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5 Written questions

5 Matching questions

  1. Metaplasia
  2. Apoptosis vs Necrosis
  3. Common Themes in Cell Injury and Cell Death
  4. Hypoxia
  5. Wet Gangrene
  1. a
    developes when NEUTROPHILS invade the site, causing LIQUEFACTIVE necrosis; usually occurs in INTERNAL ORGANS, causing site to beome cold, swollen and black; foul odor is present, and if systemic symptoms become severe, death can ensue; Thrombisis/embolism (blockage of blood), strangulated hernia (no adequate O2 or blood), valvulus (twist of intestine), intussusception (intestine falling into self)
  2. b
    Necrosis is caused by exogenous injury whereby cells are swollen and have nuclear changes in ruptured cell membrane; Apoptosis is single cell death. It is genetically programmed (suicide genes) and depends on energy. Apoptotic bodies contain part of nucleus and cytoplasmic organelles, which are ultimately engulfed by macrophages or adjacent cells; Cell membrane stays intact but has 'lubbing'; happenes throughout life and is very benificial component
  3. c ATP deletion, Reactive Oxygen Species, Ca++ entry, Mitochondrial damage, Membrane damage, Protein misfolding/DNA damage - Table 3-2
  4. d
    reversible replacement of one mature cell type by another, sometimes less differentiated, cell type; develops from a reprogramming of stem cells that exist on most epithelia or of undifferentiated mesenchymal cells present in connective tissue; Normal process (such as uterus); uniform to each other and relatively organized; is REVERSIBLE
  5. e lack of sufficient oxygen; the single most common cause of cellular injury; can result from reduced amount of oxygen in air, loss of hemoglobin or decreased efficacy of hemoglobin, decreased production of RBCs, diseases of repiratory or cardovascular systems, and poisoning of the oxidative enzymes w/in cell; can induce inflammation and inflamed lesions can become hypoxic; most common form is ischemia (reduced blood supply)

5 Multiple choice questions

  1. an increase in the size of cells and consequently in size of affected organ; heart and kidneys are very prone; associated with increased accumulation of protein in the cellular components (PM, ER, mitochondrea) and NOT with an increase in cellular fluid; can be physiologic or pathologic; is REVERSIBLE
  2. an increase in the number of cells resulting from an increased rate of cellular division; as a response to injury, occurs when ijury has been severe and prolonged enough to have caused cell death; cells still relatively uniform, almost normal looking, just more of them; hormonal and pathologic

  3. a decrease or shrinkage in cellular size; if atrophy happens in sufficient number of an organ's cells, the entire organ shrinks; can be physiological like thymus, pathological (disease process), or disuse; is REVERSIBLE

  4. occurs in LUNGS; usually results from TB PULMONARY INFECTION, especially by Myobacterium tuberculosis; Combination of COAGULATIVE AND LIQUEFACTIVE necroses; The dead cells disintegrate, bt debris is not completely digested by hydrolases; Tissues resemble clumped cheese in that they are soft and granular; A granulomatous inflammatory wall encloses areas of caseous necrosis; Tb starts to kill lung tissue (liquefactive) and macrophages come in and stop it and coagulate the tissue - why you see tubricles in lungs
  5. "dropping off" is an important distinct type of cell death taht differs from necrosis in several ways; is an active process of cellular self-destruction called programmed cell death and is implicated in both normal and pathologic tissue changes; Cells need to die; otherwise, endless proliferation would lead to gigantic bodies; occurs in 1) severe cell injury, 2) accumulation of misfoled proteins, 3) infections, 4) obstruction in tissue ducts; When cell injury exceeds repair mechanisms, the cell triggers apoptosis

5 True/False questions

  1. Hydropic Degeneration (any type of hypoxia)
    very common w/any hypoxia, even as momentary as leg falling asleep; can be reversed; 1) injury, 2) ATP production decreases, 3) sodium and water move into cell, Potassium moves out of cell, 4) Osmotic pressure increases 5) more water moves into cell, 6) cisternae of endoplasmic reticulum distend, rupture, and form vacuoles, 7) extensive vacuolation, 8) hydropic degeneration

          

  2. Strangulationcaused by compression and closure of blood vessels and air passages resulting from external pressure on neck; causes cerbral hypoxia or anoxia secondary to alteration or cessation of blood flow to and from brain; hanging (inverted V on neck), ligature (horizontal mark on neck), manual strangulation (hands on neck)

          

  3. Dysplasia
    reversible replacement of one mature cell type by another, sometimes less differentiated, cell type; develops from a reprogramming of stem cells that exist on most epithelia or of undifferentiated mesenchymal cells present in connective tissue; Normal process (such as uterus); uniform to each other and relatively organized; is REVERSIBLE

          

  4. Suffocationoxygen failing to reach the blood, can result from lack of O2 in environment (entrapment in enclosed space or filling enviro w/suffocating gas), or blockage of external airways (compression of chest, choking)

          

  5. Cellular Injury Induced by Ischemia - Reversible
    1) obstruction or cessation of blood flow; 2) Ischemia, 3a) decrease mitochondrial oxygenation, 4a) severe vaculization of mitochondria (end); 4b) decrease ATP; 5a) decrease Na+ pump, 6) increase intracellular Na, xcellular K,intracellular Ca, 7) increase H2O, 8) increase acute cellular swelling, 5b) 5+6+7 is dilation of endoplasmic reticulum, 6) detatchment of ribosomes, 7) decrease protein synthesis, 8) lipid deposition, 5b) increase glycolysis, 6) decrease glycogen, 7) increase lactate, 8) decrease pH, 9a) nuclear chromatin clumping, 9b) increase swelling of lysosomes