Nursing practice questions with comprehensive rationales
NurseDive Free Nursing Practice Question
A nurse is reviewing the arterial blood gas (ABG) results of a client.
The client's ABGs are:.
- A. pH: 7.6.
- B. PaCO2: 40 mm Hg.
- C. HCO3: 32 mEq/L.
Which of the following acid-base conditions should the nurse identify the client is experiencing?
A. Metabolic alkalosis.
Metabolic alkalosis Metabolic alkalosis is characterized by an elevated pH (above the normal range of 7.35-7.45) and an increased bicarbonate (HCO3) level (above the normal range of 22-28 mEq/L). In this case, the client's pH of 7.6 and HCO3 level of 32 mEq/L indicate a primary metabolic alkalosis. It can be caused by excessive bicarbonate intake, loss of acid (as in vomiting or excessive diuretic use), or other factors that result in an excess of bicarbonate in the body. The PaCO2 level is within the normal range (35-45 mm Hg), which is consistent with compensatory hypoventilation seen in metabolic alkalosis.
B. Metabolic acidosis.
Metabolic acidosis Metabolic acidosis is characterized by a decreased pH and bicarbonate level. The client's ABG results do not align with metabolic acidosis. In this case, the pH is elevated, and the bicarbonate level is above the normal range.
C. Respiratory alkalosis.
Respiratory alkalosis Respiratory alkalosis is characterized by an elevated pH and decreased PaCO2. The client's ABG results show a normal PaCO2 of 40 mm Hg, which does not align with respiratory alkalosis. In respiratory alkalosis, you would typically see a lower PaCO2.
D. Respiratory acidosis.
Respiratory acidosis Respiratory acidosis is characterized by a decreased pH and elevated PaCO2. The client's ABG results do not align with respiratory acidosis. In this case, the PaCO2 is within the normal range, and the pH is elevated, which is not indicative of respiratory acidosis.
This question is an excerpt from Nurse Dive's nursing test bank - ATI Custom Fall NS 126 Proctored Exam 1. Take the full exam now
Full Explanation
Choice A rationale:
Metabolic alkalosis Metabolic alkalosis is characterized by an elevated pH (above the normal range of 7.35-7.45) and an increased bicarbonate (HCO3) level (above the normal range of 22-28 mEq/L). In this case, the client's pH of 7.6 and HCO3 level of 32 mEq/L indicate a primary metabolic alkalosis. It can be caused by excessive bicarbonate intake, loss of acid (as in vomiting or excessive diuretic use), or other factors that result in an excess of bicarbonate in the body. The PaCO2 level is within the normal range (35-45 mm Hg), which is consistent with compensatory hypoventilation seen in metabolic alkalosis.
Choice B rationale:
Metabolic acidosis Metabolic acidosis is characterized by a decreased pH and bicarbonate level. The client's ABG results do not align with metabolic acidosis. In this case, the pH is elevated, and the bicarbonate level is above the normal range.
Choice C rationale:
Respiratory alkalosis Respiratory alkalosis is characterized by an elevated pH and decreased PaCO2. The client's ABG results show a normal PaCO2 of 40 mm Hg, which does not align with respiratory alkalosis. In respiratory alkalosis, you would typically see a lower PaCO2.
Choice D rationale:
Respiratory acidosis Respiratory acidosis is characterized by a decreased pH and elevated PaCO2. The client's ABG results do not align with respiratory acidosis. In this case, the PaCO2 is within the normal range, and the pH is elevated, which is not indicative of respiratory acidosis.
Similar Questions
A nurse is reviewing the laboratory results of a client who is taking a loop diuretic and notes the client's potassium level is 3.0 mEq/L. Which of the following physiological responses should the nurse expect related to the client's hypokalemia?
A. Hypoglycemia.
Hypoglycemia Hypokalemia (low potassium levels) is not typically associated with hypoglycemia (low blood sugar). Hypokalemia primarily affects the function of muscles and nerves, and it does not directly influence blood glucose levels.
