Cell injury
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Apr 18, 2017
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About This Presentation
pathology
Slide Content
Dr. Manisha Tambekar
Introduction
General considerations……
•Adapt or die!
•Reaction patterns in a given cell/tissue is often limited
•Degree of injury is a function of type, duration and
severity of insult
General considerations……
•Adapt or die!
•Reaction patterns in a given cell/tissue is often limited
•Degree of injury is a function of type, duration and
severity of insult
Definition
Cell injury: The effect of a variety of stresses due to
etiological agents a cell encounters resulting in changes in
its internal & external environment.
Cellular response to stress vary & depends upon
1. Host factors: type of cell & tissue involved
2. Factors pertaining to injurious agent : extent & type of
cell injury.
Cell injury: The effect of a variety of stresses due to
etiological agents a cell encounters resulting in changes in
its internal & external environment.
Cellular response to stress vary & depends upon
1. Host factors: type of cell & tissue involved
2. Factors pertaining to injurious agent : extent & type of
cell injury.
Introduction
•Pathology: the study (logos) of suffering (pathos)
•Four aspects of a disease process that form the core of
pathology
1. its cause (etiology)
2. Mechanisms of its development
( pathogenesis)
3. Structural alterations induced in cells &
organs ( morphological changes)
4. Functional consequences of the
morphologic changes ( Clinical significance)
•Pathology: the study (logos) of suffering (pathos)
•Four aspects of a disease process that form the core of
pathology
1. its cause (etiology)
2. Mechanisms of its development
( pathogenesis)
3. Structural alterations induced in cells &
organs ( morphological changes)
4. Functional consequences of the
morphologic changes ( Clinical significance)
Causes of cell injury
Genetic causes
Acquired causes -Hypoxia and ischemia
-Physical agents
-Chemical agents and drugs
-Microbial agents
-Immunological agents
-Nutritional derangements
-Psychological factors
Genetic causes
Acquired causes -Hypoxia and ischemia
-Physical agents
-Chemical agents and drugs
-Microbial agents
-Immunological agents
-Nutritional derangements
-Psychological factors
Causes of cell injury
Acquired causes
1. Oxygen Deprivation
Ischemia ( loss of blood supply from impeded arterial flow
or reduce venous drainage)
Local e.g. embolus
Systemic e.g. cardiac failure
Hypoxia ( deficiency of oxygen causing cell injury by
reducing aerobic oxidative respiration)
Oxygen problems e.g. altitude
Haemoglobin problems e.g. anaemia
Oxidative phosphorylation
E.g. cyanide poisoning
Acquired causes
1. Oxygen Deprivation
Ischemia ( loss of blood supply from impeded arterial flow
or reduce venous drainage)
Local e.g. embolus
Systemic e.g. cardiac failure
Hypoxia ( deficiency of oxygen causing cell injury by
reducing aerobic oxidative respiration)
Oxygen problems e.g. altitude
Haemoglobin problems e.g. anaemia
Oxidative phosphorylation
E.g. cyanide poisoning
Causes of cell injury
2. Physical agents
Direct Physical Effects
-Exposure of tissue to extreme heat or cold results in
direct injury that is often irreversible, resulting in a
pattern of coagulative necrosis.
-Sudden changes in pressure can cause cellular
disruption (e.g. a hammer blow to the thumb).
-Electrical currents can cause direct breakdown of
cellular membranes that may be irreversible.
2. Physical agents
Direct Physical Effects
-Exposure of tissue to extreme heat or cold results in
direct injury that is often irreversible, resulting in a
pattern of coagulative necrosis.
-Sudden changes in pressure can cause cellular
disruption (e.g. a hammer blow to the thumb).
-Electrical currents can cause direct breakdown of
cellular membranes that may be irreversible.
Causes of cell injury
3. Chemical agents & drugs:
Common poisons (arsenic, cyanide, mercury)
interfere with cellular metabolism. If ATP levels
drop below critical levels, affected cells will die.
The list of pharmaceuticals that may have toxic
effects on cells is enormous. Some act directly, but
most have their effect through breakdown
metabolites. Metabolism of alcohol (a type of drug)
to acetaldehyde is one example.
3. Chemical agents & drugs:
Common poisons (arsenic, cyanide, mercury)
interfere with cellular metabolism. If ATP levels
drop below critical levels, affected cells will die.
The list of pharmaceuticals that may have toxic
effects on cells is enormous. Some act directly, but
most have their effect through breakdown
metabolites. Metabolism of alcohol (a type of drug)
to acetaldehyde is one example.
Causes of cell injury
4. Microbial agent
Injuries by microbes include infections caused by Fungi,
Rickettsiae, Bacteria, parasites and Viruses
5. Immunologic agents: Double –edged sword’- protects the
host against various injurious agents but it may also cause
cell injury.
