NSG 5003 MIDTERM EXAM 2 – QUESTION AND ANSWERS
MID TERM EXAM
Question : What two types of hearing loss are associated with noise?
Student
... [Show More] Answer: Acoustic trauma and noise induced
High frequency and low frequency
High frequency and acoustic trauma
Noise induced and low frequency
Instructor Explanation: Two types of hearing loss are associated with noise: (1) acoustic trauma or instantaneous damage caused by a single sharply rising wave of sound (e.g., gunfire), and (2) noise-induced hearing loss, the more common type, which is the result of prolonged exposure to intense sound (e.g., noise associated with the workplace and leisure-time activities). The remaining options are not related to noise but rather to the amplitude of the sound.
Question 7. Question : A hypersensitivity reaction that produces an allergic response is called:
Student Answer: Hemolytic shock
Anaphylaxis
Necrotizing vasculitis
Systemic erythematosus
Instructor Explanation: Examples of systemic anaphylaxis are allergic reactions to beestings, peanuts, and fish. The other options are not accurate examples of hypersensitivity.
Question 8. Question : Which cytokine is produced and released from virally infected host cells?
Student Answer: IL-1
IL-10
Tumor necrosis factor–alpha (TNF-α)
Interferon-alpha (IFN-α)
Instructor Explanation: Only interferons are produced and released by virally infected cells in response to viral double-stranded ribonucleic acid (RNA). IFN-α and IFN-β induce the production of antiviral proteins, thereby conferring protection on uninfected cells. IFN-α or IFN-β is released from virally infected cells and attaches to a receptor on a neighboring cell. IFNs also enhance the efficiency of developing an acquired immune response.
Question 10. Question : Which T-lymphocyte phenotype is the key determinant of childhood asthma?
Student Answer: CD4 helper T 1 (Th1) lymphocytes
CD4 helper T 2 (Th2) lymphocytes
CD8 cytotoxic T (Tc) lymphocytes
Memory T lymphocytes
Instructor Explanation: Asthma develops because the Th2 response (in which CD4 helper T cells produce specific cytokines, such as IL-4, IL-5, and IL-13) promotes an atopic and allergic response in the airways. This selection is the only option that accurately identifies the appropriate T-lymphocyte phenotype.
Question 12. Question : Some older adults have impaired inflammation and wound healing because of which problem?
Student Answer: The circulatory system cannot adequately perfuse tissues.
Complement and chemotaxis are deficient.
Underlying chronic illnesses exist.
The number of mast cells is insufficient.
Instructor Explanation: In some cases, impaired healing is not directly associated with aging, in general, but can instead be linked to a chronic illness such as cardiovascular disease or diabetes mellitus. The other problems are not related to the aging process.
Question 13. Question : The role of cytokines in cell reproduction is that they:
Student Answer: Provide growth factor for tissue growth and development.
Block the progress of cell reproduction through the cell cycle.
Restrain cell growth and development.
Provide nutrients for cell growth and development.
Instructor Explanation: Growth factors, also called cytokines, are peptides that transmit signals within and among cells. They have a major role in the regulation of tissue growth and development. The remaining options do not correctly describe the role of cytokines in cell reproduction.
Question 15. Question : Which characteristic is the most important determinant of immunogenicity when considering the antigen?
Student Answer: Size
Foreignness
Complexity
Quantity
Instructor Explanation: Foremost among the criteria for immunogenicity is the antigen’s foreignness. A self-antigen that fulfills all of these criteria except foreignness does not normally elicit an immune response. Thus most individuals are tolerant of their own antigens. The immune system has an exquisite ability to distinguish self (self-antigens) from nonself (foreign antigens). The other options are considered when determining immunogenicity.
Question 16. Question : How do cells receive communication from the extracellular fluid surrounding them?
Student Answer: Through the protein channel (gap junction)
Via the plasma membrane–bound signaling molecules (involving receptors)
Through hormone secretion such as neurotransmitters
By chemical messengers such as ligands
Instructor Explanation: Cellular communication can occur by the binding of a chemical massager (a ligand) to a specific membrane receptor that is closely associated with the channel (e.g., G proteins). The other options do not correctly describe how cells communicate.
Question 17. Question : In a normal, nonmutant state, an oncogene is referred to as a:
Student Answer: Basal cell
Target cell
Caretaker gene
Proto-oncogene
Instructor Explanation: In its normal nonmutant state, an oncogene is referred to as a proto-oncogene. The other options are not terms used to identify a nonmutant oncogene.
Question 19. Question : What is the primary cause of respiratory distress syndrome (RDS) of the newborn?
Student Answer: Immature immune system
Small alveoli
Surfactant deficiency
Anemia
Instructor Explanation: RDS is primarily caused by surfactant deficiency and secondarily by a deficiency in alveolar surface area for gas exchange. None of the other options are related to the cause of RDS.
Question 20. Question : Which mode of chemical signaling uses blood to transport communication to cells some distance away?
