I - Cell Injury, Cell Death and Adaptations

Question 1

Hypertrophy(TOPNOTCH)Robbins Basic Pathology, 9th ed. p. 34

Answer 1

Increase in SIZE of cells resulting in increased size of organ.

Question 2

Hyperplasia(TOPNOTCH)Robbins Basic Pathology, 9th ed. p.35

Answer 2

Increase in NUMBER of cells

Question 3

Both. Estrogen stimulates SM hyperthrophy and hyperplasia (TOPNOTCH)Robbins Basic Pathology, 9th ed. p.34

Answer 3

Hypertrophy of hyperplasia?Uterus during pregnancy

Question 4

Hyperplasia(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.4

Answer 4

Hypertrophy or hyperplasia?Wound healing

Question 5

Both. (TOPNOTCH) Robbins Basic Pathology 9th ed., p 36

Answer 5

Hypertrophy or hyperplasia?
Female breast at puberty

Question 6

Hypertrophy (TOPNOTCH)

Answer 6

Cellular adaptation of non-dividing cells (i.e., myocardial fibers)

Question 7

Hypertrophy (TOPNOTCH)

Answer 7

50 y/o male with untreated hypertension for several years. What cellular adaptation will be most likely seen in the myocardium?

Question 8

Hyperplasia(TOPNOTCH)

Answer 8

40 y/o male underwent partial hepatectomy. What cellular adaptation will the liver most likely undergo?

Question 9

Increased workload (TOPNOTCH) Robbins Basic Pathology, 9th ed., p.34

Answer 9

The most common stimulus for hypertrophy of muscle

Question 10

Hyperplasia(Case of BPH) (TOPNOTCH)

Answer 10

Hypertrophy or hyperplasia? Benign prostate enlargement that can cause lower urinary tract symptoms (weak stream, straining, hesitancy) *SEE SLIDE 1.1

Question 11

Hormonal stimulation by androgens. (TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 36

Answer 11

Stimulus for hyperplasia in BPH

Question 12

Hyperplasia (TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 36

Answer 12

Cellular adaptation in papilloma virus infection

Question 13

Atrophy(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 35

Answer 13

Reduction in the size of an organ or tissue due to decrease in cell size and number

Question 14

Atrophy(in menopause)(TOPNOTCH)

Answer 14

60 y/o female has been experiencing hot flushes and irritability. Her uterine epithelium will most likely reveal what type of cellular adaptation?

Question 15

Tumor necrosis factor (TNF)(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 35

Answer 15

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)

Question 16

Metaplasia (TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 37

Answer 16

A reversible change in which one differentiated cell type is replaced by another cell type.

Question 17

Metaplasia. This is a case of Barret’s esophagus (squamous to glandular epithelium) (TOPNOTCH)

Answer 17

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

Question 18

Columnar to squamous(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 37

Answer 18

Most common epithelial metaplasia

Question 19

Columnar to squamous(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 37

Answer 19

Type of metaplasia in trachea and bronchi in habitual cigarette smoking

Question 20

Cellular swelling(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.8 *SEE SLIDE 1.3

Answer 20

This is the first manifestation of almost all forms of injury to cells.

Question 21

Apoptosis(TOPNOTCHRobbins Basic Pathology, 8th ed. p.7

Answer 21

Type of cell death characterized by nuclear dissolution, WITHOUT complete loss of membrane integrity.

Question 22

Apoptosis(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.7

Answer 22

Type of cell death which is energy-dependent, tightly regulated, and associated with normal cellular functions. Often physiologic. Undergoes shrinkage and fragmentation.

Question 23

Necrosis(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.9

Answer 23

Type of cell death which results from a pathologic cell injury. Undergoes cellular swelling and eventual pyknosis, karyorrhexis, and karyolysis.

Question 24

Necrosis(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.10

Answer 24

Type of cell death associated with inflammation.

Question 25

Pyknosis(TOPNOTCH)Robbins Basic Pathology, 9th ed. p.42

Answer 25

It is the irreversible condensation of chromatin in the nucleus of a cell undergoing necrosis or apoptosis. There is nuclear shrinkage with increased basophilia.

Question 26

Karyorrhexis (TOPNOTCH)Robbins Basic Pathology, 8th ed. p.10

Answer 26

It is the destructive fragmentation of the nucleus of a dying cell.

Question 27

Karyolysis(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.10

Answer 27

It is the complete dissolution of the chromatin of a dying cell.

Question 28

Cellular swelling, hydropic change or vacuolar degeneration (TOPNOTCH)Robbins Basic Pathology, 8th ed. p.23 *SEE SLIDE 1.3

Answer 28

Small clear vacuoles within the cytoplasm, representing pinched-off segments of the endoplasmic reticulum.

