A nurse is suctioning fluids from a female client through an endotracheal tube. During the suctioning procedure, the nurse notes on the monitor that the heart rate is decreasing. Which if the following is the appropriate nursing intervention?

Correct Answer: C

Rationale: The correct answer is C: Stop the procedure and reoxygenate the client. When the nurse notes a decreasing heart rate during suctioning, it could indicate that the client is experiencing hypoxia. Stopping the procedure and providing additional oxygenation is crucial to prevent further complications such as bradycardia or cardiac arrest. Continuing to suction (choice A) can worsen the hypoxia. Notifying the physician immediately (choice B) may cause a delay in addressing the immediate issue. Limiting suction to 15 seconds (choice D) does not address the primary concern of hypoxia and decreasing heart rate.

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.

Correct Answer: D

Rationale: The correct answer is D: diffusion. Oxygen and carbon dioxide move in and out of cells through simple diffusion, which is the passive movement of molecules from an area of high concentration to an area of low concentration. This process occurs due to the concentration gradient of these gases. Osmosis (Choice C) is the movement of water across a selectively permeable membrane, not gases like oxygen and carbon dioxide. Exocytosis and endocytosis (Choice A) involve the transport of larger molecules and particles in and out of cells, not gases. Bulk flow (Choice B) involves the movement of fluids in response to pressure differences, not the specific movement of oxygen and carbon dioxide molecules. Therefore, diffusion is the correct mechanism for the movement of oxygen and carbon dioxide in the body due to their small molecular size and the concentration gradient present.

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.

Correct Answer: A

Rationale: The correct answer is A because in frogs, respiration is mainly driven by buccal pumping using their mouth cavity and floor of the mouth, while in humans, diaphragm and ribs play a crucial role in expanding and contracting the chest cavity for breathing. Choices B and C are incorrect as both frogs and humans have lungs as respiratory organs and respiration occurs due to a pressure gradient in both species. Choice D is incorrect as the difference lies in the involvement of the diaphragm and ribs in respiration.