Student Answer: Paracrine
Autocrine
Neurotransmitter
Hormonal
Instructor Explanation: Chemical signaling can be classified into three categories: (1) local-chemical mediator, (2) hormone, and (3) neurotransmitter. In the local-chemical mediator model, the secreted chemical acts on the cells in the immediate environment. Hormones are used for communication with distant target cells. For example, cells can secrete a chemical and rely on the blood system to deliver the signal to a distant cell. Finally, neurotransmitters are secreted by neurons to stimulate an adjoining cell. For example, a neuron might secrete acetylcholine to stimulate the movement of a muscle cell.
Question 22. Question : Which component of the plasma protein system tags pathogenic microorganisms for destruction by neutrophils and macrophages?
Student Answer: Complement cascade
Coagulation system
Kinin system
Immune system
Instructor Explanation: C3b (a component of the complement cascade) adheres to the surface of a pathogenic microorganism and serves as an efficient opsonin. Opsonins are molecules that tag microorganisms for destruction by cells of the inflammatory system, primarily neutrophils and macrophages. The other options do not accurately identify a component capable of tagging pathogenic microorganisms.
Question 23. Question : In a type III hypersensitivity reaction, the harmful effects after the immune complexes are deposited in tissues are a result of:
Student Answer: Cytotoxic T (Tc) cells
Natural killer (NK) cells
Complement activation
Degranulation of mast cells
Instructor Explanation: Complement activation, particularly through the generation of chemotactic factors for neutrophils, causes the harmful effects of immune complex deposition. The neutrophils bind to antibody and C3b contained in the complexes and attempt to ingest the immune complexes. Type III hypersensitivity reactions as described are not the result of any of the other options.
Question 24. Question : Which statement about exotoxins is true?
Student Answer: Exotoxins are contained in cell walls of gram-negative bacteria.
Exotoxins are released during the lysis of bacteria.
Exotoxins are able to initiate the complement and coagulation cascades.
Exotoxins are released during bacterial growth.
Instructor Explanation: Exotoxins are proteins released during bacterial growth. The other options are not true of exotoxins.
Question 25. Question : Which intracardiac pressure is generated by atrial contraction?
Student Answer: A wave
C wave
Y descent
X descent
Instructor Explanation: Atrial pressure curves are made up of only the A wave, which is generated by atrial contraction.
Question 28. Question : Research supports the premise that exercise has a probable impact on reducing the risk of:
Student Answer: Liver cancer
Endometrial cancer
Stomach cancer
Colon cancer
Instructor Explanation: The World Cancer Research Fund summarizes the effects as convincing for cancers of the colon and probable for postmenopausal breast cancer and endometrial cancer. The relationship is not supported for the remaining options.
Question 33. Question : Increased capillary hydrostatic pressure results in edema because of:
Student Answer: Losses or diminished production of plasma albumin
Inflammation resulting from an immune response
Blockage within the lymphatic channel system
Sodium and water retention
Instructor Explanation: Increased capillary hydrostatic pressure can result from venous obstruction or sodium and water retention. The other options do not accurately describe the cause of edema related to increased capillary hydrostatic pressure.
Question 34. Question : What is an example of compensatory hyperplasia?
Student Answer: Hepatic cells increase cell division after part of the liver is excised.
Skeletal muscle cells atrophy as a result of paralysis.
The heart muscle enlarges as a result of hypertension.
The size of the uterus increases during pregnancy.
Instructor Explanation: Compensatory hyperplasia is an adaptive mechanism that enables certain organs to regenerate. For example, the removal of part of the liver leads to hyperplasia of the remaining liver cells (hepatocytes) to compensate for the loss. The other options do not accurately describe the term compensatory hyperplasia.
Question 35. Question : Which factor contributes to the production of mucus associated with chronic bronchitis?
Student Answer: Airway injury
Pulmonary infection
Increased goblet cell size
Bronchospasms
Instructor Explanation: Continual bronchial inflammation causes bronchial edema and increases the size and number of mucous glands and goblet cells in the airway epithelium. Thick, tenacious mucus is produced and cannot be cleared because of impaired ciliary function. The lung’s defense mechanisms are therefore compromised, increasing a susceptibility to pulmonary infection, which contributes to airway injury. Frequent infectious exacerbations are complicated by bronchospasm with dyspnea and productive cough.
Question 36. Question : During which phase of the cell cycle is deoxyribonucleic acid (DNA) synthesized?
Student Answer: G1
S
G2
M
Instructor Explanation: The four designated phases of the cell cycle are: (1) the G1 phase (G = gap), which is the period between the M phase (M = mitosis) and the start of DNA synthesis; (2) the S phase (S = synthesis), during which DNA is synthesized in the cell nucleus; (3) the G2 phase, during which RNA and protein synthesis occurs, the period between the completion of DNA synthesis and the next phase (M); and (4) the M phase, which includes nuclear and cytoplasmic division.
Question 37. Question : What is the single most common cause of cellular injury?
