Principles of cell injury and cellular adaptation .ppt
1. ChapterChapter :1:1
PrinciplesPrinciples ofof cellcell injuryinjury andand
adaptationadaptation
Presented by: Prof.Mirza Anwar BaigPresented by: Prof.Mirza Anwar Baig
Anjuman-I-Islam's Kalsekar Technical CampusAnjuman-I-Islam's Kalsekar Technical Campus
School of Pharmacy,New Pavel,NaviSchool of Pharmacy,New Pavel,Navi
Mumbai,MaharashtraMumbai,Maharashtra
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2. Contents:
⢠Causes of cell injury
⢠Pathogenesis and morphology of
cell injury.
⢠Cellular adaptation
⢠Cellular atrophy and hypertrophy.
3. CELL INJURY
⢠Cell injury results from a disruption of one
or more of the cellular components that
maintain cell viability.
⢠Defined as variety of stresses a cell encounters
as a result of internal or external environmental
changes.
⢠Cell injury is common to all pathologic
processes.
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4. CELL INJURY
⢠Cellular adaptation
⢠Reversible or irrversible cell injury
⢠Subcellular changes and intracellular accumlation
Injury at one point induces a cascade
of effects.
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10. Pathogenesis of cell injury
⢠General principles of pathogenesis
1. Type, duration and severity of injurious agents
2. Type, status and adaptability of target cell
3. Underlying intracellular phenomena
eg. Mitochondrial damage, cell wall damage, free
radicals
4. Morphological consequences
eg. Ultrastrucal changes, swelling
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11. OUTCOMES OF CELL INJURY
REVERSIBLE CELL DEATH CELL
ADAPTATIONS
NORMAL CELL
CELL INJURY / CELL STRESS
ACUTE CHRONIC
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12. 1.Pathogenesis of ischemic and
hypoxic injury
Reversible cell injury:
1. Decreased generation of cellular ATP
2. Intracellualar lactic acidosis: Nuclear clumping
3. Damage to plasma membrane pump
- ATP dependent Na /K pump, Ca pump
4. Reduced protein synthesis- Dispersed ribosomes
Irreversible cell injury:
1. Mitochondrial damage- âca influx
2. Activated phospholipase- membrane damage
3. Intracellular proteases- cytoskeleton damage
4. Activated endonucleases- nuclear damage
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13. 1.1: Ischemia reperfusion injury and free
radical mediated cell injury
3 different consequences:
1. from ischaemia to reversible injury
2. from ischaemia to reperfusion injury
3. from ischaemia to irreversible injury
Mechanism:
1. Calcium overload: âlipid peroxidation of cell
membrane
2. Generation of ROS:
3. Subsequent inflammatory reactions neutrophils
utilize oxygen and gives free radicals 13
14. 2. Pathogenesis of chemical injury:
⢠Direct cytotoxic effect
â Direct cytotoxic effect: Hgcl2 poisoning,
Anticancer agents
Conversion to reactive toxic metabolites
metabolites kills the cells eg, CCl4 affects liver
Acetaminophen poisoning
3. Pathogenesis of physical injury:
Ionizing radiations.- cell membrane & DNA
damage
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15. Cellular adaptation:
Classifcation:
a)Atrophy and Hypertrophy (âor âin size)
b)Hyperplesia (ânumber of cells)
c) Metaplasia (change from one type to another
type) and dysplasia (changed phenotypic
differentiation)
16. a. Atrophy
1.Physiologic atrophy: Brain,Gonads,
2.Pathologic atrophy
a)Starvation atrophy
b)Ischaemic atrophy eg, atropic kidney
c)Disuse atrohy eg, atropy of pancreas
d)Neuropathic atrophy eg. Motor neuron
disease
e)Endocrine atrophy eg, atropy of thyroid
and adrenal
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21. c. Hyperplasia:
⢠Temporary Increase in the number of the parenchymal cells.
⢠Resulting in enlargement of organ.
⢠Often hypertrophy and hyperplasia occures simultaneously
⢠Occures due to increased in mitosis of the resting cells.
