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5 Written Questions

5 Matching Questions

  1. Hydropic Degeneration (any type of hypoxia)
  2. Apoptosis vs Necrosis
  3. Liquefactive Necrosis
  4. Gas Gangrene
  5. Atrophy
  1. a refers to a special type of gangrene cause by INFECTION of injured tissue by one of many species of Clostridium; these anaerobic bacteria produce HYDROLYTIC ENYMES and TOXINS that detroy connective tissue and cellular membranes and cause bubbles of gas to from in muscle cells; this can be fatal if enzymes lyse the membrane of RBCs, dstorying thier O2 carrying capasity; Death is caused by shock.
  2. b
    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
  3. c
    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
  4. d
    commonly results from ischemic injury to neurons and glial cells in BRAIN; dead brain tissue is readily affected because brain cells are rich in digestive HYDROLITIC ENZYMES and lipids and the brain contains little connective tissue; Cells are digested by their own HYDROLASES so the tissue becomes soft, liquefies and segregates from healthy dtissue, forming cytsts; Can be caused by BACTERIAL INFECTION, especially Staphylococci, Streptococci, and Escherichia coli.
  5. e
    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

5 Multiple Choice Questions

  1. ATP deletion, Reactive Oxygen Species, Ca++ entry, Mitochondrial damage, Membrane damage, Protein misfolding/DNA damage - Table 3-2
  2. mutations in protien can slow protein folding so cell is filled with unfolded proteins, which might not be in the proper format to be used; also, metabolites (used to digest some proteins) are released from lysosomes can damage cellular organells and excessive amounts of protien in cytoplsm push against cellular organells, disrupting organelle function and intracellular communication; accumulates primarily in epithelial cells of renal confoluted tubule and antibody-forming plamsam cells (B-lymphocytes)
  3. 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

  4. occurs in KIDNEYS, HEART, and ADRENAL GLANDS commonly results from hypoxia caused by severe ischemia or hypoxia caused by chemical injury; Coagulation is cause by PROTEIN DENATURATION, which causes the protein albumin to change from gelatinous, transparent state to a firm, opaque state; bonds in protein break and they unfold

  5. is cellular dissolution caused by power enzymes, called LIPASES, that occur in BREAST, PANCREAS, and, other ABDOMINAL ORGANS; Lipases break down triglycerides, releaseing free fatty acids that then combine with calcium, magnesium and sodium ions, creating SOAPS (saponification); Necrotic tissue appears opaque and chalk-white.

5 True/False Questions

  1. Dry Gangreneusually result of COAGULATIVE necrosis; SKIN becomes very dry and shrinks resulting in wrinkles, and its color changes to dark brown or black;

          

  2. Cellular Injury

          

  3. Drowningthe sum of cellular changes after local cell death and the process of cellular self-digestion, knon as autodigestion (autolysis); Damage to the plasma membrane and cell structures; 6 Major Types of Necrosis are Coagulative necrosis, Liquefactive Necrosis, Caseous Necrosis, Fat Necrosis and Gangrenous Necrosis

          

  4. Necrosisthe sum of cellular changes after local cell death and the process of cellular self-digestion, knon as autodigestion (autolysis); Damage to the plasma membrane and cell structures; 6 Major Types of Necrosis are Coagulative necrosis, Liquefactive Necrosis, Caseous Necrosis, Fat Necrosis and Gangrenous Necrosis

          

  5. Hypoxia
    abnormal changes in the size, shape and organization of mature cells; no considered true adaptive process but is related to hyperplaia and is often called atypical hyperplasia; often encountered in epithelial tissue of the cervix and respiratory tract; can, but not always, turn to cancer; often reversible

          

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