Student Answer: Hypoxic injury
Chemical injury
Infectious injury
Genetic injury
Instructor Explanation: Hypoxia, or lack of sufficient oxygen, is the single most common cause of cellular injury. The other options are not a commonly observed as is the correct option.
Question 38. Question : Considering the hypothalamus, a fever is produced by:
Student Answer: Endogenous pyrogens acting directly on the hypothalamus
Exogenous pyrogens acting directly on the hypothalamus
Immune complexes acting indirectly on the hypothalamus
Cytokines acting indirectly on the hypothalamus
Instructor Explanation: Little evidence suggests that exogenous pyrogens directly cause fever. Such pyrogens indirectly affect the hypothalamus through endogenous pyrogens released by cells of the host. Neither immune complexes nor cytokines are involved in the process.
Question 39. Question : Which statement is true regarding hypoxemia?
Student Answer: Hypoxemia results in the increased oxygenation of arterial blood.
Respiratory alterations cause hypoxemia.
Hypoxemia results in the decreased oxygenation of tissue cells.
Various system changes cause hypoxemia.
Instructor Explanation: Hypoxemia, or reduced oxygenation of arterial blood (PaO2), is caused by respiratory alterations, whereas hypoxia, or reduced oxygenation of cells in tissues, may be caused by alterations of other systems as well.
Question 40. Question : Which hormone prompts increased anxiety, vigilance, and arousal during a stress response?
Student Answer: Norepinephrine
Epinephrine
Cortisol
Adrenocorticotropic hormone (ACTH)
Instructor Explanation: Only the release of norepinephrine promotes arousal, increased vigilance, increased anxiety, and other protective emotional responses.
FINAL EXAM
What is the purpose of administering ibuprofen to individuals being treated for frostbite?
Student Answer: Treating fever
Preventing platelet aggregation
Reducing pain
Inhibiting prostaglandins
Instructor Explanation: Ibuprophen is used to inhibit prostaglandins. Although ibuprofen may be administered for the other reasons stated, those applications are not related to the treatment of frostbite.
Question 3. Question : Which statement is incorrect regarding gallbladder function?
Student Answer: Within thirty minutes of eating, the gallbladder forces bile into the stomach.
Cholinergic branches of the vagus nerve mediate gallbladder contraction.
Cholecystokinin provides hormonal regulation of gallbladder contraction.
The sphincter of Oddi controls the flow of bile from the gallbladder.
Instructor Explanation: Within 30 minutes after eating, the gallbladder begins to contract and the sphincter of Oddi relaxes, forcing bile into the duodenum through the major duodenal papilla. The other options are correct statements regarding the functioning of the gallbladder.
Question 6. Question : What is the cause of functional dysphagia?
Student Answer: Intrinsic mechanical obstruction
Extrinsic mechanical obstruction
Tumor
Neural or muscular disorders
Instructor Explanation: Neural or muscular disorders that interfere with voluntary swallowing or peristalsis cause functional dysphagia. This selection is the only option that accurately identifies a cause of functional dysphagia.
Question 8. Question : Which clinical manifestations of a urinary tract infection may be demonstrated in an eighty-five-year-old individual?
Student Answer: Confusion and poorly localized abdominal discomfort
Dysuria, frequency, and suprapubic pain
Hematuria and flank pain
Pyuria, urgency, and frequency
Instructor Explanation: Older adults with cystitis may demonstrate confusion or vague abdominal discomfort or otherwise be asymptomatic.
Question 16. Question : Exposure to what protects the mucosal barrier of the stomach?
Student Answer: Prostaglandins
Aspirin
Helicobacter pylori
Regurgitated bile
Instructor Explanation: Prostaglandins and enterogastrones, such as gastric inhibitory peptide, somatostatin, and secretin, inhibit acid secretion. This selection is the only option that accurately identifies a substance that protects the mucosal barrier of the stomach.
Question 17. Question : After puberty, the epiphyseal plate calcifies and the epiphysis merges with the:
Student Answer: Epiphyseal line
Epiphyseal plate
Metaphysis
Articular cartilage
Instructor Explanation: After puberty, the epiphyseal plate calcifies and the epiphysis merges only with the metaphysis.
Question 18. Question : Hepatic fat accumulation is observed in which form of cirrhosis?
Student Answer: Biliary
Metabolic
Postnecrotic
Alcoholic
Instructor Explanation: Alcoholic cirrhosis is a complex process that begins with fatty infiltration (hepatic steatosis). Fat deposition (deposition of triglycerides) within the liver hepatocytes is primarily caused by increased lipogenesis and decreased fatty acid oxidation by hepatocytes. This selection is the only option that accurately identifies the correct form of cirrhosis.
question 27. Question : Which glycoprotein protects against urolithiasis and is a ligand for lymphokines?
Student Answer: Uromodulin
Nephrin
Urodilatin
Cystatin
Instructor Explanation: Tamm-Horsfall glycoprotein, also known as uromodulin, is the most abundant urinary protein, protects against bacterial adhesion and urolithiasis, and is a ligand for lymphokines. This statement is not true of the other options. [Show Less]