Hypersensitivity reactions
Anaphylactic reactions to a foreign body
Autoimmune diseases
4. Microbial agent
Injuries by microbes include infections caused by Fungi,
Rickettsiae, Bacteria, parasites and Viruses
5. Immunologic agents: Double –edged sword’- protects the
host against various injurious agents but it may also cause
cell injury.
Hypersensitivity reactions
Anaphylactic reactions to a foreign body
Autoimmune diseases
Causes of cell injury
6. Nutritional Imbalances:
Dietary insufficiency of protein, vitamins and/or
minerals can lead to injury at the cellular level due
to interference in normal metabolic pathways.
Dietary excess
can likewise lead to cellular and tissue alterations
that are detrimental e.g. fat is the biggest
offender, or excess ingestion of "health
supplements"
6. Nutritional Imbalances:
Dietary insufficiency of protein, vitamins and/or
minerals can lead to injury at the cellular level due
to interference in normal metabolic pathways.
Dietary excess
can likewise lead to cellular and tissue alterations
that are detrimental e.g. fat is the biggest
offender, or excess ingestion of "health
supplements"
Causes of cell injury
7. Psychogenic diseases: No specific biochemical or
morphologic changes in acquired mental diseases.
problems of drug addiction, alcoholism & smoking results
in various organic diseases such as liver damage, chronic
bronchitis, lung cancer, peptic ulcer, HT, IHD etc,
8. Genetic derangements: result in a defect as severe as the
congenital malformations associated with down
syndrome, caused by chromosomal abnormalities.
Inborn error of metabolism arising from enzymatic
abnormalities.
7. Psychogenic diseases: No specific biochemical or
morphologic changes in acquired mental diseases.
problems of drug addiction, alcoholism & smoking results
in various organic diseases such as liver damage, chronic
bronchitis, lung cancer, peptic ulcer, HT, IHD etc,
8. Genetic derangements: result in a defect as severe as the
congenital malformations associated with down
syndrome, caused by chromosomal abnormalities.
Inborn error of metabolism arising from enzymatic
abnormalities.
Causes of cell injury
9. Iatrogenic causes
10. Idiopathic diseases: ‘Unknown cause’. Exact cause
is undetermined.
Most common form of HT ( 90%) is idiopathic ( or
essential ) HT.
11. Ageing: it is result of a progressive decline in the
proliferative capacity & life span of cells and the
effects of continous exposure to exogenous influences
that result in progressive accumulation of cellular and
molecular damage.
9. Iatrogenic causes
10. Idiopathic diseases: ‘Unknown cause’. Exact cause
is undetermined.
Most common form of HT ( 90%) is idiopathic ( or
essential ) HT.
11. Ageing: it is result of a progressive decline in the
proliferative capacity & life span of cells and the
effects of continous exposure to exogenous influences
that result in progressive accumulation of cellular and
molecular damage.
Cellular responses
1.Cellular adaptations
2.Reversible & irreversible cell injury
3.Subcellular changes
4.Intracellular accumulations.
1.Cellular adaptations
2.Reversible & irreversible cell injury
3.Subcellular changes
4.Intracellular accumulations.
Cellular responses
Adaptive Responses
Atrophy
Hypertrophy
Hyperplasia
Metaplasia
Cell Injury
Reversible
Irreversible
Cell death
Necrosis
Apoptosis
Adaptive Responses
Atrophy
Hypertrophy
Hyperplasia
Metaplasia
Cell Injury
Reversible
Irreversible
Cell death
Necrosis
Apoptosis
Adaptation
In case of severe stress, the narrow range
of alteration in structure & function is not
sufficient, the cell undergoes an altered
but steady state e.g. atrophy, hypertrophy.
In case of severe stress, the narrow range
of alteration in structure & function is not
sufficient, the cell undergoes an altered
but steady state e.g. atrophy, hypertrophy.
Cellular responses
1. Cellular adaptations:
Increased functional demand
↓
cell adapt to the changes
↓
expressed morphologically
↓
revert back to normal after the stressed is removed.
1. Cellular adaptations:
Increased functional demand
↓
cell adapt to the changes
↓
expressed morphologically
↓
revert back to normal after the stressed is removed.
Adaptive response:
Hypertrophy: An increase in the size of cells and
,with such change ,an increase in the size of the organ
( without any change in the number of cells)
Hypertrophied organ has no new cells ,just large cells.
Atrophy : shrinkage in the size of the cell substance
is known as atrophy.
Hypoplasia : Term used for developmentally small
size.
Aplasia: Extreme failure of development so that only
rudimentary tissue is present.
Hypertrophy: An increase in the size of cells and
,with such change ,an increase in the size of the organ
( without any change in the number of cells)
Hypertrophied organ has no new cells ,just large cells.
