Cell Injury - PDF

Summary

This document provides an overview of cellular injury, covering various causes, mechanisms and effects. It includes detailed explanations of different types of cellular damage such as hypoxia, inflammation, necrosis and apoptosis.

Full Transcript

 DR
SHEREEN FATHY (MD)
PROF. OF PATHOLOGY
 Causes of cellular injury:
1. Living infectious irritant
2. Non-living
3. Hypoxia
4. Hypersensitivity
5. Nutritional disturbances
6. Genetic disorders
7. Enzymatic disorders
 Causes of cell injury:
1- Hypoxia: (Decrease oxygen supply)is caused by:
a. Ischemia e.g. arterial occlusion and atherosclerosis
b. Inadequate oxygenation e.g. cardiac and pulmonary disease
c. Decreased oxygen carrying capacity of the blood e.g. anaemia and carbon monoxide
poisoning.
2-Infectious agents:Viruses, bacteria, fungi and parasites.
3- Physical agents: Trauma, heat, cold, irradiation and electric shock.
4- Chemical agents & Drugs:Acids, alkalies, animal and plant poisons, certain therapeutic
drugs.
5-Immunological reactions:Autoimmune diseases.
6-Nutritional disturbances.
7-Genetic & Enzymatic disorders.
File:Animal cell structure en.svg
4 intracellular systems vulnerable to cell injury:
Aerobic respiration
Maintenance of
And
cell membrane
generation of ATP

Synthesis of enzymes
and the genetic apparatus
structural proteins
 EFFECTS OF CELL INJURY
1. ATP depletion
2. Altered membrane permeability
3. Increased intracellular Ca
4. Formation of intracellular toxic compounds
Mechanisms of cellular injury:
 Mechanisms of cell injury
Increases intracellular calcium:
The source of Ca2+ is influx from plasma membrane or release from
mitochondria and endoplasmic reticulum.
Increased cytosolic Ca2+ activates a number of enzymes:

A- Phospholipases degrade membrane phospholipids
B- Proteases break down both membrane and cytoskeletal proteins
C- Endonucleases DNA and chromatin fragmentation
D- ATPases thereby hastening ATP depletion
Effect of injury depends on:

1. Type of injured cells
2. Duration
3. Severity of irritant
 Injurious Agent
(Hypoxia,
Ischemia)
Mitochondria (-Oxidative
Phosphorylation)

ATP Depletion ATP decreases
Pathogenesis
---Na K Pump

Na & H20 enter
cell
Cellular
Swelling
End result of injury :
1. Inflammation
2. Reversible injury (Degeneration)
3. Irreversible injury ( Necrosis //Apoptosis)
4. Intracellular accumulation (water, Fat……)
5. Extracellular accumulation (calcification,
amylodosis)
6. Vascular disturbances (Thrombosis and odema)
7. Disturbance of cell growth (dysplasia, neoplasia)
End result of injury :
IRREVERSIBLE
(CELL DEATH)
Necrosis
Apoptosis

REVERSIBLE
(DEGENERATION)
Cloudy swelling
Water Accumulation
Hydropic swelling
Parenchymal
Fat Accumulation
Mesenchymal
 Cloudy swelling:

Pathological accumulation of water.
Reversible cell injury characterized
morphologically by swelling of the cells
(due to water accumulation) and
granularity of the cytoplasm.
 CLOUDY SWELLING
Def.:
Pathogenesis: HYPOXIA

Inhibition of oxidative phosphorylation

ATP depletion

1. Failure of sodium and potassium pump
2. Increase intracellular osmotic load
3. Swelling and beading of the mitochondria
Gross Picture:
Rounded
pale
borders

Tense
Heavy
capsule

Enlarged
Liver, Bulging
cut
Kidney section
, Heart
Gross picture: Increased weight and pale color

Microscopic picture: Cytomegaly and pale eosinophilic granular
cytoplasm

Examples:
A. Renal tubules (nephritis ) albuminurea

B. Cardiac muscles Weak contractility

C. Liver
Microscopic picture
Cells :Swollen
Cytoplasm: Fine red
granules
Nucleus: Normal
Capillaries between
cells: Compressed.
 If the injury stops
If the injury
→ Reversible (cell
Fate: continues →
returns to
Hydropic swelling
normal).
 Hydropic swelling
Definition: Reversible cell injury characterized morphologically by
swelling of the cells and vacuoles in the cytoplasm (due to excess
water accumulation). The lesion is more advanced than cloudy
swelling

