Nursing practice questions with comprehensive rationales
NurseDive Free Nursing Practice Question
A nurse in an emergency department is caring for a client who has a sucking chest wound resulting from a gunshot. The client has a blood pressure of 100/60 mm Hg, a weak pulse rate of 118/min, and a respiratory rate of 40/min. Which of the following actions should the nurse take?
A. Prepare to insert a central line.
Reason: This choice is incorrect because inserting a central line is not a priority action for a client who has a sucking chest wound. A central line is a catheter that is inserted into a large vein in the neck, chest, or groin to administer fluids, medications, or blood products. It may be indicated for clients who have hypovolemia, sepsis, or shock, but it does not address the underlying cause of the client's respiratory distress.
B. Remove the dressing to inspect the wound.
Reason: This choice is incorrect because removing the dressing to inspect the wound may worsen the client's condition. A sucking chest wound is an open wound in the chest wall that allows air to enter and exit the pleural cavity with each breath. This creates a positive pressure in the pleural space that collapses the lung on the affected side and shifts the mediastinum to the opposite side, impairing the ventilation and circulation of both lungs. Therefore, the nurse should apply an occlusive dressing that covers three sides of the wound and allows air to escape but not enter the pleural cavity. Removing the dressing may allow more air to enter and increase the risk of tension pneumothorax, which is a life-threatening complication.
C. Administer oxygen via nasal cannula.
Reason: This choice is correct because administering oxygen via nasal cannula may help to improve the client's oxygenation and ventilation. A nasal cannula is a device that delivers oxygen through two prongs that fit into the nostrils. It can provide oxygen at low flow rates (1 to 6 L/min) and low concentrations (24 to 44 percent). The nurse should monitor the client's respiratory rate, pulse oximetry, and arterial blood gases to assess the effectiveness of oxygen therapy.
D. Raise the foot of the bed to a 90° angle.
Reason: This choice is incorrect because raising the foot of the bed to a 90° angle may worsen the client's respiratory distress. This position may increase the pressure on the diaphragm and reduce the lung expansion. It may also decrease the venous return and cardiac output, leading to hypotension and shock. Therefore, the nurse should position the client in a semi-Fowler's position (30 to 45° angle) or high-Fowler's position (60 to 90° angle) to facilitate breathing and prevent further complications.
This question is an excerpt from Nurse Dive's nursing test bank - ATI Med Surg Custom N235 Final Summer 2023 Proctored Exam. Take the full exam now
Full Explanation
Choice A Reason: This choice is incorrect because inserting a central line is not a priority action for a client who has a sucking chest wound. A central line is a catheter that is inserted into a large vein in the neck, chest, or groin to administer fluids, medications, or blood products. It may be indicated for clients who have hypovolemia, sepsis, or shock, but it does not address the underlying cause of the client's respiratory distress.
Choice B Reason: This choice is incorrect because removing the dressing to inspect the wound may worsen the client's condition. A sucking chest wound is an open wound in the chest wall that allows air to enter and exit the pleural cavity with each breath. This creates a positive pressure in the pleural space that collapses the lung on the affected side and shifts the mediastinum to the opposite side, impairing the ventilation and circulation of both lungs. Therefore, the nurse should apply an occlusive dressing that covers three sides of the wound and allows air to escape but not enter the pleural cavity. Removing the dressing may allow more air to enter and increase the risk of tension pneumothorax, which is a life-threatening complication.
Choice C Reason: This choice is correct because administering oxygen via nasal cannula may help to improve the client's oxygenation and ventilation. A nasal cannula is a device that delivers oxygen through two prongs that fit into the nostrils. It can provide oxygen at low flow rates (1 to 6 L/min) and low concentrations (24 to 44 percent). The nurse should monitor the client's respiratory rate, pulse oximetry, and arterial blood gases to assess the effectiveness of oxygen therapy.
