Exam Questions on Respiratory System

Exam Questions on Respiratory System Related

Review Exam Questions on Respiratory System related questions and content

Alveolar ventilation in a male with a respiratory rate of 10/min and tidal volume of 600 ml is

  • A. 1000ml
  • B. 1750 ml
  • C. 3000ml
  • D. 4500ml
Correct Answer: D

Rationale: The correct answer is D: 4500ml. Alveolar ventilation is calculated by multiplying tidal volume by respiratory rate. In this case, 600ml (tidal volume) x 10/min (respiratory rate) = 6000ml/min. However, we need to consider dead space ventilation, which is about 150ml. Therefore, the final alveolar ventilation is 6000ml/min - 150ml = 5850ml/min. Since the question asks for alveolar ventilation per minute, the correct answer is the closest option, which is D: 4500ml.

Choices A, B, and C are incorrect because they do not accurately reflect the calculation of alveolar ventilation based on the provided respiratory rate, tidal volume, and dead space ventilation.

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The 75-year-old patient asks the nurse if the Pneumovax immunization he took when he was 65 is still protecting him. Which reply is most accurate?

  • A. Pneumovax protects you for your lifetime.
  • B. Immunity afforded you by Pneumovax lasts only 2 years.
  • C. Pneumovax protection varies according to your risk factors and living situation.
  • D. After 6 years, you need a repeat dose of Pneumovax for full immunity.
Correct Answer: D

Rationale: Step 1: Pneumovax is recommended for adults aged 65 and older.
Step 2: Immunity from Pneumovax decreases over time.
Step 3: CDC recommends a second dose of Pneumovax after 5 years for those at highest risk.
Step 4: Answer D is correct as it aligns with CDC guidelines for revaccination.
Step 5: Other choices are incorrect as they do not reflect current recommendations or scientific evidence.

Inhibition of medulla oblongata chemoreceptors and respiratory muscles has what effect on respiratory rate, elimination of CO2 at alveoli, and arterial PCO2?

  • A. increased respiratory rate, increased elimination of CO2 at alveoli, and increased arterial
    PCO2
  • B. increased respiratory rate, decreased elimination of CO2 at alveoli, and decreased arterial
    PCO2
  • C. increased respiratory rate, increased elimination of CO2 at alveoli, and decreased arterial
    PCO2
  • D. decreased respiratory rate, decreased elimination of CO2 at alveoli, and increased arterial
    PCO2
Correct Answer: D

Rationale: The correct answer is D. Inhibition of medulla oblongata chemoreceptors and respiratory muscles would decrease respiratory rate, leading to decreased elimination of CO2 at alveoli. This would cause an increase in arterial PCO2 due to less CO2 being removed from the body. Therefore, choice D is correct.

Choices A, B, and C are incorrect because they do not align with the physiological effects of inhibiting the medulla oblongata chemoreceptors and respiratory muscles. Option A suggests an increase in respiratory rate and elimination of CO2, which goes against the expected decrease in these parameters. Option B proposes an increase in respiratory rate but a decrease in CO2 elimination and arterial PCO2, which is inconsistent with the expected outcomes. Option C suggests an increase in respiratory rate and CO2 elimination but a decrease in arterial PCO2, which does not follow the logic of the question.

A 22-year-old female client is experiencing a new-onset asthmatic attack. Which position is best for this client?

  • A. High Fowler's
  • B. Left side-lying.
  • C. Right side-lying.
  • D. Supine with pillows under each arm.
Correct Answer: A

Rationale: The correct answer is A: High Fowler's position. This position promotes optimal lung expansion by maximizing chest expansion and allowing for improved airflow. The upright position reduces pressure on the diaphragm, making it easier for the client to breathe. Left and right side-lying positions may restrict lung expansion and worsen breathing difficulties. The supine position with pillows under each arm does not provide the same benefits as the High Fowler's position in terms of respiratory support. Overall, High Fowler's is the most effective position for a client experiencing an asthmatic attack as it facilitates better oxygenation and ventilation.

Hypoxia

  • A. causes hyperventilation
  • B. may cause headaches, nausea, and lethargy.
  • C. can lead to loss of consciousness and death
  • D. all of the above
Correct Answer: D

Rationale: The correct answer is D because hypoxia, which is a condition of low oxygen levels in the body, can indeed lead to hyperventilation, as the body tries to compensate. It can also cause symptoms like headaches, nausea, and lethargy due to the lack of oxygen reaching the brain and other organs. Severe hypoxia can lead to loss of consciousness and even death if oxygen levels are not restored promptly. Therefore, all the statements in choices A, B, and C are true in relation to hypoxia, making option D the correct choice.

A patient asks the nurse why an infection in his upper respiratory system is affecting the clarity of his speech. Which structure serves as the patient's resonating chamber in speech?

  • A. Trachea
  • B. Pharynx
  • C. Paranasal sinuses
  • D. Larynx
Correct Answer: C

Rationale: Rationale: The paranasal sinuses act as resonating chambers in speech production due to their location near the nasal cavity and their ability to amplify sound vibrations. When infected, the sinuses can become inflamed, affecting speech clarity. The trachea (A) is a passageway for air, not involved in speech. The pharynx (B) is a common pathway for both air and food, not a resonating chamber. The larynx (D) contains the vocal cords for sound production but is not primarily responsible for speech resonance.