Pathogenesis: Similar to cloudy swelling
 Hydropic degeneration

Pathogenesis: same as cloudy swelling but with more
water accumulation

Gross picture:
Microscopic picture:
-Viral hepatitis
- Diabetes mellitus (B cells)
Examples: - Epidermal cells in burns
- Renal tubules (K defficiency)
 Fatty change

Definition:

Pathological accumulation of excess
neutral fat in parenchymatous cells
 Fatty change
(fatty degeneration)
Def.: Lipid accumulation in the parenchymal cells
Pathogenesis: Suppression of enzymes involved in lipid metabolism
Liver
Affected organs.: Other
Causes in liver:
1- Hypoxia
2- Excessive fat intake
3- Deficiency of lipotropic factors
4. Hepatotoxins
5. Hepatitis
Gross: Organomegaly, Tense capsule, Soft greasy in
consistency, Yellowish

Liver Diffuse ( as in severe alcoholic hepatitis)
Spoty (Patchy) (as in CVC) Nutmeg liver

HEART Diffuse (as in diphtheritic toxic myocarditits)
Spoty (Patchy) (as in hypoxia) Tabby cat
heart = tiger
heart
Microscopic Signet ring appearance
Diagnostic microscopic sign
Special stain: Sudan III (orange),
Osmic acid (black)
Nutmeg liver
File:Non-alcoholic fatty liver disease1.jpg
*
 Causes:

1- Hypoxia

2- Bacterial toxins of acute and chronic infections

3- Chemicals as alcohol, phosphorous and carbon
tetrachloride
File:Stage of liver damage.JPG

Effects
End result of injury :
IRREVERSIBLE
(CELL DEATH)
Necrosis
Apoptosis

REVERSIBLE
(DEGENERATION)
Cloudy swelling
Water Accumulation
Hydropic swelling
Parenchymal
Fat Accumulation
Mesenchymal
Def.:
Local death of a large groups of cells.
Gross picture:
Opaque yellow surrounded by red area
 Microscopic picture:

CELLULAR CHANGES:
ARCHITECURAL CHANGES

NUCLEAR Structurless
CYTOPLASMIC (Autolysis)
Structure
Pyknosis Indistinct CM ghost
(Coagulation)
Karyorrhexis Cytomegaly
Karyolysis Eosinophilia
Ca++
File:Necrotic leg wound.png 220px-Tissue_necrosis_following_bite_from_Bothrops_asper_PLoS_Medicine
Types of necrosis:
1. Coagulative Necrosis Structure
ghost

ALL organs except CNS
Denaturation > Lysis

2. Liquefactive Necrosis Structurless

CNS and abscess
Lysis > Denaturation
3. Caseous Necrosis

Chessy necrosis = yellowish white
T.B
Causes: ** Ischemic (End arteritis oblitrans)
** Allergic inflammation
** Bacilli
 4. Fat Necrosis

a) Enzymatic:
- as in acute hemorrhagic pancreatitis
- Caused by digestion of peritoneal fat by lipase and protease enz.
- Grossly: Hard chalky white patches

b) Traumatic
- Due to breast trauma
- caused by auto-digestion and ruptured fat cells
- hard mass
- clinically : misdiagnosed as carcinoma
 Other types of necrosis
5. Gummatous
6. Haemorrhagic
7. Fibrinoid
Apoptosis
Introduction on apoptosis :
*Apoptosis is programmed cell death involved in
development, elimination of damaged cells, and
maintenance of cell homeostasis.
I. Physiological Apoptosis:
- During embryogenesis
- hormone dependent
- normal turn over of cells

II. Pathological Apoptosis:
- Organ rejection
- Viral hepatitis (Councilman bodies)
- malignant tumors
- mild radiation and mild thermal
injury
Morphology of apoptotic cells:
File:Apoptosis.png
Morphology of apoptotic cells:

!. Shrinkage of cell size
2. Nuclear Condensation and DNA
fragmentation
3. Formation of apoptotic bodies
4. Not surrounded by inflammation
File:Apoptosis multi mouseliver.jpg
Comparison between the necrosis and
apoptosis:
Feature Necrosis Apoptosis
Cell size Enlarged (swelling) Reduced (shrinkage)
Nucleus Pyknosis → karyorrhexis Fragmentation into
→ karyolysis nucleosome-size
fragments
Plasma Disrupted Intact;
membrane
Cellular contents Enzymatic digestion; may Intact;
leak out of cell
inflammation Frequent No
Cause Invariably pathologic Often physiologic