Nokea
A patient presents to the emergency department with suspected thyroid storm. The nurse should be alert to which of the following cardiac rhythms while providing care to this patient?
- A. Atrial fibrillation
- B. Idioventricular rhythm
- C. Junctional rhythm
- D. Sinus bradycardia
Correct Answer: A
Rationale: The correct answer is A: Atrial fibrillation. In thyroid storm, excess thyroid hormone levels can lead to increased sympathetic activity, causing tachycardia and arrhythmias like atrial fibrillation. Atrial fibrillation is common in thyroid storm due to the hypermetabolic state and increased risk of atrial arrhythmias. Other choices are incorrect: B (Idioventricular rhythm) is not typically associated with thyroid storm, C (Junctional rhythm) is less likely since atrial arrhythmias are more common, and D (Sinus bradycardia) is unlikely due to the hypermetabolic state causing tachycardia.
You may also like to solve these questions
The critical care nurse knows that in critically ill patients, renal dysfunction
- A. is a very rare problem.
- B. affects nearly two thirds of patients.
- C. has a low mortality rate once renal replacement therapy has been initiated.
- D. has little effect on morbidity, mortality, or quality of life.
Correct Answer: B
Rationale: The correct answer is B because renal dysfunction is a common issue in critically ill patients due to factors like sepsis or hypoperfusion. This affects nearly two thirds of patients, leading to potential complications. Choice A is incorrect as renal dysfunction is common, not rare. Choice C is incorrect as mortality rates can still be high even with renal replacement therapy. Choice D is incorrect as renal dysfunction can significantly impact morbidity, mortality, and quality of life in critically ill patients.
A patient with a history of type 1 diabetes and an eating disorder is found unconscious. In the emergency department, the following lab values are obtained: Glucose: 648 mg/dL pH: 88 P CO : 20 mm Hg a 2 P O : 95 mm Hg a 2 HCO ¯: undetectable Anion gap: >31 Na+: 127 mEq/L K+: 5 mEq/L Creatinine: 8 mg/dL After the patient’s airway and ventilation have been established, the next priority for this patient is:
- A. administration of a 1-L normal saline fluid bolus.
- B. administration of 0.1 unit of regular insulin IV push followed by an insulin infusion.
- C. administration of 20 mEq KCl in 100 mL.
- D. IV push administration of 1 amp of sodium bicarbonate.
Correct Answer: A
Rationale: The correct answer is A: administration of a 1-L normal saline fluid bolus. In this scenario, the patient is likely experiencing diabetic ketoacidosis (DKA) due to the extremely high glucose levels, low bicarbonate, and anion gap metabolic acidosis. The priority is to correct the dehydration and electrolyte imbalances through fluid resuscitation with normal saline to improve perfusion and reverse the metabolic derangements. Options B, C, and D do not address the immediate need for volume resuscitation and correction of dehydration. Administering insulin or potassium without first addressing the fluid deficit could lead to further complications. Sodium bicarbonate is not recommended in DKA as it can worsen acidosis and has not been shown to improve outcomes.
The patient’s serum creatinine level is 7 mg/dL. The expected BUN level should be
- A. 1 to 2 mg/dL.
- B. 7 to 14 mg/dL.
- C. 10 to 20 mg/dL.
- D. 20 to 30 mg/dL.
Correct Answer: C
Rationale: The correct answer is C (10 to 20 mg/dL). In conditions where the serum creatinine level is elevated (7 mg/dL in this case), the BUN level is expected to also be elevated due to impaired kidney function. BUN levels are typically around 10-20 mg/dL, so this range is the most appropriate given the elevated creatinine level.
Choice A (1 to 2 mg/dL) is too low and would not be expected with a creatinine level of 7 mg/dL. Choice B (7 to 14 mg/dL) is a bit low for such a high creatinine level. Choice D (20 to 30 mg/dL) is too high as it exceeds the typical range for BUN levels. Therefore, choice C is the most appropriate range based on the given information.
In the management of diabetic ketoacidosis and hyperosmolar hyperglycemic syndrome, when is an intravenous (IV) solution that contains dextrose started?
- A. Never; normal saline is the only appropriate solution in diabetes management
- B. When the blood sugar reaches 70 mg/dL
- C. When the blood sugar reaches 150 mg/dL
- D. When the blood glucose reaches 250 mg/dL
Correct Answer: D
Rationale: Correct Answer: D
Rationale: In diabetic emergencies, starting IV dextrose at 250 mg/dL prevents hypoglycemia while resolving ketoacidosis. Below 250 mg/dL, the body can use endogenous glucose, so IV dextrose is not necessary.
Summary:
A: Incorrect. Normal saline may be used for initial fluid resuscitation but does not address the need for glucose.
B: Incorrect. Starting dextrose at 70 mg/dL may lead to unnecessary hyperglycemia and complications.
C: Incorrect. Waiting until 150 mg/dL delays the provision of necessary glucose for metabolic functions.
The patient is in need of immediate hemodialysis, but has no vascular access. The nurse prepares the patient for insertion of
- A. a percutaneous catheter at the bedside.
- B. a percutaneous tunneled catheter at the bedside.
- C. an arteriovenous fistula.
- D. an arteriovenous graft.
Correct Answer: A
Rationale: The correct answer is A: a percutaneous catheter at the bedside. In this urgent situation, a percutaneous catheter can be quickly inserted at the bedside to provide immediate vascular access for hemodialysis. This option allows for rapid initiation of treatment without the need for surgical placement or waiting for a more permanent access like an arteriovenous fistula or graft.
Incorrect Choices:
B: A percutaneous tunneled catheter may require more time for insertion due to tunneling and may not be suitable for immediate use.
C: An arteriovenous fistula is a more permanent access created surgically and requires time to mature before being used for hemodialysis.
D: An arteriovenous graft is also a surgical option that requires time to heal and mature before being used for hemodialysis.