I - Cell Injury, Cell Death and Adaptations Flashcards
Increase in SIZE of cells resulting in increased size of organ.
Hypertrophy(TOPNOTCH)Robbins Basic Pathology, 9th ed. p. 34
Increase in NUMBER of cells
Hyperplasia(TOPNOTCH)Robbins Basic Pathology, 9th ed. p.35
Hypertrophy of hyperplasia?Uterus during pregnancy
Both. Estrogen stimulates SM hyperthrophy and hyperplasia (TOPNOTCH)Robbins Basic Pathology, 9th ed. p.34
Hypertrophy or hyperplasia?Wound healing
Hyperplasia(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.4
Hypertrophy or hyperplasia?
Female breast at puberty
Both. (TOPNOTCH) Robbins Basic Pathology 9th ed., p 36
Cellular adaptation of non-dividing cells (i.e., myocardial fibers)
Hypertrophy (TOPNOTCH)
50 y/o male with untreated hypertension for several years. What cellular adaptation will be most likely seen in the myocardium?
Hypertrophy (TOPNOTCH)
40 y/o male underwent partial hepatectomy. What cellular adaptation will the liver most likely undergo?
Hyperplasia(TOPNOTCH)
The most common stimulus for hypertrophy of muscle
Increased workload (TOPNOTCH) Robbins Basic Pathology, 9th ed., p.34
Hypertrophy or hyperplasia? Benign prostate enlargement that can cause lower urinary tract symptoms (weak stream, straining, hesitancy) *SEE SLIDE 1.1
Hyperplasia(Case of BPH) (TOPNOTCH)
Stimulus for hyperplasia in BPH
Hormonal stimulation by androgens. (TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 36
Cellular adaptation in papilloma virus infection
Hyperplasia (TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 36
Reduction in the size of an organ or tissue due to decrease in cell size and number
Atrophy(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 35
60 y/o female has been experiencing hot flushes and irritability. Her uterine epithelium will most likely reveal what type of cellular adaptation?
Atrophy(in menopause)(TOPNOTCH)
Chronic production of this cytokine is thought to be responsible for appetite suppression and lipid depletion, culminating in muscle atrophy and marked muscle wasting (cachexia)
Tumor necrosis factor (TNF)(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 35
A reversible change in which one differentiated cell type is replaced by another cell type.
Metaplasia (TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 37
A 49 y/o female had a chronic history of heartburn. Biopsy done showed glandular changes in the distal epithelium of the esophagus. What cellular adaptation is present? *SEE SLIDE 1.2
Metaplasia. This is a case of Barret’s esophagus (squamous to glandular epithelium) (TOPNOTCH)
Most common epithelial metaplasia
Columnar to squamous(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 37
Type of metaplasia in trachea and bronchi in habitual cigarette smoking
Columnar to squamous(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 37
This is the first manifestation of almost all forms of injury to cells.
Cellular swelling(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.8 *SEE SLIDE 1.3
Type of cell death characterized by nuclear dissolution, WITHOUT complete loss of membrane integrity.
Apoptosis(TOPNOTCHRobbins Basic Pathology, 8th ed. p.7
Type of cell death which is energy-dependent, tightly regulated, and associated with normal cellular functions. Often physiologic. Undergoes shrinkage and fragmentation.
Apoptosis(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.7
Type of cell death which results from a pathologic cell injury. Undergoes cellular swelling and eventual pyknosis, karyorrhexis, and karyolysis.
Necrosis(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.9
Type of cell death associated with inflammation.
Necrosis(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.10
It is the irreversible condensation of chromatin in the nucleus of a cell undergoing necrosis or apoptosis. There is nuclear shrinkage with increased basophilia.
Pyknosis(TOPNOTCH)Robbins Basic Pathology, 9th ed. p.42
It is the destructive fragmentation of the nucleus of a dying cell.
Karyorrhexis (TOPNOTCH)Robbins Basic Pathology, 8th ed. p.10
It is the complete dissolution of the chromatin of a dying cell.
Karyolysis(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.10
Small clear vacuoles within the cytoplasm, representing pinched-off segments of the endoplasmic reticulum.
Cellular swelling, hydropic change or vacuolar degeneration (TOPNOTCH)Robbins Basic Pathology, 8th ed. p.23 *SEE SLIDE 1.3
Appearance of lipid vacuoles in the cytoplasm. Often seen in cells participating in fat metabolism (liver, heart)
Fatty Change(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.23 *SEE SLIDE 1.4
REVERSIBLE or IRREVERSIBLE INJURY: Surface blebs, increased eosinophilia of the cytoplasm, cellular swelling.
Reversible/ Early Ischemic Injury(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.18
REVERSIBLE or IRREVERSIBLE INJURY: loss of microvilli, blunting, appearance of smal amorphous densities, ER dilation and disaggregation of granular and fibrillar elements.
Reversible/ Early Ischemic Injury(TOPNOTCH)Robbins Basic Pathology, 9th ed., p.41
REVERSIBLE or IRREVERSIBLE INJURY: loss of nuclei, cellular fragmentation and leakage of cellular contents.
Irreversible/ Necrotic cellular injury(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.18
Characterized by digestion of dead cells, resulting in transformation of the tissue into a liquid viscous mass. Often seen in INFECTIONS (pus) and in hypoxic death of cells within the CNS. *SEE SLIDE 1.5
Liquefactive necrosis(TOPNOTCH)Robbins Basic Pathology , 9th ed. p.43
A form of tissue necrosis in which the component cells are dead but the basic tissue architecture is preserved. The affected tissues take on a firm texture. Often seen in INFARCTS of all solid organs except the brain.
Coagulative necrosis (i.e., HSK - Heart, Kidney, Spleen) (TOPNOTCH)Robbins Basic Pathology, 9th ed. p.43 *SEE SLIDE 1.6
Refers to focal areas of fat destruction, typically seen in acute pancreatitis. There is release of activated pancreatic lipases into the substance of the pancreas and the peritoneal cavity. The foci of necrosis contain shadowy outlines of necrotic fat cells with basophilic calcium deposits (SAPONIFICATION), surrounded by an inflammatory reaction.
Fat necrosis (TOPNOTCH)Robbins Basic Pathology, 9th ed., p. 44
A special form of necrosis usually seen in immune reactions involving blood vessels. Deposits of IMMUNE COMPLEXES, together with fibrin that has leaked out of vessels, result in a bright pink and amorphous appearance in H&E stains, called “fibrinoid” (fibrin-like) by pathologists. *SEE SLIDE 1.7
Fibrinoid necrosis (TOPNOTCH)Robbins Basic Pathology, 9th ed., p. 44
Seen in focal bacterial or, occasionally, fungal infections, because microbes stimulate the accumulation of inflammatory cells and the enzymes of leukocytes digest the tissue. *SEE SLIDE 1.5
Liquefactive necrosis (TOPNOTCH)Robbins Basic Pathology, 8th ed. p.10
This term is usually applied to a limb, generally the lower leg, that has lost its blood supply and has undergone coagulative necrosis with superimposed liquefactive necrosis involving multiple tissue layers.
Gangrenous necrosis(TOPNOTCH)Robbins Basic Pathology, 9th ed. p.43
Friable, white appearance of necrosis. It appears as a structureless collection of fragmented or lysed cells and amorphous granular debris enclosed within a distinctive inflammatory border (GRANULOMA). Cheese-like. *SEE SLIDE 1.8
Caseous necrosis(TOPNOTCH)Robbins Basic Pathology, 9th ed. p.43
Obstruction of the blood supply would lead to which type of NECROSIS in the brain parenchyma?
Liquefactive necrosis (TOPNOTCH)