Pathophysiology Exam 1 testbank 2023 with 100% questions and answers

An ordered photographic display of a set of chromosomes from a single cell is a(n): A) metaphase spread. B) autosomal spread. C) karyotype. D) anaphase spread. c An error in which homologous chromosomes fail to separate during meiosis is termed: A) aneuploidy. B) nondisjunction. C) polyploidy. D) anaplasia. b A somatic cell that does not contain a multiple of 23 chromosomes is called: A) an aneuploid cell. B) a euploid cell. C) a polyploidy cell. D) a haploid cell. a A 20-year-old pregnant female gives birth to a stillborn child. Autopsy reveals that the fetus has 92 chromosomes. Which of the following describes this condition? A) Euploidy B) Triploidy C) Tetraploidy D) Aneuploidy c If a person is a chromosomal mosaic, the person may: A) be a carrier of the genetic disease. B) have a mild form of the genetic disease. C) have two genetic diseases. D) be sterile as a result of the genetic disease. b The most common cause of Down syndrome is: A) paternal nondisjunction. B) maternal translocations. C) maternal nondisjunction. D) paternal translocations. c Risk factors for Down syndrome include: A) fetal exposure to mutagens in the uterus. B) increased paternal age. C) family history of Down syndrome. D) pregnancy in women over age 35. d A 13-year-old girl has a karyotype that reveals an absent homologous X chromosome with only a single X chromosome present. Her condition is called: A) Down syndrome. B) Cri du chat syndrome. C) Turner syndrome. D) Edward syndrome c A child is diagnosed with cystic fibrosis. History reveals that the child's parents are first cousins. Cystic fibrosis was most likely the result of: A) X inactivation. B) genomic imprinting. C) consanguinity. D) obligate carriers. c Joey, age 9, is admitted to a pediatric unit with Duchenne muscular dystrophy. He inherited this condition through a: A) sex-linked dominant trait. B) sex-influenced trait. C) sex-limited trait. D) sex-linked recessive trait. d A 50-year-old male was recently diagnosed with Huntington disease. Transmission of this disease is associated with: A) penetrance. B) recurrence risk. C) expressivity. D) delayed age of onset. d People who have neurofibromatosis will show varying degrees of the disease; this is because of the genetic principle of: A) penetrance. B) expressivity. C) dominance. D) recessiveness. b Cystic fibrosis is caused by an _____ gene. A) X-linked dominant B) X-linked recessive C) autosomal dominant D) autosomal recessive d To express a polygenic trait: A) genes must interact with the environment. B) several genes must act together. C) multiple mutations must occur in the same family. D) in situ cloning must occur. b The gradual increase in height among the human population over the past 100 years is an example of: A) polygenic trait. B) multifactorial trait. C) crossing over. D) recombination. b A couple has three offspring: one child with an autosomal dominant disease trait and two who are normal. The father is affected by the autosomal dominant disease, but the mother does not have the disease gene. What is the recurrence risk of this autosomal dominant disease for their next child? A) 50% B) 33% C) 25% D) Impossible to determine a A 12-year-old male is diagnosed with Klinefelter syndrome. His karyotype would reveal which of the following? A) XY B) XX C) XYY D) XXY d A 5-year-old male presents with mental retardation and is diagnosed with Fragile X syndrome. Which of the following is most likely to cause this syndrome? A) Translocation B) Inversion C) Nondisjunction D) Duplication at fragile sites d The outward manifestation of a disease, often influenced by both genes and the environment, is called the disease: A) genotype. B) allele. C) phenotype. D) dominance. c Which of the following genetic diseases manifests with progressive dementia in middle to later adulthood? A) Duchenne muscular dystrophy B) Cystic fibrosis C) Achondroplasia D) Huntington disease d Which of the following types of genetic disorders is the most common cause of miscarriage? A) Autosomal dominant B) Autosomal recessive C) X-linked recessive D) Chromosomal d Which of the following is an accurate characteristic of an autosomal recessive pedigree? A) On average, 50% of the children will have the autosomal recessive disease if one parent has the disease. B) Males are affected more than females. C) On average, 25% of the children are affected by the autosomal recessive disease if both parents are carriers. D) There is a decreased risk of disease with consanguinity. c Which of the following is an accurate characterization of an X-linked recessive pedigree? A) Disease is seen more often in males than females. B) A pattern of skipped generations