Nokea
T regulatory cells are NOT
- A. Generated in the thymus upon expression of Foxp3
- B. Generated in the periphery in response to cytokines
- C. Able to inhibit effector T cells
- D. Able to cause immunity
Correct Answer: D
Rationale: The correct answer is D because T regulatory cells are known to suppress immune responses and promote immune tolerance, which is opposite to causing immunity. Choice A is incorrect because T regulatory cells are indeed generated in the thymus upon expression of Foxp3. Choice B is incorrect as T regulatory cells can also be generated in the periphery in response to cytokines. Choice C is incorrect as T regulatory cells are known to inhibit effector T cells to regulate immune responses.
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When the patient asks about the late effects of chemotherapy and high-dose radiation, what areas of teaching should the nurse plan to include when describing these effects?
- A. Third space syndrome
- B. Secondary malignancies
- C. Chronic nausea and vomiting
- D. Persistent myelosuppression
Correct Answer: B
Rationale: Late effects of chemotherapy and radiation include secondary malignancies due to long-term cellular damage.
A site of intense B cell proliferation in the lymph node is
- A. Germinal center
- B. Paracortex
- C. Medulla
- D. Infected tissue
Correct Answer: A
Rationale: The correct answer is A: Germinal center. Germinal centers are specialized regions within lymph nodes where B cells undergo intense proliferation, somatic hypermutation, and class switching to generate high-affinity antibodies. This process is crucial for the adaptive immune response. Paracortex (B) contains T cells, not B cells. Medulla (C) is mainly involved in filtering lymph. Infected tissue (D) is not a specific site for B cell proliferation.
What is a characteristic disease associated with Type III hypersensitivity?
- A. Grave's disease
- B. Goodpasture's syndrome
- C. Systemic lupus erythematosus (SLE)
- D. Contact dermatitis
Correct Answer: C
Rationale: The correct answer is C: Systemic lupus erythematosus (SLE). In Type III hypersensitivity, immune complexes form and deposit in tissues, leading to inflammation and tissue damage. SLE is a classic example of a Type III hypersensitivity reaction where these immune complexes deposit in various organs causing systemic inflammation and damage. Graves's disease (A) is an example of Type II hypersensitivity, where autoantibodies target cell-surface receptors. Goodpasture's syndrome (B) is a Type II hypersensitivity disease affecting the kidneys and lungs. Contact dermatitis (D) is a Type IV hypersensitivity reaction mediated by T cells, not involving immune complexes. Therefore, the correct answer is C as it aligns with the characteristic disease associated with Type III hypersensitivity.
Which condition is caused by a Type IV hypersensitivity reaction?
- A. Anaphylaxis
- B. Sarcoidosis
- C. Grave's disease
- D. Goodpasture's syndrome
Correct Answer: B
Rationale: The correct answer is B: Sarcoidosis. Type IV hypersensitivity reactions are mediated by T cells and are characterized by delayed onset inflammatory responses. Sarcoidosis is a granulomatous disease where T cells form granulomas in affected tissues. Anaphylaxis (A) is a Type I hypersensitivity reaction involving IgE antibodies. Grave's disease (C) is an autoimmune disorder caused by Type II hypersensitivity reaction mediated by antibodies. Goodpasture's syndrome (D) is a Type II hypersensitivity reaction involving antibodies attacking basement membranes. Therefore, the correct answer is B as it fits the characteristics of a Type IV hypersensitivity reaction.
The nurse is caring for a patient who has had a total hip replacement and is using an abductor wedge. For which finding should the nurse assess?
- A. Muscle spasms
- B. Alteration in peripheral circulation
- C. Compression fracture
- D. Appropriateness of the size of the wedge
Correct Answer: B
Rationale: The correct answer is B: Alteration in peripheral circulation. The abductor wedge can affect blood flow to the legs, leading to potential complications like deep vein thrombosis. The nurse should assess for signs of impaired circulation such as color changes, temperature differences, and peripheral pulses. Muscle spasms (A) may occur due to the surgery but are not directly related to the wedge. Compression fracture (C) is not typically a concern with an abductor wedge. Assessing the appropriateness of the wedge size (D) is important but not as critical as monitoring for alterations in peripheral circulation.