Nokea
During inspiration
- A. diaphragm relaxes and thoracic space decrease
- B. diaphragm contract only
- C. Diaphragm contract and thoracic space increase
- D. both A and D
Correct Answer: C
Rationale: During inspiration, the diaphragm contracts, causing it to move downward and increase the thoracic space. This creates a negative pressure in the lungs, allowing air to rush in. Choice A is incorrect as the diaphragm contracts rather than relaxes during inspiration. Choice B is incorrect since other muscles like the external intercostals also aid in expanding the thoracic cavity. Choice D is incorrect because it combines a correct statement with an incorrect one. Therefore, the correct answer is C as it accurately describes the process of inspiration involving both diaphragm contraction and an increase in thoracic space.
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The nurse is assessing the patient with influenza. The patient reports having general malaise and aching muscles over the past 2 weeks. The nurse suspects that the patient may have developed which complication of influenza?
- A. Bronchitis
- B. Bacterial pneumonia
- C. Urinary infection
- D. Encephalitis
Correct Answer: B
Rationale: The correct answer is B: Bacterial pneumonia. Influenza can weaken the immune system, making the patient more susceptible to secondary bacterial infections like pneumonia. Symptoms of bacterial pneumonia, such as persistent cough, chest pain, and difficulty breathing, align with the patient's reported general malaise and muscle aches. Bronchitis (A) is a common complication of influenza but is usually characterized by cough with or without phlegm. Urinary infection (C) and encephalitis (D) are less likely in this scenario as the patient's symptoms are more indicative of a respiratory complication.
Pain with chronic stable angina is due to:
- A. Rubbing of epicardium against the pericardial sac.
- B. Insufficient blood flow due to narrowing of the coronary arteries
- C. Irritation of cardiac nerve endings in the chest wall
- D. Dilation of the coronary arteries to increase blood flow
Correct Answer: B
Rationale: The correct answer is B because chronic stable angina is caused by insufficient blood flow due to narrowing of the coronary arteries, leading to inadequate oxygen supply to the heart muscle during exertion. This results in chest pain.
A is incorrect as there is no rubbing of epicardium against the pericardial sac in chronic stable angina.
C is incorrect as the pain is not due to irritation of cardiac nerve endings in the chest wall.
D is incorrect as dilation of the coronary arteries does not cause pain in chronic stable angina; it is actually a compensatory mechanism to increase blood flow in response to decreased oxygen supply.
Hemoglobin
- A. tends to give up oxygen in regions where partial pressure of oxygen exceeds that in the lungs.
- B. tends to hold onto oxygen when the pH of the blood drops.
- C. tends to release oxygen where the temperature is lower.
- D. releases oxygen more readily in highly active tissues.
Correct Answer: D
Rationale: The correct answer is D because hemoglobin releases oxygen more readily in highly active tissues due to increased metabolic demand for oxygen. This is known as the Bohr effect. Choice A is incorrect as hemoglobin binds oxygen in the lungs where oxygen partial pressure is high. Choice B is incorrect as hemoglobin actually releases oxygen in acidic conditions to increase oxygen delivery to tissues. Choice C is incorrect as hemoglobin releases oxygen in warmer areas to facilitate oxygen delivery to metabolically active tissues.
The nurse is caring for a patient who has a pleural effusion and who underwent a thoracoscopic procedure earlier in the morning. The nurse should prioritize assessment for which of the following?
- A. Sputum production
- B. Shortness of breath
- C. Throat discomfort
- D. Epistaxis
Correct Answer: B
Rationale: The correct answer is B: Shortness of breath. Following a thoracoscopic procedure for a pleural effusion, shortness of breath is a priority assessment as it could indicate complications such as pneumothorax or respiratory distress. Sputum production (A) may be important but is secondary to respiratory distress. Throat discomfort (C) and epistaxis (D) are not directly related to the procedure or potential complications and would not be the priority assessment in this scenario.
What type of muscle wraps around a respiratory bronchiole and can change the diameter of the airway?
- A. skeletal muscle
- B. smooth muscle
- C. cardiac muscle
- D. voluntary muscle
Correct Answer: B
Rationale: The correct answer is B: smooth muscle. Smooth muscle is the type of muscle that wraps around a respiratory bronchiole and can contract or relax to change the diameter of the airway. This allows for regulation of airflow in the respiratory system. Skeletal muscle (choice A) is attached to bones and is under voluntary control, not found in the bronchioles. Cardiac muscle (choice C) is specific to the heart and does not control airway diameter. Voluntary muscle (choice D) refers to skeletal muscle, which is not present in the bronchioles and does not regulate airway diameter involuntarily.