Nokea
A normal urine output is considered to be
- A. 80 to 125 mL/min.
- B. 180 L/day.
- C. 80 mL/min.
- D. 1 to 2 L/day.
Correct Answer: D
Rationale: The correct answer is D: 1 to 2 L/day. Normal urine output typically ranges from 1 to 2 liters per day, which is considered adequate for maintaining proper hydration and eliminating waste products. A: 80 to 125 mL/min is too low for daily output. B: 180 L/day is excessively high and unrealistic. C: 80 mL/min is also too low for daily urine output. Therefore, D is the most appropriate choice based on standard guidelines for urine excretion.
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Continuous venovenous hemofiltration 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.
Correct Answer: A
Rationale: The correct answer is A because continuous venovenous hemofiltration primarily removes fluids and solutes through convection. Convection involves the movement of solutes across a semi-permeable membrane by the force of the fluid flow. This process helps to achieve fluid balance and manage electrolyte levels in patients with renal failure.
Choice B is incorrect because hemofiltration does not specifically target plasma water; it aims to remove both fluids and solutes. Choice C is incorrect as hemofiltration does not involve adding dialysate; it relies on the patient's blood passing through a filter to remove waste products. Choice D is incorrect because while hemofiltration may involve aspects of ultrafiltration and dialysis, the primary mechanism is convection for removing fluids and solutes.
Daily weights are being recorded for the patient with a urine output that has been less than the intravenous and oral intake. The weight yesterday was 5 kg. This morning it is 99 kg. The nurse understands that this corresponds to a(n)
- A. fluid retention of 1.5 liters.
- B. fluid loss of 1.5 liters.
- C. equal intake and output due to insensible losses.
- D. fluid loss of 0.5 liters.
Correct Answer: A
Rationale: The correct answer is A: fluid retention of 1.5 liters. The weight gain from 5 kg to 99 kg indicates an increase of 94 kg. Since 1 kg of weight gain is approximately equal to 1 liter of fluid retention, the patient has retained 94 liters of fluid. Therefore, the correct choice is fluid retention of 1.5 liters.
Choice B is incorrect because the weight gain indicates fluid retention, not loss. Choice C is incorrect as it mentions equal intake and output, which does not match the weight gain observed. Choice D is incorrect as it suggests fluid loss, which contradicts the weight gain.
Which of the following laboratory values would be more common in patients with diabetic ketoacidosis?
- A. Blood glucose >1000 mg/dL
- B. Negative ketones in the urine
- C. Normal anion gap
- D. pH 7.24
Correct Answer: A
Rationale: The correct answer is A (Blood glucose >1000 mg/dL) because diabetic ketoacidosis is characterized by severe hyperglycemia. High blood glucose levels (>1000 mg/dL) are common due to insulin deficiency leading to increased glucose production.
B: Negative ketones in the urine would be incorrect as DKA results in ketone production, leading to ketonuria.
C: Normal anion gap would be incorrect as DKA typically presents with an elevated anion gap metabolic acidosis due to ketone accumulation.
D: pH 7.24 would be incorrect as DKA would present with a lower pH due to metabolic acidosis.
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 nurse is caring for a patient who suffered a head trauma following a fall. The patient’s heart rate is 112 beats/min and blood pressure is 88/50 mm Hg. The patient has poor skin turgor and dry mucous membranes. The patient is confused and restless. The following laboratory values are reported: serum sodium is 115 mEq/L; blood urea nitrogen (BUN) 50 mg/dL; and creatinine 8 mg/dL. The findings are consistent with which disorder?
- A. Cerebral salt wasting
- B. Diabetes insipidus
- C. Syndrome of inappropriate secretion of antidiuretic hormone
- D. Thyroid storm
Correct Answer: A
Rationale: The correct answer is A: Cerebral salt wasting. This is indicated by the low serum sodium level (115 mEq/L), which can occur in patients with head trauma and lead to excessive sodium loss through the kidneys. This results in hypovolemia, leading to low blood pressure and tachycardia. The elevated BUN (50 mg/dL) and creatinine (8 mg/dL) levels suggest dehydration and renal impairment due to volume depletion. The patient's poor skin turgor, dry mucous membranes, confusion, and restlessness further support the diagnosis of cerebral salt wasting.
Summary:
B: Diabetes insipidus is characterized by excessive urination and thirst due to insufficient production of antidiuretic hormone (ADH). This patient's symptoms are not consistent with diabetes insipidus.
C: Syndrome of inappropriate secretion of antidiuretic hormone (SIADH) is characterized by excessive release of ADH, leading to water retention and