⢠Neoplasia causes change in the genetic composition of the
cells.
CAUSES:
A. PHYSIOLOGICAL HYPERPLASIA:
I) Hormonal hyperplasia eg: âin size of breast during pregnancy
and lactation. Pregnant uterus
ii) Compensatory hyperplasia: Eg: Regenration of liver cells after
hepatectomy,epidermis after skin abrasion.
B.PATHOLOGIC HYPERPLASIA:
I) Endometrial hyperplasia in excess oestrogen
ii) In wound healing: proliferation of fibroblasts cells
iii) Formation of skin warts: papilloma viral infection
22. d. Metaplasia:
⢠It is defined as a reversible change of one type of
epithelial or mesenchymal cells to another type of adult
epithelium or mesenchymal cells.
⢠long time metaplasia may result in cancer.
⢠Divided in 2 types:
A. EPITHELIAL METAPLASIA:
1. Squamous metaplasia:
Eg: In bronchus of chronic smokers
Utreus of old age
2. Columnar metaplasia:
Eg: Intestinal metaplasia in healed chronic gastric
ulcer.
B. MESENCHYMAL METAPLASIA:
1. Osseous metaplasia: Eg: arterial wall in old age
2. Cartilaginous metaplasia: Eg; healing of fractures
23. e. Dysplasia:
⢠Means 'disordered cellular development'.
⢠Often accompanied with metaplasia and hyperplasia.
⢠Often occurs in epithelial cells.
⢠Observed charactertics are
â Increased number of layers of epithelial cells
â Increased mitotic activity
â Disorderly arrangement of cells from basel layer to
surface layer.
â Cellular and nuclear pleomorphism (variability in the
size, shape and staining of cells and/or their nuclei.)
25. Morphology of Irreversible cell
injury
a) Autolysis or self digestion
b) Necrosis
c) Apoptosis
d) Gangrene
e) Calcification
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26. CONCEPTS - CELL DEATH
⢠There is no singal biochemical event that
equates with cell death.
⢠Necrosis = âcell murderâ
⢠Apoptosis = âprogrammed cell death or cell suicideâ
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27. NECROSIS
⢠Morphologic types of necrosis
â Coagulative
â Liquifactive
â Caseous
â Enzymatic (fat)
⢠The type of necrosis is dependent upon patterns of
enzymatic degradation of cells and extracellular
matrix, the type of necrotic debris, and by
bacterial products when present.
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28. Coagulative necrosis:
⢠Common type of necrosis
⢠caused by irreversible focal injury,ischemia.
⢠Foci are pale,firm and slightly swollen.
⢠Hall mark is presence of tombstones.
Liquefaction necrosis:
Caused due to ischaemic injury or bacterial
infection.
Eg: infarct brain.
Affected area is soft containing necrotic debris.
Caseous necrosis:
Found in foci of tuberclosis infection.
have the features of coagulative and liquefaction
necrosis.
Appears like dry cheese,soft, granular and yellowish.
29. Fat necrosis:
⢠Present at pancrease and breast.
⢠Yellowish white firm deposits.
⢠Fat cells have cloudy appearance and
surrounded by inflammatory reactions.
⢠Calcium soaps are present in the cells.
Fibrinoid necrosis:
⢠Deposition of fibrin like material.
⢠Present in immunological tissue injuries.
⢠Arterioles of hypertension,peptic ulcers.
⢠Appears like brightly eosinophillic in vessel
wall.
33. Apoptosis:
In 2 process:
A. Physiological process:
1. During development of embryo
2. Cells of hormone dependent tissues eg: endometrial sheeding,
regression of lactating breast.
3. Involution of thymus gland in early age.
B. Pathological process:
1. Cell death in tumour exposed to chemotherapeutic agents
2. Cell death by cytotoxic T cells in graft rejection.
3. Progressive depletion of CD4 cells in AIDS.
4. Cell death in viral infection
5. Pathological atropy
6. Cell death after exposure of radiations, hypoxia etc
7. Degenerative diseases of CNS eg: Alzheimers disease etc
8. Heart diseases