Choice D Reason: This choice is incorrect because raising the foot of the bed to a 90° angle may worsen the client's respiratory distress. This position may increase the pressure on the diaphragm and reduce the lung expansion. It may also decrease the venous return and cardiac output, leading to hypotension and shock. Therefore, the nurse should position the client in a semi-Fowler's position (30 to 45° angle) or high-Fowler's position (60 to 90° angle) to facilitate breathing and prevent further complications.
Similar Questions
A nurse is caring for a client 4 hr following evacuation of a subdural hematoma. Which of the following assessments is the nurse's priority?
A. Respiratory status
Choice A: Respiratory Status Reason: After the evacuation of a subdural hematoma, monitoring the respiratory status is crucial. This is because changes in respiratory patterns can indicate increased intracranial pressure (ICP) or brainstem compression, which are life-threatening conditions. Ensuring that the airway is clear and that the patient is breathing adequately is the top priority. Normal respiratory rate for adults is 12-20 breaths per minute.
B. Temperature
Choice B: Temperature Reason: While monitoring temperature is important to detect infections or other complications, it is not the immediate priority in the acute postoperative period following a subdural hematoma evacuation. Fever can indicate infection, but it is less likely to cause immediate life-threatening complications compared to respiratory issues.
C. Intracranial pressure
Choice C: Intracranial pressure Intracranial pressure (ICP) is crucial to monitor, but it is often assessed through indirect signs such as changes in respiratory status, level of consciousness, and pupil response. Direct measurement of ICP might not be feasible in all settings, making respiratory status a more practical and immediate indicator.
D. Serum electrolytes
Choice D: Serum Electrolytes Reason: Serum electrolytes are important to monitor for overall metabolic stability and to detect imbalances that could affect neurological function. Normal ranges for key electrolytes are: Sodium (135-145 mEq/L), Potassium (3.5-4.5 mEq/L), and Chloride (80-100 mEq/L). However, these are not the immediate priority in the acute phase following surgery compared to respiratory status.
Full Explanation
The correct answer is a. Respiratory status.
Choice A: Respiratory Status
Reason: After the evacuation of a subdural hematoma, monitoring the respiratory status is crucial. This is because changes in respiratory patterns can indicate increased intracranial pressure (ICP) or brainstem compression, which are life-threatening conditions. Ensuring that the airway is clear and that the patient is breathing adequately is the top priority. Normal respiratory rate for adults is 12-20 breaths per minute.
Choice B: Temperature
Reason: While monitoring temperature is important to detect infections or other complications, it is not the immediate priority in the acute postoperative period following a subdural hematoma evacuation. Fever can indicate infection, but it is less likely to cause immediate life-threatening complications compared to respiratory issues.
Choice C: Intracranial Pressure
Reason: Monitoring intracranial pressure (ICP) is very important in patients with brain injuries. Normal ICP ranges from 5-15 mmHg. However, changes in respiratory status can be an early indicator of increased ICP. Therefore, while ICP monitoring is critical, ensuring the patient’s respiratory status is stable takes precedence.
Choice D: Serum Electrolytes
Reason: Serum electrolytes are important to monitor for overall metabolic stability and to detect imbalances that could affect neurological function. Normal ranges for key electrolytes are: Sodium (135-145 mEq/L), Potassium (3.5-4.5 mEq/L), and Chloride (80-100 mEq/L). However, these are not the immediate priority in the acute phase following surgery compared to respiratory status.
A nurse is admitting a client who has sustained severe burn injuries in a grease fire. The nurse shades in a diagram indicating the burned surface areas. Using the Rule of Nines, the nurse should estimate that the client has burned what percentage of body surface area? (Round the answer to the nearest tenth. Use a leading zero if it applies. Do not use a trailing zero.)