is rare. C) Males are gene carriers. D) Mothers usually transmit the disease to their daughters. a The process by which RNA directs the synthesis of protein is called: A) termination. B) transcription. C) promotion. D) translation. d A 15-year-old female is diagnosed with Prader-Willi syndrome. This condition is an example of: A) gene imprinting. B) an autosomal recessive trait. C) an autosomal dominant trait. D) a sex-linked trait. a Adaptive cellular mechanisms function to: A) treat disease. B) protect cells from injury. C) prevent cellular aging. D) speed up cellular death. b Cellular atrophy involves: A) an increase in cell size. B) a decrease in cell size. C) an increase in the number of cells. D) a decrease in the number of cells. b The process of cellular atrophy is accomplished through which of the following processes? A) Loss of fluid B) Decreased cell division C) Inhibition of enzyme formation D) Formation of autophagic vacuoles d In compensatory hyperplasia, growth factors stimulate cell division in response to: A) tissue loss. B) decreased hormonal stimulation. C) ischemia. D) puberty. a Pathologic hyperplasia can lead to: A) neoplasia (cancer). B) dysplasia. C) metaplasia. D) all of the above. d In response to an increased workload, such as that caused by high blood pressure (hypertension), myocardial cells in the left ventricle will adapt through the process of: A) atrophy. B) hypertrophy. C) hyperplasia. D) dsyplasia. b The process of muscle hypertrophy involves an increase in: A) cell division. B) water accumulation. C) protein synthesis. D) plasma membrane thickness. c Chronic infection of the cervix by the human papillomavirus results in cervical: A) atrophy. B) dysplasia. C) metaplasia. D) hormonal hyperplasia. b Metaplasia involves the replacement of normal cells by: A) another type of cell. B) abnormal cells of the same tissue type. C) scar tissue. D) cancer cells. a The most common cause of hypoxic injury is: A) free radicals. B) malnutrition. C) chemical toxicity. D) ischemia. d Tissue ischemia and a decrease in mitochondrial oxygenation result in: A) cellular dehydration. B) decreased ATP production. C) calcium accumulation outside the cell. D) increased protein synthesis. b Lysosomal rupture during hypoxic injury leads to: A) cellular acidosis. B) sodium influx. C) cellular adaptation. D) autodigestion of cells. d Free radical injury can be caused by all of the following factors except: A) tissue damage by antioxidants. B) radiation injury. C) tissue reperfusion following ischemia. D) enzymatic metabolism of chemicals. a Vitamin E, vitamin C, and beta-carotene are molecules in food that act as: A) poisons. B) free radicals. C) receptor blockers. D) antioxidants. d Lead poisoning affects nervous system function by which of the following mechanisms? A) Lead blocks oxygen delivery to the brain by binding with hemoglobin. B) Lead interferes with neurotransmitter release. C) Lead causes nervous tissue necrosis. D) Lead inhibits fatty acid oxidation in the brainstem. b The population group most vulnerable to lead poisoning is: A) children. B) pregnant women. C) male adolescents. D) the elderly. a Which of the following organs is most frequently affected by ethanol injury? A) Heart B) Kidneys C) Liver D) Stomach c Which of the following molecules accumulates in liver cells as a result of alcohol abuse? A) Water B) Fat (lipids) C) Protein D) Iron b Fetal exposure to alcohol during pregnancy can result in: A) low birth weight. B) mental retardation. C) death. D) all of the above. d Why is carbon monoxide exposure a life-threatening condition? A) Carbon monoxide binds to hemoglobin and prevents normal oxygen transport to tissues. B) Inhalation of carbon monoxide interferes with oxygen diffusion in the lungs. C) Carbon monoxide causes the release of toxic amounts of iron from the tissues. D) Carbon dioxide removal from the tissues is inhibited. a A contusion injury results in: A) tearing of the skin. B) the removal of superficial skin layers. C) entrance and exit wounds. D) bleeding in the skin or underlying tissues. d What are the primary factors contributing to oncosis from hypoxic injury? A) Decrease in ATP production and sodium movement into the cell B) Injury to the endoplasmic reticulum and Golgi apparatus C) Increase in ATP production and potassium movement out of the cell D) Accumulation of lipids and pigments in the cell a Liquefactive necrosis typically occurs after severe hypoxic injury to which of the following organs? A) Brain B) Heart C) Adrenals D) Pancreas a The process by which cells program themselves to die is called: A) karyolysis. B) apoptosis. C) pyknosis. D) necrosis. b Osmosis describes the movement of: A) electrolytes. B) glucose. C) water. D) blood. c