Atrophy : shrinkage in the size of the cell substance
is known as atrophy.
Hypoplasia : Term used for developmentally small
size.
Aplasia: Extreme failure of development so that only
rudimentary tissue is present.
Adaptive response
Hyperplasia: An increase in number of cells in an
organ or tissue resulting in enlargement of the organ
or tissue.
Metaplasia: Reversible change in which one adult
cell type ( epithelial or mesenchymal) is replaced by
another adult cell type.
A regressive change in the adult cells manifested by
variation in their size, shape & orientation.
Commonly associated with chronic inflammation and
irritation or is seen adjacent to cancerous change.
There is tendency to develop into cancer in some
cases.
Hyperplasia: An increase in number of cells in an
organ or tissue resulting in enlargement of the organ
or tissue.
Metaplasia: Reversible change in which one adult
cell type ( epithelial or mesenchymal) is replaced by
another adult cell type.
A regressive change in the adult cells manifested by
variation in their size, shape & orientation.
Commonly associated with chronic inflammation and
irritation or is seen adjacent to cancerous change.
There is tendency to develop into cancer in some
cases.
Adaptive response
Intracellular accumulations : one of the
manifestations of metabolic derangements in cells is
the intracellular accumulations of abnormal amounts
of various substance.
1. A normal cellular constituent- water, lipid, proteins
& carbhohydrates.
2. An abnormal substance
Exogenous : minerals or products of infectious
agents
Endogenous : products of abnormal synthesis or
metabolism
3. Pigments
Intracellular accumulations : one of the
manifestations of metabolic derangements in cells is
the intracellular accumulations of abnormal amounts
of various substance.
1. A normal cellular constituent- water, lipid, proteins
& carbhohydrates.
2. An abnormal substance
Exogenous : minerals or products of infectious
agents
Endogenous : products of abnormal synthesis or
metabolism
3. Pigments
HEART( lipid accumulation)
lipid accumulation in two forms:
1.Tigroid effect: bands of yellowed myocardium
alternating with bands of darker, red brown
myocardium uninvolved in patients with profound
anemia
2.Diffuse ,uniform appearance of myocardium e.g:
Diphtheritic myocarditis & severe anemia.
lipid accumulation in two forms:
1.Tigroid effect: bands of yellowed myocardium
alternating with bands of darker, red brown
myocardium uninvolved in patients with profound
anemia
2.Diffuse ,uniform appearance of myocardium e.g:
Diphtheritic myocarditis & severe anemia.
Cellular responses : Subcellular
changes
Residual effects of reversible cell injury persist in cell
as evidence of cell injury at Subcellular level
(Subcellular changes) or metabolites may accumulate
within the cell (Intracellular accumulations).
changes
Residual effects of reversible cell injury persist in cell
as evidence of cell injury at Subcellular level
(Subcellular changes) or metabolites may accumulate
within the cell (Intracellular accumulations).
Cellular responses:
Reversible & Irreversible cell injury
Cell injury :
If the cell’s adaptive capability is exceeded or if adaptive response
is not possible, cell injury develops.
Two types
1. Reversible cell injury ( Degeneration ):stress is mild to
moderate ; injured cell may recover.
2. Irreversible cell injury ( Necrosis ) : Persistent & severe form of
cell injury leads to cell death.
Reversible & Irreversible cell injury
Cell injury :
If the cell’s adaptive capability is exceeded or if adaptive response
is not possible, cell injury develops.
Two types
1. Reversible cell injury ( Degeneration ):stress is mild to
moderate ; injured cell may recover.
2. Irreversible cell injury ( Necrosis ) : Persistent & severe form of
cell injury leads to cell death.
Reversible change
Fatty change ( Steatosis)
Abnormal accumulation of triglycerides within
parenchymal cells.
Organs:
1.Liver ( common , organ involved in fat metabolism)
2.Heart
3.Muscle
4.Kidney
Fatty change ( Steatosis)
Abnormal accumulation of triglycerides within
parenchymal cells.
Organs:
1.Liver ( common , organ involved in fat metabolism)
2.Heart
3.Muscle
4.Kidney
Fatty change ( Steatosis)
Causes :
1.Toxins ( Alcohol abuse)
2.DM
3.Protein malnutrition
4.Obesity
5.Anoxia
6.kwashiorkor in children
Causes :
1.Toxins ( Alcohol abuse)
2.DM
3.Protein malnutrition
4.Obesity
5.Anoxia
6.kwashiorkor in children
Fatty liver
Foam cells
Accumulation of triglycerides, cholesterol & cholesterol
esters in phagocytic cells.
Scavenger macrophages, whenever in contact with the
lipid debris of necrotic cells or abnormal forms of
plasma lipids become stuffed with lipid becoz of
phagocytic activities.
