Catégories : Tous - regeneration

par Chan Samuel Il y a 16 années

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Cellular Adaptations

Cellular adaptations involve changes in cell size and number in response to various stimuli. Atrophy occurs when cells reduce in size due to decreased workload, aging, or lack of stimulation, often as a survival mechanism under reduced nutrient conditions.

Cellular Adaptations

Cellular Adaptations

Atrophy

Cell aging
Reduced nutrient/O2 supply
Pressure
Loss of neurological/hormonal stimulation
Decreased workload
Physiologic
Uterus after parturition
Loss of embryonic structures

Notochord

Thyroglossal duct

Occurs during normal development
Cell death may occur when atrophy progress to cellular injury
Increased degradation via

Ubiquitin-proteosome pathway

Lysosomes

Shift in balance of protein synthesis and degradation
New equilibrium achieved by decreasing cell volume in relation to reduced nutrient supply
Retreat by cell to a smaller size where survival is possible
Shrinkage of cell size by loss of cell substance
Diminished function

Metaplasia

Examples
Strat Squamous to Columnar

Barrett's Esophagus

Predisposition to adenocarcinoma of esophagus

Squamous Epithelium replaced by intestinal-like columnar cells

Due to chronic GERD

Columnar to Stratified Squamous

May predispose to neo-plastic change if persistant

SCCarcinoma

Improved survival

Protective mechanism of mucus secretion lost

Stones in excretory ducts of exocrine glands

Chronic irritation caused by cigarettes

Most common epithelial metaplasia

Mechanisms
Signals generated by cytokines, GFs and ECM components
Precursor differentiate along a new pathway
Reprogrammin of undifferentiated cells in tissue
Connective Tissue
E.g. Myositis ossificans

Bone formation in muscle, usually after fracture

Less clearly seen as adaptive change
Formation of mesenchymal tissues in tissues that do not contain these elements
Epithelial
Often predisposes cell to neoplastic change
Adaptive substitution of cells sensitive to stress by cell types better able to survive adverse environment
Reversible change in which one cell type is replaced by another

Concept

Reversible process
Ohysiologic or pathologic
State of between normal unstressed cell and overstressed injured cell

Hyperplasia and Hypertrophy

Pathologic
Chronic Overload

Overtime hypertrophy exhausts organ's ability to compensate

Organ failure

Glomerular hyperplasia in renal failure

Cariomegaly in chronic hypertension

Excess Growth Factor stimulation

Predisposes to carcinogenesis

Benign prostatic hyperplasia

Keloids

Endometrial hyperplasia

Common

Triggers
Mechanical Factors

Mechanical load in long bones causes hypertrophy of bone

Hormonal Triggers

Increase in size of thyroid gland due to excess TSH

Proliferation of Endometrium during menstrual cycle

Increased Functional Demand

Regeneration of injured liver

Myocardial hypertrophy in chronic hemodynamic overload

Muscular Hypertrophy of Bodybuilders

Hypertrophy
Non dividing cells can only hypertrophy

Myocardial Cells

Increase in size of cells leading to increase in size of organ
Hyperplasia
Only in cells capable of dividing
Increase in no. of specialized cells in an organ