Nokea
Slow continuous ultrafiltration is also known as isolated ultrafiltration and is used to
- A. remove plasma water in cases of volume overload.
- B. remove fluids and solutes through the process of convection.
- C. remove plasma water and solutes by adding dialysate.
- D. combine ultrafiltration, convection, and dialysis.
Correct Answer: A
Rationale: Rationale:
Slow continuous ultrafiltration is a method used to remove excess plasma water in cases of volume overload, making choice A the correct answer. This process does not involve adding dialysate (choice C) or combining ultrafiltration, convection, and dialysis (choice D). While ultrafiltration does involve the removal of fluids and solutes, it is primarily achieved through ultrafiltration rather than convection (choice B).
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A patient with long-standing type 1 diabetes presents to the emergency department with a loss of consciousness and seizure activity. The patient has a history of renal insufficiency, gastroparesis, and peripheral diabetic neuropathy. Emergency personnel reported a blood glucose of 32 mg/dL on scene. When providing discharge teaching for this patient and family, the nurse instructs on the need to do which of the following? (Select all that apply.)
- A. Administer glucagon 1 mg intramuscularly any time the blood glucose is less than 70 mg/dL.
- B. Administer 15 grams of carbohydrate orally for severe episodes of hypoglycemia.
- C. Discontinue the insulin pump by removing the infusion set catheter.
- D. Increase home blood glucose monitoring and report patterns of hypoglycemia to the provider.
Correct Answer: B
Rationale: The correct answer is B: Administer 15 grams of carbohydrate orally for severe episodes of hypoglycemia. In this scenario, the patient is experiencing severe hypoglycemia (blood glucose of 32 mg/dL) leading to loss of consciousness and seizure activity. Administering 15 grams of carbohydrate orally is crucial to rapidly raise the blood glucose levels and address the hypoglycemia. This immediate intervention can help reverse the symptoms and prevent further complications.
The incorrect choices:
A: Administering glucagon intramuscularly is typically reserved for severe hypoglycemia when the patient cannot take anything by mouth. In this case, oral intake is preferred for faster absorption.
C: Discontinuing the insulin pump is not necessary in this situation since the primary concern is treating the acute hypoglycemia. Removing the infusion set can lead to hyperglycemia if not managed properly.
D: Increasing home blood glucose monitoring and reporting patterns of hyp
The nurse is caring for a patient who has a temporary percutaneous dialysis catheter in place. In caring for this patient, the nurse should
- A. apply a sterile gauze dressing to maintain sterility.
- B. replace the transparent dressing every 10 days to prevent manipulation.
- C. assess the catheter site for redness and/or swelling.
- D. use the catheter for drawing blood samples to reduce patient discomfort.
Correct Answer: C
Rationale: The correct answer is C because assessing the catheter site for redness and/or swelling is essential in monitoring for signs of infection or complications. Redness and swelling can indicate infection, which requires prompt intervention.
A: Applying a sterile gauze dressing is not necessary for a temporary percutaneous dialysis catheter unless specified by the healthcare provider.
B: Transparent dressings are typically left in place for several days unless there is a specific reason to change them more frequently.
D: Using the catheter for drawing blood samples is not recommended as it can increase the risk of infection and may interfere with the dialysis process.
A patient is receiving hydrocortisone sodium succinate for adrenal crisis. What other medication does the nurse prepare to administer?
- A. Regular insulin
- B. A proton pump inhibitor
- C. Canagliflozin
- D. Propranolol
Correct Answer: B
Rationale: The correct answer is B: A proton pump inhibitor. When a patient is receiving hydrocortisone for adrenal crisis, it can lead to increased gastric acid secretion. A proton pump inhibitor helps reduce acid production and prevents gastric ulcers. Regular insulin (A) is not typically indicated in this scenario. Canagliflozin (C) is a medication used for diabetes management and is not relevant here. Propranolol (D) is a beta-blocker and may mask signs of hypoglycemia when used with insulin, which is not suitable in this case.
The patient has just returned from having an arteriovenous fistula placed. The patient asks, “When will they be able to use this and take this other catheter out?” The nurse should reply,
- A. “It can be used immediately, so the catheter can come out anytime.”
- B. “It will take 2 to 4 weeks to heal before it can be used.”
- C. “The fistula will be usable in about 4 to 6 weeks.”
- D. “The fistula was made using graft material, so it depends on the manufacturer.”
Correct Answer: C
Rationale: The correct answer is C: “The fistula will be usable in about 4 to 6 weeks.” This is because arteriovenous fistulas typically require a maturation period of 4 to 6 weeks before they can be used for dialysis. During this time, the fistula will develop into a strong, durable access point for hemodialysis.
Choice A is incorrect because the fistula needs time to mature before it can be used, and immediate use may damage it. Choice B is incorrect as it underestimates the maturation period required. Choice D is incorrect as the maturation time does not depend on the manufacturer but on the patient's physiology and healing process.
What is a minimally acceptable urine output for a patient weighing 75 kg?
- A. Less than 30 mL/hour
- B. 37 mL/hour
- C. 80 mL/hour
- D. 150 mL/hour
Correct Answer: C
Rationale: The correct answer is C (80 mL/hour) as it is considered a minimally acceptable urine output for a patient weighing 75 kg. Adequate urine output is crucial for kidney function and fluid balance. The general rule is to maintain a urine output of at least 0.5 mL/kg/hour, which in this case would be 37.5 mL/hour for a 75 kg patient. Option C (80 mL/hour) exceeds this minimum requirement, ensuring proper kidney perfusion and waste elimination. Options A (Less than 30 mL/hour) and D (150 mL/hour) are incorrect as they fall below or exceed the recommended urine output range, potentially indicating renal impairment or fluid overload, respectively. Option B (37 mL/hour) is close to the minimum requirement but does not provide a sufficient margin for variations in fluid status or kidney function.