B. Cardiac dysrhythmias.
Cardiac dysrhythmias Hypokalemia can lead to cardiac dysrhythmias. Potassium plays a crucial role in maintaining the electrical activity of the heart, and low potassium levels can disrupt normal cardiac rhythms, potentially leading to life-threatening arrhythmias. Cardiac dysrhythmias are a well-recognized complication of severe hypokalemia, making this choice the correct one.
C. Increased appetite.
Increased appetite Hypokalemia is not associated with an increased appetite. In fact, it can lead to gastrointestinal disturbances, such as nausea, vomiting, and abdominal pain, which may decrease appetite. The primary manifestations of hypokalemia are related to muscle weakness and cardiac abnormalities.
D. Hyperreflexia.
Hyperreflexia Hyperreflexia (excessive reflex responses) is not a typical manifestation of hypokalemia. Hypokalemia is more commonly associated with muscle weakness, cramps, and cardiac disturbances. Hyperreflexia is often seen in conditions of excessive calcium levels (hypercalcemia) or neurological disorders, not hypokalemia.
Full Explanation
Choice A rationale:
Hypoglycemia Hypokalemia (low potassium levels) is not typically associated with hypoglycemia (low blood sugar). Hypokalemia primarily affects the function of muscles and nerves, and it does not directly influence blood glucose levels.
Choice B rationale:
Cardiac dysrhythmias Hypokalemia can lead to cardiac dysrhythmias. Potassium plays a crucial role in maintaining the electrical activity of the heart, and low potassium levels can disrupt normal cardiac rhythms, potentially leading to life-threatening arrhythmias. Cardiac dysrhythmias are a well-recognized complication of severe hypokalemia, making this choice the correct one.
Choice C rationale:
Increased appetite Hypokalemia is not associated with an increased appetite. In fact, it can lead to gastrointestinal disturbances, such as nausea, vomiting, and abdominal pain, which may decrease appetite. The primary manifestations of hypokalemia are related to muscle weakness and cardiac abnormalities.
Choice D rationale:
Hyperreflexia Hyperreflexia (excessive reflex responses) is not a typical manifestation of hypokalemia. Hypokalemia is more commonly associated with muscle weakness, cramps, and cardiac disturbances. Hyperreflexia is often seen in conditions of excessive calcium levels (hypercalcemia) or neurological disorders, not hypokalemia.
A nurse is preparing to administer digoxin to a client who has heart failure.
Before administering this medication, which of the following actions should the nurse take?
A. Check the client's blood pressure.
Checking the client's blood pressure is not the priority action when administering digoxin. Although monitoring blood pressure is essential in the overall care of a client with heart failure, the most critical parameter to assess before administering digoxin is the client's apical pulse.
B. Measure the client's apical pulse.
Measuring the client's apical pulse is the correct action to take before administering digoxin. Digoxin is a medication commonly prescribed for heart failure, and it has a narrow therapeutic range. It primarily works by increasing the force of the heart's contractions, and an excessively low heart rate (bradycardia) is a potential side effect of digoxin. Therefore, it is crucial to assess the client's apical pulse to ensure it is within the recommended range (usually above 60 beats per minute) before administering the medication. If the pulse rate is below the recommended range, the nurse should withhold the digoxin and notify the healthcare provider.
C. Offer the client a light snack.
Offering the client a light snack is not a necessary action before administering digoxin. While it is important to consider the client's dietary needs, it is not directly related to the administration of digoxin. However, if the client has nausea or vomiting, which can be a side effect of digoxin, a light snack might be offered after the medication.
D. Weigh the client.
Weighing the client is not the immediate action to take before administering digoxin. Although daily weights can be important for assessing fluid balance in clients with heart failure, it is not the priority before administering digoxin. Monitoring the client's apical pulse is the most critical step in this context.
Full Explanation
Choice A rationale:
Checking the client's blood pressure is not the priority action when administering digoxin. Although monitoring blood pressure is essential in the overall care of a client with heart failure, the most critical parameter to assess before administering digoxin is the client's apical pulse.