Question 29

Fatty Change(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.23 *SEE SLIDE 1.4

Answer 29

Appearance of lipid vacuoles in the cytoplasm. Often seen in cells participating in fat metabolism (liver, heart)

Question 30

Reversible/ Early Ischemic Injury(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.18

Answer 30

REVERSIBLE or IRREVERSIBLE INJURY: Surface blebs, increased eosinophilia of the cytoplasm, cellular swelling.

Question 31

Reversible/ Early Ischemic Injury(TOPNOTCH)Robbins Basic Pathology, 9th ed., p.41

Answer 31

REVERSIBLE or IRREVERSIBLE INJURY: loss of microvilli, blunting, appearance of smal amorphous densities, ER dilation and disaggregation of granular and fibrillar elements.

Question 32

Irreversible/ Necrotic cellular injury(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.18

Answer 32

REVERSIBLE or IRREVERSIBLE INJURY: loss of nuclei, cellular fragmentation and leakage of cellular contents.

Question 33

Liquefactive necrosis(TOPNOTCH)Robbins Basic Pathology , 9th ed. p.43

Answer 33

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

Question 34

Coagulative necrosis (i.e., HSK - Heart, Kidney, Spleen) (TOPNOTCH)Robbins Basic Pathology, 9th ed. p.43 *SEE SLIDE 1.6

Answer 34

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.

Question 35

Fat necrosis (TOPNOTCH)Robbins Basic Pathology, 9th ed., p. 44

Answer 35

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.

Question 36

Fibrinoid necrosis (TOPNOTCH)Robbins Basic Pathology, 9th ed., p. 44

Answer 36

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

Question 37

Liquefactive necrosis (TOPNOTCH)Robbins Basic Pathology, 8th ed. p.10

Answer 37

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

Question 38

Gangrenous necrosis(TOPNOTCH)Robbins Basic Pathology, 9th ed. p.43

Answer 38

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.

Question 39

Caseous necrosis(TOPNOTCH)Robbins Basic Pathology, 9th ed. p.43

Answer 39

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

Question 40

Liquefactive necrosis (TOPNOTCH)

Answer 40

Obstruction of the blood supply would lead to which type of NECROSIS in the brain parenchyma?

Question 41

Caseation necrosis (TOPNOTCH) *SEE SLIDE 1.8

Answer 41

A 32 y/o male complains of chronic cough and weight loss. CXR showed an ill-defined mass along the apex of the right lobe. Sputum AFB was positive. Biopsy of the lung will most likely reveal what kind of necrosis?

Question 42

Free radicals(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.18

Answer 42

These are chemical species with a single unpaired electron in the outer orbital.

Question 43

Antioxidants(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 48

Answer 43

They block free radical formation or inactivate free radicals. Examples of these are the lipid-soluble vitamins E, A, and C, and glutathione in the cytosol.

Question 44

Ischemia(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.18

Answer 44

Most common cause of cell injury in clinical medicine.

Question 45

Apoptotic Bodies(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.19

Answer 45

Composed of membrane-bound vesicles of cytosol and organelles seen in programmed-cell death.

Question 46

ApoptosisTOPNOTCH) Robbins Basic Pathology, 9th ed., p. 53

Answer 46

Characterized by cell shrinkage, chromatic condensation, formation of cytoplasmic blebs and apoptotic bodies, and phagocytosis by macrophages.

Question 47

ApoptosisTOPNOTCH) Robbins Basic Pathology, 9th ed., p. 52

Answer 47

Type of cell death in embryogenesis

Question 48

ApoptosisTOPNOTCH) Robbins Basic Pathology, 9th ed., p. 52

Answer 48

Type of cell death in menopause

Question 49

Ischemia-Reperfusion Injury(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.18

Answer 49

Restoration of blood flow to ischemic but otherwise viable tissue paradoxically results in exacerbated and accelerated injury.

Question 50

Mitochondrial / Intrinsic Pathway(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.22

Answer 50

Pathway of apoptosis triggered by loss of survival signals, DNA damage and accumulation of misfolded proteins. Inhibited by Anti-apoptotic members of the Bcl family.

Question 51

Death Receptor / Extrinsic Pathway(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.22

Answer 51

Pathway of apoptosis responsible for elimination of self-reactive lymphocytes and damage by cytotoxic T lymphocytes. Initiated by TNF receptors.

Question 52

Autophagy(TOPNOTCH)Robbins Basic Pathology, 9th ed. p. 61

Answer 52

It involves sequestration of cellular organelles into cytoplasmic autophagic vacuoles that fuse with lysosomes and digest enclosed material.

