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The nurse is caring for a patient who has sustained blunt trauma to the left flank area, and is evaluating the patient’s urinalysis results. The nurse should become concerned when
- A. creatinine levels in the urine are similar to blood levels of creatinine.
- B. sodium and chloride are found in the urine.
- C. urine uric acid levels have the same values as serum levels.
- D. red blood cells and albumin are found in the urine.
Correct Answer: D
Rationale: The correct answer is D because the presence of red blood cells and albumin in the urine indicates kidney damage, as these are not normally found in urine. A: Creatinine levels should be similar in blood and urine for proper kidney function. B: Sodium and chloride are normal components of urine. C: Uric acid levels can vary in urine and serum. Therefore, D is the correct answer as it signals potential kidney injury.
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Continuous renal replacement therapy (CRRT) differs from conventional intermittent hemodialysis in that
- A. a hemofilter is used to facilitate ultrafiltration.
- B. it provides faster removal of solute and water.
- C. it does not allow diffusion to occur.
- D. the process removes solutes and water slowly.
Correct Answer: D
Rationale: Step-by-step rationale:
1. CRRT removes solutes and water slowly to avoid hemodynamic instability.
2. Slow removal better tolerates fluid and electrolyte shifts in critically ill patients.
3. Unlike intermittent hemodialysis, CRRT provides continuous, gentle therapy.
4. Choice A is incorrect as both CRRT and intermittent hemodialysis use a hemofilter.
5. Choice B is incorrect as CRRT does not provide faster solute and water removal.
6. Choice C is incorrect as CRRT allows for diffusion to occur, albeit at a slower rate.
Summary:
Continuous renal replacement therapy (CRRT) removes solutes and water slowly to prevent hemodynamic instability, making it a gentler and more continuous process compared to intermittent hemodialysis. The other choices are incorrect as CRRT does use a hemofilter, does not provide faster removal, and still allows for diffusion to occur.
A patient with newly diagnosed type 1 diabetes is being transitioned from an infusion of intravenous (IV) regular insulin to an intensive insulin therapy regimen of insulin glargine and insulin aspart. How should the nurse manage this transition in insulin delivery?
- A. Administer the insulin glargine and continue the IV insulin infusion for 24 hours.
- B. Administer the insulin glargine and discontinue the IV infusion in several hours.
- C. Discontinue the IV infusion and administer the insulin aspart with the next meal.
- D. Discontinue the IV infusion and administer the Lantus insulin at bedtime.
Correct Answer: D
Rationale: The correct answer is D: Discontinue the IV infusion and administer the Lantus insulin at bedtime. This is the correct approach because insulin glargine (Lantus) is a long-acting basal insulin that provides a steady level of insulin throughout the day and night. By administering it at bedtime, it mimics the basal insulin secretion in a person without diabetes. This helps maintain stable blood sugar levels overnight.
Choice A is incorrect because continuing the IV insulin infusion for 24 hours alongside insulin glargine is unnecessary and may lead to insulin overdose. Choice B is incorrect because discontinuing the IV infusion in several hours without administering the long-acting insulin can lead to inadequate insulin coverage. Choice C is incorrect because insulin aspart is a rapid-acting insulin that should be given with meals, not as a basal insulin replacement at bedtime.
The most common cause of acute kidney injury in critically ill patients is
- A. sepsis.
- B. fluid overload.
- C. medications.
- D. hemodynamic instability.
Correct Answer: A
Rationale: The correct answer is A: sepsis. Sepsis is a leading cause of acute kidney injury in critically ill patients due to the systemic inflammatory response leading to kidney damage. Fluid overload (B) can contribute but is not the primary cause. Medications (C) and hemodynamic instability (D) can also lead to acute kidney injury but are not as common as sepsis in critically ill patients.
The patient is in the critical care unit and will receive dialysis this morning. The nurse will (Select all that apply.)
- A. evaluate morning laboratory results and report abnormal results.
- B. administer the patient’s antihypertensive medications.
- C. assess the dialysis access site and report abnormalities.
- D. weigh the patient to monitor fluid status.
Correct Answer: A
Rationale: The correct answer is A. By evaluating the morning laboratory results and reporting abnormal results, the nurse can ensure the patient's safety during dialysis by addressing any concerning findings promptly. This step is crucial in monitoring the patient's condition and adjusting the treatment plan as needed.
Incorrect choices:
B: Administering antihypertensive medications is not directly related to the patient's dialysis procedure and does not address the immediate needs of the patient in the critical care unit.
C: While assessing the dialysis access site is important, reporting abnormalities alone may not be sufficient without a comprehensive evaluation of the patient's laboratory results.
D: Weighing the patient to monitor fluid status is important in the context of dialysis, but it is not as critical as evaluating laboratory results for immediate intervention.
Continuous venovenous hemodialysis is used to
- A. remove fluids and solutes through the process of convection.
- B. remove plasma water in cases of volume overload.
- C. remove plasma water and solutes by adding dialysate.
- D. combine ultrafiltration, convection and dialysis Continuous venovenous hemodialysis (CVVHD) is similar to CVVH in that ultrafiltration removes plasma water. It differs in that dialysate solution is added around the hemofilter membranes to facilitate solute removal by the process of diffusion. Continuous venovenous hemofiltration (CVVH) is used to remove fluids and solutes through the process of convection. Slow continuous ultrafiltration (SCUF) is also known as isolated ultrafiltration and is used to remove plasma water in cases of volume overload. Continuous venovenous hemodiafiltration (CVVHDF) combines ultrafiltration, convection, and dialysis to maximize fluid and solute removal.
Correct Answer: D
Rationale: The correct answer is D because continuous venovenous hemodiafiltration (CVVHDF) combines ultrafiltration, convection, and dialysis to maximize fluid and solute removal. Ultrafiltration removes plasma water, convection removes fluids and solutes, and dialysis facilitates solute removal through diffusion.
Choice A is incorrect because convection alone does not remove solutes, but CVVHDF combines convection with other methods.
Choice B is incorrect because CVVHDF is not specifically used for volume overload, although it does remove fluids.
Choice C is incorrect because CVVHDF does not involve adding dialysate to remove solutes; instead, it relies on diffusion for solute removal.
In summary, the correct answer D is the best choice as it encompasses all the components needed for comprehensive fluid and solute removal in CVVHDF.