ATI RN
Pathophysiology Exam 1 Quizlet
1. What is the cause of swelling during acute inflammation?
- A. Collagenase
- B. Fluid exudate
- C. Lymphocytic margination
- D. Anaerobic glycolysis
Correct answer: B
Rationale: Swelling during acute inflammation is primarily caused by the accumulation of fluid exudate in the affected tissues. This fluid exudate contains proteins and cells that leak from blood vessels due to increased vascular permeability. Collagenase (Choice A) is an enzyme that breaks down collagen and is not directly responsible for swelling. Lymphocytic margination (Choice C) is the process where white blood cells line up along the blood vessel walls, which does not directly cause swelling. Anaerobic glycolysis (Choice D) is a metabolic process that occurs in the absence of oxygen and is not related to the mechanism of swelling in acute inflammation.
2. Which pathophysiologic process causes the decreased glomerular filtration rate in a patient with acute glomerulonephritis?
- A. Decreased renal-induced constriction of the renal arteries
- B. Immune complex deposition, increased capillary permeability, and cellular proliferation
- C. Necrosis of 70% or more of the nephrons secondary to increased kidney interstitial hydrostatic pressure
- D. Scar tissue formation throughout the proximal convoluted tubule secondary to toxin-induced collagen synthesis
Correct answer: B
Rationale: The correct answer is B: Immune complex deposition, increased capillary permeability, and cellular proliferation. In acute glomerulonephritis, immune complexes deposit in the glomerulus, leading to inflammation, increased capillary permeability, and cellular proliferation. These processes collectively reduce the glomerular filtration rate. Choices A, C, and D do not accurately describe the pathophysiologic process in acute glomerulonephritis. Decreased renal-induced constriction of the renal arteries, necrosis of nephrons due to increased kidney interstitial hydrostatic pressure, and scar tissue formation in the proximal convoluted tubule are not the primary mechanisms responsible for the decreased filtration rate in this condition.
3. Which immunoglobulin is the first to appear in response to a new antigen?
- A. IgA
- B. IgG
- C. IgE
- D. IgM
Correct answer: D
Rationale: The correct answer is IgM. IgM is the first immunoglobulin to appear in response to a new antigen. It is produced initially during the primary immune response. IgA is mainly found in mucosal areas and secretions. IgG is produced in a secondary immune response and is the most abundant immunoglobulin in the bloodstream. IgE is involved in allergic reactions and parasitic infections, not the initial response to a new antigen.
4. A secondary immune response differs from the primary immune response in that:
- A. It is more rapid than the primary response and results in higher antibody levels
- B. It is slower than the primary response and doesn't change the antibody levels
- C. It occurs at the same time as the primary response but results in a decrease in antibodies
- D. It only occurs in hyperallergic reactions and results in a decrease in antibodies
Correct answer: A
Rationale: The correct answer is A. A secondary immune response is characterized by being more rapid than the primary response and results in higher antibody levels. This is because memory B cells are already present and can quickly differentiate into plasma cells upon re-exposure to the antigen. Choice B is incorrect because a secondary immune response is faster, not slower, than the primary response, and it does lead to higher antibody levels. Choice C is incorrect because a secondary response does not result in a decrease in antibodies; instead, it leads to an increase. Choice D is incorrect because a secondary immune response is not limited to hyperallergic reactions, and it results in an increase, not a decrease, in antibodies.
5. Which of the following describes the pathophysiology of exercise-induced asthma?
- A. Bronchospasm after exercise
- B. IgE-mediated inflammatory response to antigen
- C. Bronchoconstriction after ingesting high-allergen foods
- D. Increased mucus production due to a genetic mutation
Correct answer: A
Rationale: The correct answer is A: 'Bronchospasm after exercise.' Exercise-induced asthma involves the narrowing of the airways (bronchospasm) triggered by physical activity. This bronchospasm leads to symptoms such as coughing, wheezing, and shortness of breath. Choices B, C, and D are incorrect because exercise-induced asthma is not primarily caused by an IgE-mediated inflammatory response to an antigen, bronchoconstriction after ingesting high-allergen foods, or increased mucus production due to a genetic mutation.
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