Nokea
If the CO2 concentration in the blood increases, the breathing shall
- A. Increase
- B. Decrease
- C. Stop
- D. No affect
Correct Answer: A
Rationale: When CO2 concentration in the blood increases, it leads to respiratory acidosis, causing the body to increase breathing rate to expel excess CO2 and restore pH balance. This increase in breathing helps eliminate CO2 through exhalation, thus the correct answer is A.
Choice B is incorrect because an increase in CO2 concentration triggers an increase in breathing to remove the excess CO2, not decrease it.
Choice C is incorrect because stopping breathing would be life-threatening and is not a physiological response to high CO2 levels.
Choice D is incorrect because an increase in CO2 concentration does have an effect on breathing rate to maintain homeostasis.
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Air that remains in conducting passages and doesn't participate in gas exchange is termed
- A. vital capacity
- B. minimal volume
- C. residual volume
- D. anatomic dead space
Correct Answer: D
Rationale: The correct answer is D: anatomic dead space. Anatomic dead space refers to the air in the conducting passages (such as trachea, bronchi) that does not reach the alveoli for gas exchange. This space only serves as a pathway for air to move in and out of the lungs. Vital capacity (A) is the maximum amount of air that can be exhaled after a maximum inhalation. Minimal volume (B) is not a recognized term in respiratory physiology. Residual volume (C) is the amount of air left in the lungs after a maximal exhalation and is not specifically related to the air in conducting passages.
Which of these statements is false regarding Pulmonary Resistance?
- A. Increase in pulmonary arterial pressure generally cause a fall in pulmonary resistance
- B. Pulmonary resistance is only 1/10 of systemic circulation resistance
- C. Increase of lung volume results in increase of resistance in extra alveolar vessels
- D. Acetylcholine has a good bronchiole smooth muscle relaxation effect
Correct Answer: C
Rationale: Rationale for Correct Answer (C):
- Increase of lung volume results in decrease, not increase, in resistance in extra alveolar vessels due to increased recruitment of capillaries.
- This is known as distension recruitment, which helps reduce resistance in extra alveolar vessels.
- Increased lung volume also helps to distribute blood flow more evenly in the lungs, reducing resistance.
- Therefore, statement C is false.
Summary of Incorrect Choices:
A: True - increase in pulmonary arterial pressure generally causes a fall in pulmonary resistance due to vessel dilation.
B: True - pulmonary resistance is indeed lower than systemic circulation resistance due to shorter pulmonary vascular bed.
D: True - acetylcholine causes bronchiole smooth muscle contraction, not relaxation.
Which intervention for airway management should you delegate to the nursing assistant?
- A. Assist client to sit up on side of bed.
- B. Instruct client to cough effectively.
- C. Teach client to use incentive spirometry.
- D. Auscultate breath sounds every 4 hours.
Correct Answer: A
Rationale: The correct answer is A. Assisting the client to sit up is a basic intervention suitable for a nursing assistant. Instructing effective coughing (B) and teaching incentive spirometry (C) require more skill. Auscultating breath sounds (D) is outside the scope of practice for a nursing assistant.
A nurse educator is reviewing the implications of the oxyhemoglobin dissociation curve with regard to the case of a current patient. The patient currently has normal hemoglobin levels, but significantly decreased SaO2 and PaO2 levels. What is an implication of this physiological state?
- A. The patient's tissue demands may be met, but she will be unable to respond to physiological stressors.
- B. The patient's short-term oxygen needs will be met, but she will be unable to expel sufficient CO2.
- C. The patient will experience tissue hypoxia with no sensation of shortness of breath or labored breathing.
- D. The patient will experience respiratory alkalosis with no ability to compensate.
Correct Answer: A
Rationale: The correct answer is A because even though the patient has normal hemoglobin levels, the significantly decreased SaO2 and PaO2 levels indicate that the hemoglobin is not effectively carrying oxygen to the tissues. This leads to a situation where the tissue demands for oxygen may be met at baseline, but the patient will be unable to respond to physiological stressors that require increased oxygen delivery.
Choice B is incorrect because it focuses on short-term oxygen needs and CO2 expulsion, which are not directly related to the implications of the oxyhemoglobin dissociation curve in this case.
Choice C is incorrect because decreased SaO2 and PaO2 levels would lead to tissue hypoxia, which would likely result in sensations of shortness of breath or labored breathing as the body tries to compensate for the lack of oxygen.
Choice D is incorrect because decreased PaO2 levels would not lead to respiratory alkalosis. The body would likely try to compensate by increasing respiratory rate to improve oxygenation.
While assessing an older adult patient, what finding indicates left-sided heart failure?
- A. Weight gain
- B. Ascites
- C. Crackles
- D. Jugular vein distention
Correct Answer: C
Rationale: The correct answer is C: Crackles. Crackles indicate left-sided heart failure due to fluid accumulation in the lungs. This occurs when the left side of the heart is unable to efficiently pump blood, leading to fluid backing up into the lungs. Weight gain (A) may be a general sign of heart failure but is not specific to left-sided failure. Ascites (B) is more indicative of right-sided heart failure, where fluid accumulates in the abdomen. Jugular vein distention (D) is a sign of right-sided heart failure, where blood backs up into the systemic circulation causing jugular vein distention.