Nursing Elites

1. What condition can be caused by an excessive amount of growth hormone released by the pituitary gland in childhood?

• A. Acromegaly
• B. Gigantism
• C. Syndrome of inappropriate antidiuretic hormone
• D. Dwarfism

Correct answer: B

Rationale: Gigantism is the correct answer. It is a condition caused by excessive growth hormone release before the epiphyseal plates close, leading to abnormal growth. Acromegaly (choice A) is caused by excess growth hormone after the epiphyseal plates close, resulting in enlargement of bones and tissues. Syndrome of inappropriate antidiuretic hormone (choice C) is characterized by the excessive release of antidiuretic hormone, leading to water retention and dilutional hyponatremia. Dwarfism (choice D) is a condition characterized by significantly below-average height.

2. After studying about fungi, which information indicates a correct understanding of fungi? Fungi causing deep or systemic infections:

• A. Are easily treated with penicillin
• B. Are extremely rare
• C. Never occur with other infections
• D. Are commonly opportunistic

Correct answer: D

Rationale: The correct answer is D: 'Are commonly opportunistic.' Fungi causing deep or systemic infections are commonly opportunistic, particularly in individuals with compromised immune systems. Choice A is incorrect because fungi infections are not easily treated with penicillin. Choice B is incorrect as deep or systemic fungal infections are not extremely rare. Choice C is incorrect as fungal infections can co-occur with other infections.

3. What condition is a result of Polycythemia Vera, which involves excess red blood cells?

• A. Tissue ischemia & necrosis
• B. Chronic pancreatitis
• C. Low blood pressure & heart rate
• D. Increased numbers of infections

Correct answer: A

Rationale: Polycythemia Vera, characterized by excess red blood cells, can cause tissue ischemia and necrosis due to the increased blood viscosity. This condition restricts blood flow, leading to inadequate oxygen delivery to tissues and subsequent tissue damage. Choices B, C, and D are incorrect because they are not directly associated with the pathophysiology of Polycythemia Vera.

4. A young man has received a diagnosis of androgen deficiency and has been prescribed testosterone. At clinic follow-up appointments, the nurse should prioritize which of the following assessments?

• A. Bladder ultrasound and urine testing for glucose and ketones
• B. Weight and measurement of blood pressure
• C. Hearing assessment and abdominal girth measurement
• D. Deep tendon reflexes and random blood glucose testing

Correct answer: B

Rationale: In a patient receiving testosterone therapy for androgen deficiency, monitoring weight and blood pressure is crucial. Testosterone therapy can lead to weight gain and hypertension, making regular assessments of these parameters important to detect and manage any adverse effects. Choices A, C, and D are not the priority assessments for a patient on testosterone therapy. Bladder ultrasound and urine testing for glucose and ketones, hearing assessment and abdominal girth measurement, and deep tendon reflexes and random blood glucose testing are not directly related to the common side effects or monitoring requirements of testosterone therapy.

5. In Guillain-Barre syndrome, what pathophysiologic process underlies the deficits that accompany the degeneration of myelin in the peripheral nervous system (PNS)?

• A. The destruction of myelin results in a reduction in Schwann cell production in the client's PNS.
• B. The lack of myelin surrounding nerve cells compromises the axonal transport system.
• C. Without remyelination, the axon will eventually die.
• D. A deficit of myelin makes the client more susceptible to infection by potential pathogens.

Correct answer: C

Rationale: In Guillain-Barre syndrome, the destruction of myelin leads to axonal damage. If remyelination does not occur, the axon will eventually degenerate and die, impacting nerve function. Choice A is incorrect because the destruction of myelin does not affect Schwann cell production. Choice B is incorrect as the lack of myelin directly affects the conduction of nerve impulses, not the axonal transport system. Choice D is incorrect as a deficit of myelin does not predispose the client to infections by potential pathogens.

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