Cytoplasm becomes vacuolated & are called as ‘ FOAM
CELLS’. E.g: Atheroslcerosis of aorta
Accumulation of triglycerides, cholesterol & cholesterol
esters in phagocytic cells.
Scavenger macrophages, whenever in contact with the
lipid debris of necrotic cells or abnormal forms of
plasma lipids become stuffed with lipid becoz of
phagocytic activities.
Cytoplasm becomes vacuolated & are called as ‘ FOAM
CELLS’. E.g: Atheroslcerosis of aorta
ATHEROSLCEROSIS
Fatty dots F.Atheroma Plaques
Complicated
Fatty dots F.Atheroma Plaques
Complicated
Fatty Liver: Microscopy
Appears as clear vacuoles within parenchymal cells
D/D: Intracellular accumulations of water &
polysaccharides ( glycogen) produce clear vacuoles.
1.Lipids:
Avoidance of fat solvents used in paraffin embbeding.
Frozen section : to identify fat.
Special stains: Sudan IV, Oil Red- O (orange red ),
Osmic acid, Sudan black( color: black )
Appears as clear vacuoles within parenchymal cells
D/D: Intracellular accumulations of water &
polysaccharides ( glycogen) produce clear vacuoles.
1.Lipids:
Avoidance of fat solvents used in paraffin embbeding.
Frozen section : to identify fat.
Special stains: Sudan IV, Oil Red- O (orange red ),
Osmic acid, Sudan black( color: black )
Fatty Liver: Microscopy
2. Glycogen: PAS ( Periodic Acid Schiff )
Reaction
3. Water/ Fluid with a low protein
content :
Neither fat nor glycogen can be
demonstrated.
2. Glycogen: PAS ( Periodic Acid Schiff )
Reaction
3. Water/ Fluid with a low protein
content :
Neither fat nor glycogen can be
demonstrated.
Cellular swelling/ cloudy swelling
Organs: kidney ,liver
Causes: ischemia, hypoxia, effect of poison.
Mech : cells are incapable to maintain ionic and fluid
homeostasis.
Gross: organ is swollen, c/s bulges outwards, pale, hazy
& has a grey parboiled appearance. Soft in consistency.
Microscopy: cells are swollen, indistinct cell margins
and cytoplasm filled with eosinophilic(proteinaceous )
granules and cell borders might be grayed releasing
granules.
Organs: kidney ,liver
Causes: ischemia, hypoxia, effect of poison.
Mech : cells are incapable to maintain ionic and fluid
homeostasis.
Gross: organ is swollen, c/s bulges outwards, pale, hazy
& has a grey parboiled appearance. Soft in consistency.
Microscopy: cells are swollen, indistinct cell margins
and cytoplasm filled with eosinophilic(proteinaceous )
granules and cell borders might be grayed releasing
granules.
Reversible cell injury
Hydropic degeneration :
vacuoles appear in the cytoplasm.
In extreme forms ,cells get distended with fluid &
rupture, resulting in death of cells. e.g. blisters,
Microvasculature of organ is compressed by swollen
cells ( hepatic sinusoids, capillaries of renal cortex)
resulting in pallor of the organ
Hydropic degeneration :
vacuoles appear in the cytoplasm.
In extreme forms ,cells get distended with fluid &
rupture, resulting in death of cells. e.g. blisters,
Microvasculature of organ is compressed by swollen
cells ( hepatic sinusoids, capillaries of renal cortex)
resulting in pallor of the organ
Irreversible cell injury
Necrosis: Death of a cell or group of cells in the
midst of living tissue.
1.Coagulative necrosis
2.Liquefactive necrosis
3.Caseous necrosis
4.Fat necrosis
5.Fibrinoid necrosis
6.Gangrenous necrosis
Apoptosis: Programmed cell death.
Necrosis: Death of a cell or group of cells in the
midst of living tissue.
1.Coagulative necrosis
2.Liquefactive necrosis
3.Caseous necrosis
4.Fat necrosis
5.Fibrinoid necrosis
6.Gangrenous necrosis
Apoptosis: Programmed cell death.
Classification of morphologic forms
of cell injury
1.Reversible cell injury
2.Irreversible cell injury
3.Programmed cell
death
4.Deranged cell
metabolism
5.After-effects of
necrosis
Retrogressive changes
Cell death –necrosis
Apoptosis
Intracellular
accumulation of lipid,
protein, carbhohydrate
Gangrene, pathologic
calcification.
of cell injury
1.Reversible cell injury
2.Irreversible cell injury
3.Programmed cell
death
4.Deranged cell
metabolism
5.After-effects of
necrosis
Retrogressive changes
Cell death –necrosis
Apoptosis
Intracellular
accumulation of lipid,
protein, carbhohydrate
Gangrene, pathologic
calcification.
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