Which of the following electrolytes is found in the highest concentrations in the intracellular fluid (ICF)? A) Sodium B) Calcium C) Magnesium D) Potassium d Capillary oncotic pressure is primarily determined by which of the following molecules? A) Glucose B) Sodium C) Albumin D) Water c Edema can result from all of the following alterations except: A) decreased capillary hydrostatic pressure. B) decreased capillary oncotic pressure. C) lymphatic obstruction. D) increased capillary membrane permeability. a Symptoms of dehydration include: A) decreased urine output. B) increased skin turgor. C) increased blood pressure. D) edema. a What is the purpose of vasodilatation and increased vascular permeability during inflammation? A) To bring white blood cells to the area of injury B) To transport inflammatory chemicals to the area of injury C) To dilute toxins D) All of the above d The first cell to react to tissue injury is the: A) macrophage. B) mast cell. C) fibroblast. D) neutrophil b Which of the following stimuli are known to induce mast cell degranulation? A) Thermal injury B) The presence of toxins C) Immunologic tissue injury D) All of the above d The process of a phagocyte squeezing through retracted endothelial cells to enter into the tissues is called: A) fusion. B) diapedesis. C) phagocytosis. D) margination. b Prior to engulfment of a bacterium during phagocytosis, which of the following events must occur? A) Release of lysosomal enzymes B) Fusion C) Recognition and adherence D) Formation of a phagolysosome c In addition to phagocytosis, which of the following functions are also performed by macrophages? A) Release of growth factors and stimulating new blood vessel growth B) Destroying circulating antibodies C) Inhibiting inflammation D) Promotion of blood clotting a A monocyte is a circulating white blood cell that transforms into which of the following cells once it enters the tissue during an inflammatory response? A) Neutrophil B) Macrophage C) Mast cell D) Fibroblast b Cells defend against viral invasion through the production and secretion of: A) histamine. B) interferon. C) growth factors. D) prostaglandins. b Opsonization promotes the process of: A) phagocytosis. B) vasodilation. C) increased vascular permeability. D) clotting. a Warmth and redness of the skin are indicators of inflammation. Which of the following processes is responsible for this clinical manifestation? A) Increased vascular permeability B) Phagocytosis C) Vasoconstriction D) Vasodilation d Which of the following exudates would be present in highest concentration at the site of a persistent bacterial infection? A) Fibrinous B) Serous C) Hemorrhagic D) Purulent d One systemic manifestation of the acute inflammatory response is fever, which is induced by several mediators, including: A) histamine. B) interferon. C) interleukin 1. D) nitrous oxide. c Which of the following cells plays an active role in collagen deposition during wound contraction and scar tissue formation? A) Mast cell B) Macrophage C) Fibroblast D) Osteocyte c If the surface barriers such as the skin or mucus membranes are breached, the second line of defense in innate immunity is the: A) lymph node. B) lymphocyte response. C) inflammatory response. D) memory cells. c If a person has innate resistance to a disease, the person has _____ immunity. A) natural B) native C) active acquired D) passive a A child fell off the swing and scraped her knee. The injured area becomes red and painful. Which of the following would also occur? A) Vasoconstriction B) Decreased RBC concentration at injured site C) Fluid movement from tissue to vessels D) Edema at injured site d The mast cell, a major activator of inflammation, initiates the inflammatory response through the process of: A) cytokinesis. B) endocytosis. C) degranulation. D) hemolysis. c A 13-year-old female fell on her knee while skating. The area became inflamed and sore to touch. Which of the following would result from activation of the plasma system secondary to her injury? A) Mast cell degranulation B) Release of cellular products C) Cellular infiltration D) Pathogenic invasion c A 35-year-old male is diagnosed with lobar pneumonia (lung infection). Which of the following exudates would be present in highest concentration at the site of this advanced inflammatory response? A) Serous B) Purulent C) Hemorrhagic D) Fibrinous d In contrast with the inflammatory response, the immune response: A) is more effective at fighting microorganisms. B) is faster. C) recognizes specific invaders. D) has no memory. c The primary cell of immunity is the: A) mast cell. B) macrophage. C) neutrophil. D) lymphocyte. d Humoral immunity is generated through the process of: A) direct cell