be able to happen to prevent unnecessary damage?
- Neutrophil accumulation in the extracellular space is the diagnostic feature of acute inflammations
Neutrophils can: * Kill organisms * Degrade necrotic tissue * Ingest offending agents * Produce chemical mediators * Produce toxic radicals to kill foreign bodies * Produce tissue damaging enzymes
If the process of acute inflammation goes on for too long, these functions of neutrophils can result in tissue damage, so the reaction must be able to start and stop. The reaction has to be able to be turned on, aswell as off, in order to prevent unnecessary damage
What is the process that involves neutrophils (and other cells in exudate) moving into the inflamed area around venules?
How does this process occur?
- Neutrophils moving out of the vessels into the inflamed area is caused transmigration
- The vessel wall begins to express certain molecules (expressional proteins, like selectins and integrins), which react with the receptors on the neutrophils cell membrane
- This causes the neutrophils to attach to the venule wall with higher affinity, pavement (flatten), and squeeze through the gaps between the endothelial cells, which were formed in the vascular phase
What is chemotaxis?
What are some compounds for the chemotaxis of neutrophils? => substances that attract neutrophils, a type of white blood cell, to sites of infection or injury in the body.
- Chemotaxis is the movement of a motile organism in a direction corresponding to a gradient of increasing or decreasing concentration of a particular substance.
- Chemotactic compounds include:
- Bacterial products
- Some complement components (system of plasma proteins e.x serum proteins)
- Products of neutrophil activity
where do chemical mediators spread from in acute inflammation?
What are they made from?
What 5 things do they make happen?
- Chemical mediators spread from the uninjured tissue out into injured areas
- These chemical mediators are derived from cells and extracellular resources e.g. plasma
- The chemical mediaotrs cause:
- Increased vascular permeability
- Vasodilation
- Emigration of neutrophils
- Chemotaxis
- Itching and pain.
What are the 4 enzymes cascade systems that plasma contains?
- Complement system
- The kinins
- The coagulation factors
- Fibrinolytic system
The question refers to four important enzyme cascade systems in the plasma that play critical roles in the body’s response to injury, infection, and inflammation. Here’s what each system is and what it means:
- Coagulation Cascade: This system involves a series of enzymes that help form blood clots to stop bleeding. When a blood vessel is injured, this cascade is activated, leading to the conversion of fibrinogen to fibrin, which forms a mesh that stabilizes the clot.
- Fibrinolytic Cascade: This cascade helps dissolve blood clots after they are no longer needed. It involves enzymes like plasminogen, which is converted to plasmin, breaking down fibrin and allowing normal blood flow to resume.
- Complement Cascade: This system is part of the immune response. It consists of proteins that, when activated, help to destroy pathogens, promote inflammation, and enhance the ability of antibodies to clear infections. The complement system can be activated directly by pathogens or indirectly through antibodies.
- Kinin Cascade: This cascade produces kinins (like bradykinin), which are peptides that promote inflammation, increase blood vessel permeability, and cause pain. It plays a role in the inflammatory response and helps regulate blood pressure.
What This Means
These cascade systems are like a chain reaction: one enzyme activates another, leading to a series of responses. They are crucial for regulating blood clotting, inflammation, and the immune response, helping the body respond effectively to injury and infection.
What are the 6 roles of neutrophil polymorphs?
KDIP3
What are the 4 steps they use to do this?
MRPI
How can neutrophils be easily identified?
Neutrophils can: * Kill organisms * Degrade necrotic tissue * Ingest offending agents * Produce chemical mediators * Produce toxic radicals to kill foreign bodies * Produce tissue damaging enzymes
They do this via:
* Movement (chemotaxis)
* Recognition of, and adhesion to micro-organism (opsonins)
* Phagocytosis
* Intracellular killing of micro-organisms
Neutrophils can easily be identified as they contain a mulit-lobe nucleus
What are opsonins?
What are they used for?
How do they work?
What are 3 examples of major opsonins?
- Opsonins are an anti-body, or other substances, which binds to foreign micro-organisms, making them more susceptible to phagocytosis
- Opsonins are complementary in shape to specific receptors on leukocytes (white blood cells), so they increase the chance of phagocytosis occurring
- Major opsonins include:
- Fc fragment of IgC
- C3b fragment of C3
- Collectins (plasma proteins)
What is suppurative inflammation?
What is it caused by?
What is an abscess?
How does the abscess/ deep seated abscess drain?
What are examples of suppurative inflammation?
- Suppurative inflammation is the formation of pus made of neutrophils, bacteria, and cellular debris
- Causative stimulus virtually always an infective agent.
- Abscess – a collection of pus surrounded by membrane of sprouting capillaries, neutrophils and occasional fibroblasts.
- On draining, the abscess cavity collapses and obliterated by organisation and fibrosis
- Deep seated abscesses may drain along a sinus tract or fistula (abnormal joining of 2 areas)
- Example of suppurative acute inflammation is empyema of the gallbladder (collection of pockets of pus), meningitis, and bronchopneumonia
What does acute inflammation look like?
.
What is an example of membranous acute inflammation?
• Fibrin clot – herpes
What is an example of fibrinous acute inflammation?
• Fibrinous Pericarditis – Bread and butter heart.
What is an ulcer?
How is it produced?
Where is it most commonly found?
What is an example of ulceration?
- An ulcer is a local defect, or excavation, of the surface of an organ or tissue
- It is produced by sloughing (removal) of inflammatory necrotic tissue
- Inflammatory necrosis of the mucosa – mouth, stomach, intestine
- Chronic leg ulcers in those with circulatory disturbance.
- Oesophageal ulceration
What are 3 systemic effects of thermoregulation?
1. temp
2. tumours
3. test tube
What are symptoms of chronic inflammation?
- Pyrexia (elevation of body temperature) – Elevation in temperature of a few degrees may improve the efficiency of the leukocyte killing, and impairs the replication of many offending microorganisms
- Reticuloendothelial system hyperplasia – neoplastic infection (neoplastic infection – caused by tumour growth)
=>The phrase indicates that there is an increase in immune cells in the reticuloendothelial system, likely as a response to an infection that is related to tumor growth. This can happen in certain types of cancers, where the tumor might disrupt normal immune function or lead to secondary infections. - Increased erythrocyte sedimentation rate, meaning there may be a disease causing inflammation in your body.
red blood cells (erythrocytes) settle more quickly when blood is placed in a tube. - This can be indicative of anaemia (not enough RBCs/not enough quality RBCs)) or Leucocytosis (too many WBCs)
*
Symptoms may include malaise, anorexia, nausea, weight loss
* Weight loss – due to negative nitrogen balance, especially when there is chronic inflammation.