Choice B rationale:
Measuring the client's apical pulse is the correct action to take before administering digoxin. Digoxin is a medication commonly prescribed for heart failure, and it has a narrow therapeutic range. It primarily works by increasing the force of the heart's contractions, and an excessively low heart rate (bradycardia) is a potential side effect of digoxin. Therefore, it is crucial to assess the client's apical pulse to ensure it is within the recommended range (usually above 60 beats per minute) before administering the medication. If the pulse rate is below the recommended range, the nurse should withhold the digoxin and notify the healthcare provider.
Choice C rationale:
Offering the client a light snack is not a necessary action before administering digoxin. While it is important to consider the client's dietary needs, it is not directly related to the administration of digoxin. However, if the client has nausea or vomiting, which can be a side effect of digoxin, a light snack might be offered after the medication.
Choice D rationale:
Weighing the client is not the immediate action to take before administering digoxin. Although daily weights can be important for assessing fluid balance in clients with heart failure, it is not the priority before administering digoxin. Monitoring the client's apical pulse is the most critical step in this context.
A nurse is reinforcing teaching with a client who is taking hydrochlorothiazide.
Which of the following information should the nurse include in the teaching?
A. Take the medication on an empty stomach.
Taking hydrochlorothiazide on an empty stomach is not a requirement for this medication. Hydrochlorothiazide is a diuretic used to treat conditions like hypertension and edema. It can be taken with or without food, and food may help reduce stomach upset for some individuals.
B. Muscle weakness is an expected adverse effect.
Muscle weakness is an adverse effect of hydrochlorothiazide. Therefore, it is not an expected outcome. Hydrochlorothiazide is a thiazide diuretic, and one of its common side effects is potassium loss through increased urine output. This can lead to muscle weakness and cramping. The nurse should educate the client about the signs and symptoms of low potassium and the importance of including potassium-rich foods in their diet.
C. Increase daily intake of foods high in potassium.
Increasing daily intake of foods high in potassium is essential information to include in the teaching for a client taking hydrochlorothiazide. Thiazide diuretics like hydrochlorothiazide can cause potassium depletion, which may result in adverse effects like muscle weakness, cramping, and cardiac dysrhythmias. Therefore, advising the client to consume potassium-rich foods, such as bananas, oranges, and potatoes, can help counteract the potassium loss associated with the medication.
D. Take the medication at bedtime.
Taking the medication at bedtime is not a specific requirement for hydrochlorothiazide. Thiazide diuretics can be taken at various times of the day, depending on the client's preferences and when they are most compliant with their medication regimen. The timing of administration should be consistent to maintain the medication's effectiveness.
Full Explanation
Choice A rationale:
Taking hydrochlorothiazide on an empty stomach is not a requirement for this medication. Hydrochlorothiazide is a diuretic used to treat conditions like hypertension and edema. It can be taken with or without food, and food may help reduce stomach upset for some individuals.
Choice B rationale:
Muscle weakness is an adverse effect of hydrochlorothiazide. Therefore, it is not an expected outcome. Hydrochlorothiazide is a thiazide diuretic, and one of its common side effects is potassium loss through increased urine output. This can lead to muscle weakness and cramping. The nurse should educate the client about the signs and symptoms of low potassium and the importance of including potassium-rich foods in their diet.
Choice C rationale:
Increasing daily intake of foods high in potassium is essential information to include in the teaching for a client taking hydrochlorothiazide. Thiazide diuretics like hydrochlorothiazide can cause potassium depletion, which may result in adverse effects like muscle weakness, cramping, and cardiac dysrhythmias. Therefore, advising the client to consume potassium-rich foods, such as bananas, oranges, and potatoes, can help counteract the potassium loss associated with the medication.
Choice D rationale:
Taking the medication at bedtime is not a specific requirement for hydrochlorothiazide. Thiazide diuretics can be taken at various times of the day, depending on the client's preferences and when they are most compliant with their medication regimen. The timing of administration should be consistent to maintain the medication's effectiveness.