lysis. B) stimulating an inflammatory response. C) producing antibodies. D) secreting toxic molecules. c If a person has resistance to a disease from natural exposure to an antigen, the person has which form of immunity? A) Natural B) Innate C) Passive acquired D) Active naturally acquired d Molecules that are capable of inducing an immune response are called: A) lymphocytes. B) haptens. C) antigens. D) antibodies. c Which of the following is an example of an endogenous antigen? A) Poison ivy B) Injected medications C) Pollen D) The body's own tissue d The condition in which the immune cells attack the individual's own tissues as if they were invaders is called: A) alloimmunity. B) autoimmunity. C) hypersensitivity. D) graft rejection. b Immune cells distinguish "self" from "nonself" by recognizing: A) cellular RNA. B) major histocompatibility antigens. C) different types of phospholipids in a cell's membrane. D) "nonself" enzymes secreted by foreign cells. b Major histocompatibility class I (MHC I) antigens are found on which of the following cells? A) Red blood cells B) B lymphocytes and macrophages only C) All body cells except for red blood cells D) Liver, heart, and bone marrow cells only c Which of the following cells has the capacity to produce antibodies during an immune response? A) Plasma cells B) T cells C) Memory cells D) Pluripotent cells a Which cell ingests microorganisms for the purposes of presenting their antigen to the immune system and activating an immune response? A) Helper T cell B) Mast cell C) Neutrophil D) Macrophage d Which cell stimulates both the cell-mediated and humoral immune responses? A) Plasma cells B) Cytotoxic T cells C) B lymphocytes D) Helper T cells d CD4 receptors that bind to the surface of macrophages and B cells are found on: A) helper T cells. B) cytotoxic T cells. C) plasma cells. D) the human immunodeficiency virus (HIV). a Which process confers long-lasting immunity against a specific organism? A) Production of memory cells B) Activation of macrophages C) Activation of cytotoxic T cells D) Activation of the inflammatory response a The predominant antibody of a typical secondary immune response is: A) IgG. B) IgM. C) IgE. D) IgA. a If a person is exposed to antigen X and is later exposed to antigen X again, which of the following immune responses will occur? A) Primary B) Secondary C) Determinant D) Immunosuppressive b What type of immunity is conferred when an individual is given a vaccine? A) Natural immunity B) Passive acquired immunity C) Active acquired immunity D) Alloimmunity c Which of the following is not a function of antibodies? A) Neutralizing bacterial toxins B) Preventing viruses from entering tissue cells C) Direct cell killing through the release of toxic chemicals D) Opsonizing foreign antigen c Which is the main antibody transferred from a mother to an infant in breast milk? A) IgG B) IgM C) IgE D) IgA d When a person has an allergic reaction to bee stings, which antibody causes the life-threatening hypersensitivity response? A) IgM B) IgA C) IgE D) IgG c Cytotoxic T (Tc) cells can destroy infected or cancer cells by which of the following mechanisms? A) Producing toxins B) Stimulating apoptosis C) Producing antibodies D) Both A and B d How do natural killer (NK) cells differ from cytotoxic T (Tc) cells? A) NK cells lack antigen-specificity and can target any infected or malignant cell. B) NK cells are phagocytic. C) NK cells can opsonize bacteria and viruses. D) NK cells release toxins that kill the target cell. a A 20-year-old female has been diagnosed with AIDS. Laboratory testing would reveal diminished levels of: A) cytotoxic T cells. B) B cells. C) helper T cells. D) T suppressor cells. c A 10-year-old male is diagnosed with a large tapeworm. Which of the following cells would be produced in response to this worm? A) Monocytes B) Eosinophils C) Neutrophils D) Natural killer cells b When a person has an allergic reaction to a bee sting, which type of hypersensitivity response is occurring? A) Type I B) Type II C) Type III D) Type IV a Type I hypersensitivity is mediated by which of the following antibodies? A) IgG B) IgD C) IgM D) IgE d The most severe type I hypersensitivity response is: A) eczema. B) allergic rhinitis. C) serous otitis. D) anaphylaxis. d Which cells are stimulated by the presence of antibodies in a type I hypersensitivity reaction? A) Mast cells B) Macrophages C) B lymphocytes D) T lymphocytes a In type II hypersensitivity, tissue injury is caused by: A) autoantibody activation of complement and subsequent destruction of target cells. B) autoantibody stimulation of NK cells that destroy target cells. C) autoantibody opsonization of target cells and subsequent phagocytosis. D) all of the