Question 53

Fatty change/Steatosis(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 62 *SEE SLIDE 1.4

Answer 53

Refers to any abnormal accumulation of triglycerides within parenchymal cells. Most often seen in the liver but can also occur in the heart and kidneys.

Question 54

Foam cells(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.24

Answer 54

Other name for macrophages in contact with lipid debris of necrotic cells or abnormal forms of lipoproteins. Filled with minute, membrane-bound vacuoles of lipid, imparting a foamy appearance to their cytoplasm.

Question 55

Xanthomas(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.24

Answer 55

Presence of cholesterol-filled macrophages in subepithelial connective tissue of skin or tendons.

Question 56

Hypertrophy due to increased workload(TOPNOTCH)

Answer 56

Hypertrophy or hyperplasia?Cardiomegaly due to hypertension

Question 57

Carbon(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.26

Answer 57

Most common exogenous pigment?

Question 58

Lipofuschin(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.26

Answer 58

“Wear and Tear pigment”? *SEE SLIDE 1.9

Question 59

Melanin(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.26

Answer 59

Pigment produced by tyrosinase-catalyzed oxidation of tyrosine to dihydroxyphenylalanine.

Question 60

Hemosiderin(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.26

Answer 60

Hemoglobin-derived granular pigment that is golden-yellow to brown in color. Accumulates in excess of iron.

Question 61

Prussian blue test(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.26 *SEE SLIDE 1.10

Answer 61

Histochemical reaction used to identify hemosiderin.

Question 62

Dystrophic calcification.(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.26

Answer 62

Abnormal calcium deposition occuring in the absence of calcium metabolic derangements.

Question 63

Metastatic calcification (TOPNOTCH)Robbins Basic Pathology, 8th ed. p.26

Answer 63

Calcium deposition in normal tissues occuring in the presence of hypercalcemia.

Question 64

Calcium salts(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.27

Answer 64

Grossly seen as fine white granules or clumps, often felt as gritty deposits. Histologically, intra/extracellular basophilic deposits.

Question 65

Cellular aging(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.29

Answer 65

A result of a progressive decline in the proliferative capacity and lifespan of cells.

Question 66

Apoptotic cell(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.20

Answer 66

Appears as round or oval masses with intensely eosinophilic cytoplasm, nuclei with various stages of chromatin condensation and aggregation, karyorrhexis.

Question 67

Apoptotic bodies(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.20

Answer 67

Membrane bound vesicles of cytosol and organelles quickly extruded and phagocytosed without eliciting inflammatory response.

Question 68

Fatty change of the heart(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.24

Answer 68

Focal, intracellular fat deposits creating alternating bands of yellowed myocardium with alternating bands of darker red-brown uninvolved heart or “tigered effect”.

Question 69

Russel bodies(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.25

Answer 69

Rounded, eosinophilic accumulation of newly synthesized immunoglobulins in the rough ER of plasma cells.

Question 70

Mallory body / “alcoholic hyalin”(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.25

Answer 70

Eosinophilic cytoplasmic inclusion in liver cells composed of aggregated intermediate filaments which resist degradation. Seen in patients woth alcoholic liver disease. *SEE SLIDE 1.11

Question 71

Neurofibrillary tangles in Alzheimer’s disease(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.26 *SEE SLIDE 1.12

Answer 71

Aggregated protein inclusions that contain microtubule-associated proteins and neurofilaments, reflecting disrupted neuronal cytoskeleton.

Question 72

Lipofuschin(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.26

Answer 72

An insoluble brownish-yellow granular intracellular material that accumulates as a function of age and atrophy. Appears as perinuclear electron-dense granules on electron microscopy. *SEE SLIDE 1.9

Question 73

Triglyceride (TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 62

Answer 73

What substance accumulates in the cytoplasm of liver cells in steatosis?

Question 74

Defective transport (TOPNOTCH)

Answer 74

Mechanism of triglyceride accumulation in malnutrition

Question 75

Alzheimer’s Disease (TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 21

Answer 75

DISEASE PATHOGENESIS: Abnormal folding of AB peptides causing aggregation within neurons and apoptosis.

Question 76

Creutzfeldt-Jacob disease (TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 58

Answer 76

DISEASE PATHOGENESIS: abnormal folding of PrPSC causing neuronal death (affected prion protein)

Question 77

Alpha-1-antitrypsin deficiency (TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 58

Answer 77

Pathogenesis: absence of enzymatic activity in lungs causing destruction of elastic tissue

Question 78

Reduction in ATP levels(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 45

Answer 78

Fundamental cause of necrotic cell death

Question 79

Alcohol abuse and non-alcoholic fatty liver disease(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 62

Answer 79

Most common causes of significant fatty change in the liver

Question 80

Hyaline change(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 61

Answer 80

Alteration within the cells or in the extracellular space that gives a homogeneous, glassy, pink appearnce in H&E histologic section

Question 81

Diabetes mellitus(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 64

Answer 81

In this disease, glycogen can be seen in renal tubular epithelial cells, liver cells, B cells of islets of Langerhans, and heart muscle cells.