Full Explanation
To estimate the percentage of body surface area burned using the Rule of Nines, follow these guidelines:
- Head and Neck: 9%
- Each Arm: 9% (right arm) + 9% (left arm) = 18%
- Front of Torso: 18%
- Back of Torso: 18%
- Each Leg: 18% (right leg) + 18% (left leg) = 36%
- Genital Area: 1%
Now, add up the percentages of the burned areas:
9% (head and neck) + 18% (each arm) + 18% (front of torso) + 18% (back of torso) + 36% (each leg) + 1% (genital area) = 100%
So, the nurse should estimate that the client has burned 100% of their body surface area.
A nurse is caring for a client who has acute kidney injury (AKI). Which of the following arterial blood gas values would the nurse expect this client to have?
A. pH 7.49, HCO3 24, PaCO2 30
Reason: This choice is incorrect because it indicates respiratory alkalosis, not AKI. Respiratory alkalosis is a condition in which the lungs eliminate too much carbon dioxide (CO2) from the blood, resulting in a low level of CO2 (PaCO2) and a high level of pH. A normal PaCO2 range is 35 to 45 mm Hg, and a normal pH range is 7.35 to 7.45, so a value of 30 mm Hg and 7.49 indicate respiratory alkalosis.
B. pH 7.26, HCO3 24, PaCO2 46
Reason: This choice is incorrect because it indicates respiratory acidosis, not AKI. Respiratory acidosis is a condition in which the lungs cannot eliminate enough CO2 from the blood, resulting in a high level of CO2 (PaCO2) and a low level of pH. A value of 46 mm Hg and 7.26 indicate respiratory acidosis.
C. pH 7.26, HCO3 14, PaCO2 30
Reason: This choice is correct because it indicates metabolic acidosis, which is a common complication of AKI. Metabolic acidosis is a condition in which the body produces too much acid or loses too much base, resulting in a low level of bicarbonate (HCO3) and a low level of pH. A normal HCO3 range is 22 to 26 mEq/L, so a value of 14 mEq/L indicates metabolic acidosis. The low PaCO2 value (30 mm Hg) is due to the respiratory compensation mechanism that tries to restore the acid-base balance by increasing the ventilation and eliminating more CO2.
D. pH 7.49, HCO3 30, PaCO2 40
Reason: This choice is incorrect because it indicates metabolic alkalosis, not AKI. Metabolic alkalosis is a condition in which the body loses too much acid or gains too much base, resulting in a high level of bicarbonate (HCO3) and a high level of pH. A value of 30 mEq/L and 7.49 indicate metabolic alkalosis.
Full Explanation
Choice A Reason: This choice is incorrect because it indicates respiratory alkalosis, not AKI. Respiratory alkalosis is a condition in which the lungs eliminate too much carbon dioxide (CO2) from the blood, resulting in a low level of CO2 (PaCO2) and a high level of pH. A normal PaCO2 range is 35 to 45 mm Hg, and a normal pH range is 7.35 to 7.45, so a value of 30 mm Hg and 7.49 indicate respiratory alkalosis.
Choice B Reason: This choice is incorrect because it indicates respiratory acidosis, not AKI. Respiratory acidosis is a condition in which the lungs cannot eliminate enough CO2 from the blood, resulting in a high level of CO2 (PaCO2) and a low level of pH. A value of 46 mm Hg and 7.26 indicate respiratory acidosis.
Choice C Reason: This choice is correct because it indicates metabolic acidosis, which is a common complication of AKI. Metabolic acidosis is a condition in which the body produces too much acid or loses too much base, resulting in a low level of bicarbonate (HCO3) and a low level of pH. A normal HCO3 range is 22 to 26 mEq/L, so a value of 14 mEq/L indicates metabolic acidosis. The low PaCO2 value (30 mm Hg) is due to the respiratory compensation mechanism that tries to restore the acid-base balance by increasing the ventilation and eliminating more CO2.
Choice D Reason: This choice is incorrect because it indicates metabolic alkalosis, not AKI. Metabolic alkalosis is a condition in which the body loses too much acid or gains too much base, resulting in a high level of bicarbonate (HCO3) and a high level of pH. A value of 30 mEq/L and 7.49 indicate metabolic alkalosis.