above. d Which of the following hypersensitivity reactions involves the formation of antigen-antibody (immune) complexes that get deposited on vessel walls or in extravascular tissue? A) Type I B) Type II C) Type III D) Type IV c A positive tuberculin skin test for detecting the presence of tuberculosis is indicative of which type of hypersensitivity reaction? A) Type I B) Type II C) Type III D) Type IV d What is the effect of repeated exposure to an allergen in an atopic individual? A) The allergic response gets worse. B) Antibody production is suppressed. C) Antibody formation remains constant. D) Tc cell activity increases significantly. a Desensitization therapy improves allergies by which of the following mechanisms? A) Producing antibodies that prevent the allergen from binding to IgE B) Decreasing the amount of IgE in the body C) Decreasing the amount of antigen in the bloodstream D) Decreasing the responsiveness of the bronchi and blood vessels to histamine a Which of the following features is characteristic of a type IV hypersensitivity? A) Antibody-dependent cell-mediated toxicity B) Delayed response C) Usually life-threatening D) Mediated by the complement system b Type IV hypersensitivities, such as poison ivy reactions, are initiated by: A) B cells that release IgD 24 to 48 hours after exposure. B) the release of neutrophil chemotactic factor. C) the stimulation of cytotoxic T cells. D) the release of large quantities of IgE. c What type of reaction occurs when the body mounts an aggressive response against an organ transplanted from another person? A) Type I hypersensitivity B) Autoimmune C) Alloimmune D) Immunosuppressive c Autoimmunity can result from all of the following hypersensitivities except: A) type I. B) type II. C) type III. D) type IV. a Manifestations of the autoimmune disease SLE include: A) wheezing, eczema, and itching. B) pulmonary edema, leg swelling, and vein distention. C) arthritic joint pain, pleuritic chest pain, and rash. D) nasal polyps, headache, and rhinorrhea. c A person with type O blood has which of the following antigens present on their red blood cells? A) A and B B) Rh C) O D) None of the above d Transfusion of A-negative blood to an O-positive individual will have which of the following results? A) Improved red blood cell count B) Clumping and lysis of red blood cells C) Production of anti-B antibodies D) An Rh incompatibility reaction b Individuals with immunodeficiencies are at risk for: A) hypersensitivity reactions. B) fungal infections only. C) opportunistic infections. D) autoimmune diseases. c The microorganism that causes acquired immunodeficiency syndrome (AIDS) is a: A) gram-negative bacterium. B) gram-positive bacterium. C) retrovirus. D) protozoan. c The microorganism that causes AIDS can be transmitted through: A) heterosexual intercourse. B) breast milk. C) blood transfusions. D) all of the above. d HIV inserts its genetic material by binding to the _____ on the helper T cell. A) gp 120 receptor B) CD8 receptor C) CD4 receptor D) phospholipids c After initial infection with the HIV, most individuals: A) experience severe symptoms of AIDS. B) have mild flu-like symptoms. C) have low levels of circulating antibodies against HIV. D) manifest with central nervous system symptoms. b If blood cell counts from an individual with AIDS were analyzed, you would expect to see very low quantities of: A) Th cells. B) mast cells. C) red blood cells. D) neutrophils. a Serious systemic fungal infections and parasitic infections usually only develop in individuals who are: A) immunocompromised. B) young. C) virally infected. D) allergic. a Vaccine can be formed from all of the following agents except: A) a live, infectious antigen. B) an attenuated antigen. C) a dead antigen. D) a detoxified toxin a Which pair of relatives has the highest chance of sharing both HLA haplotypes, making them a good match for an organ transplant from one to the other? A) Mother and daughter B) Father and son C) Siblings D) Mother and father c Type I hypersensitivity reaction o IgE mediated o Against environmental antigens (allergens) o IgE finds to Fc receptors on surface of mast cells (cytotropic antibody) o Histamine release - H1 and H2 receptors occurs - Antihistamines in rxn o Manifestations: Itching, urticaria, conjunctivitis, rhinitis, hypotension, bronchospasm, dysrhythmias, GI cramps and malabsorption Ex: Hay fever Type II hypersensitivity o Tissue specific - IgG/IgM - Specific cell or tissue (tissue-specific antigens) is the target of an immune response Does not destroy the target cell- malfunction o Five mechanisms 1. Cell is destroyed by antibodies and complement 2. Cell destructions through phagocytosis 3. Soluble antigen may enter the circulation