Question 82

Hemosiderosis(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 65

Answer 82

A condition when there is systemic overload of iron, hemosiderin may be deposited in many organs and tissues.

Question 83

Hemochromatosis. (TOPNOTCH)

Answer 83

An inherited disease characterized by extreme accumulation of iron, associated with liver, heart, and pancreatic damage, and resulting in liver fibrosis, heart failure, and diabetes mellitus. *SEE SLIDE 1.10

Question 84

Alkaptonuria(TOPNOTCH) Robbins Basic Pathology, 9th ed., p. 64

Answer 84

A rare metabolic disease causing black pigment deposition in the skin, connective tissue, and cartilage. *SEE SLIDE 1.13

Question 85

Psammoma bodies (TOPNOTCH)

Answer 85

Foci of dystrophic calcification which appears as lamellated configurations because of their resemblance to grains of sand. Seen in some types of papillary cancer. *SEE SLIDE 1.14

Question 86

Bilirubin (TOPNOTCH)

Answer 86

Jaundice is due to accumulation of what pigment?

Question 87

Coagulative necrosis (TOPNOTCH)

Answer 87

What type of necrosis is most characteristic of ischemia involving the heart or kidney?

Question 88

Coagulative necrosis (TOPNOTCH)

Answer 88

What type of necrosis is most often caused by sudden ischemia from vascular occlusion?

Question 89

Metastatic calcification (TOPNOTCH)

Answer 89

Dystrophic or metastatic calcification? Renal nephrocalcinosis

Question 90

Dystrophic calcification(TOPNOTCH)

Answer 90

Dystrophic or metastatic calcification? Calcific aortic stenosis

Question 91

Dystrophic calcification(TOPNOTCH)

Answer 91

Dystrophic or metastatic calcification?Left anterior descending coronary artery with atheromatous plaques

Question 92

Metastatic calcification (TOPNOTCH)

Answer 92

Dystrophic or metastatic calcification? Sarcoidosis

Question 93

Metastatic calcification (TOPNOTCH)

Answer 93

Dystrophic or metastatic calcification? Paget disease

Question 94

Hemosiderin(TOPNOTCH)Robbins Basic Pathology, 8th ed. p.26

Answer 94

30 year old thalassemic male receiving multiple blood transfusions. What is the expected intracellular accumulation in the cells of his liver, heart, and endocrine organs? *SEE SLIDE 1.10

Question 95

DYSTROPHIC calcification (TOPNOTCH) Robbins Basic Pathology, 8th ed. Pp26-27.

Answer 95

Accumulation of calcium despite absence of calcium derangements.

Question 96

Alcohol abuse and diabetes (TOPNOTCH) Robbins Basic Pathology, 8th ed. P 23.

Answer 96

Two most common causes of fatty change in the liver in industrialized nations.

Question 97

Endometrial cells show shrinkage and nuclear accumulation (Apoptosis) (TOPNOTCH) Robbins Basic Pathology 8th ed., pp 19-20

Answer 97

A 22 yo female is on the first day of her menses. How would you characterize the events in her endometrial cells?

Question 98

Reversible Injury (TOPNOTCH)Robbins Basic Pathology, 9th ed., p.9

Answer 98

REVERSIBLE or IRREVERSIBLE INJURY: mitochondrial changes such as swelling and appearacne of phospholipid-rich amorphous densities

Question 99

Seen in both, but irreversible injury is marked by karyolysis, pyknosis, and karyorrhexis. (TOPNOTCH)Robbins Basic Pathology, 9th ed., p.9

Answer 99

REVERSIBLE or IRREVERSIBLE INJURY: nuclear alterations

Question 100

Myelin figures (TOPNOTCH)Robbins Basic Pathology, 9th ed., p.9

Answer 100

Phospholipid masses seen in the cytoplasm, derived from damaged cellular membranes.

Question 101

Tay-Sachs Disease (TOPNOTCH)Robbins Basic Pathology, 9th ed., p.22

Answer 101

DISEASE PATHOGENESIS: Lack of hexosaminidase enzyme, which leads to accumulation of GM2 gangliosides in neurons

Question 102

Cystic fibrosis (TOPNOTCH)Robbins Basic Pathology, 9th ed., p.22

Answer 102

DISEASE PATHOGENESIS: Loss of CFTR leading to defects in chloride transport