and deposit on tissues 4. Antibody-dependent cell-mediated cytotoxicity 5. Causes target cell malfunction- ex: myasthenia gravis Ex: immediate drug reaction(allergy), hemolytic anemia, grave's disease(autoimmune), transfused bld cells, hemolytic disease of newborn(alloimmne) Histamine acts through H1 receptors by: contracting bronchial smooth muscles, causing brochial constriction, increasing vascular permeability, which causes edema and vasodiltion. Leads to an increase in blood flow to affected area. H2 receptors interact with histamine results in: increase in gastric acid secretion and a decrease in histamine released from mast cells and basophils Type III Hypersensitivity o Immune complex mediated - IgG/IgM o Antigen-antibody complexes formed in the circulation and later deposited in vessel walls or extra vascular tissues o Not organ specific o Immune complex clearance -Large-macrophages - Small-renal clearance - Intermediate- deposit in tissues - joint disease Serum Sickness, Raynaud's phenomena, Lupus Type IV Hypersensitivity o Mediated by T lymphocytes- Don't involve antibody -Destruction of the tissue usually caused by direct killing by toxins from Tc cells - Th1 cells produce cytokines that recruit phagocytes, especially macrophages o Examples: acute graft rejection, skin test for TB, contact allergic reactions (poison ivy), and some autoimmune diseases - diabetes, contact dermatitis (allergy), hashimoto thyroiditis, Rheumatoid arthritis (autoimmune), graft rejection(alloimmune) aneuploid cell variation of chromosomal number that causes a cell to have too many or too few chromosomes; total number of chromosomes is not a multiple of 23 as it is in triploidy or tetraploidy. complementary base pairing the consistent pairing of adenine & thymine and of guanine & cytosine; ensures accurate replication of DNA. Cri du chat syndrome condition caused by deletion on chromosome 5; child has cat-like cry, low birth weight, mental retardation, microcephaly and heart defects Down syndrome trisomy-21; most well known aneuploidy, occurs in about 1:800 live births; characterized by mental retardation, sterility, poor muscle tone, congenital heart defects, characteristic facial features and lowered life expectancy (about 60 years). Duplication excess genetic material; usually less severe than deletions Euploid cells with a normal number of chromosomes (diploid = 46, haploid = 23) Expressivity the extent of variation in a phenotype associated with a particular genotype Klinefelter Syndrome individuals with XXY karyotype, may have moderate mental impairment, male appearance but may have hypogonadism and sterility, high pitched voice and mosaicism (duel XXY & XY karyotypes). Triploidy mutation that causes cells to have 3 copies of each chromosome, resulting in 69 chromosomes; incompatible with life Turner Syndrome monoploidy of sex chromosome (karyotype 45, X); may cause learning diabilities, short stature, coarctation of aorta and sterility. abrasion results from removal of the superficial layers of the skin caused by friction between the skin and the injuring object adaptation A reversable, structural, or functional response both to normal (physiologic) conditions and to adverse (pathologic) conditions in order to maintain homeostasis. algor mortis postmortem reduction in body temp asphyxial injury injury caused by failure of cells to receive or use oxygen bilirubin normal yellow-green pigment of bile derived from the porphyrin structure of hemoglobin; excessive levels cause jaundice; unconjugated bilirubin is lipid soluble and can damage cell membranes blunt force injury mechanical injury to body resulting in tearing, shearing, or crushing; most common injury seen in healthcare, caused by blows or impact, MVA, and falls carbon monoxide an odorless, colorless and undetectable gas produced by incomplete combustion of fuels like gasoline; causes hypoxic injury caseous necrosis a combination of coagulative and liquefactive necrosis that usually results from TB infection; the dead cells disintegrate but debris is not fully digested, so tissues resemble soft cheese chopping wound heavy edged instruments (axes, hatchets, propeller blades, etc) produce wounds with a combination of sharp and blunt force characteristics. coagulative necrosis occurs primarily in kidneys, heart, and adrenal cells; commonly results from hypoxia/ischemia; caused by protein denaturation (particularly albumin) compensatory hyperplasia an adaptive mechanism that enables certain organs to regenerate; occurs significantly in epidermal and intestinal epithelia, hepatocytes, bone marrow cells, fibroblasts, and some bone, cartilage, and smooth muscle. contusion bruising; bleeding into skin or underlying tissues See more