Nokea
Which of the following is NOT found in lung tissue?
- A. blood capillaries
- B. alveolar sacs
- C. interstitial fluid
- D. muscle
Correct Answer: D
Rationale: The correct answer is D: muscle. Lung tissue does not contain muscle tissue; instead, it is primarily composed of alveolar sacs for gas exchange, blood capillaries for oxygen exchange, and interstitial fluid for support. Muscles are not part of the structure of the lungs as they are not involved in the respiratory process. In summary, muscles are not found in lung tissue, making option D the correct choice.
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Inflammation of the lung covering causing severe chest pain is
- A. Emphysema
- B. Pleurisy
- C. Asphyxia
- D. Hypoxia
Correct Answer: B
Rationale: The correct answer is B: Pleurisy. Pleurisy is the inflammation of the lung covering (pleura), leading to severe chest pain. Emphysema (A) is a chronic lung disease characterized by damaged air sacs. Asphyxia (C) is a condition of inadequate oxygen supply. Hypoxia (D) is a state of low oxygen levels in tissues. Pleurisy is the best fit as it directly relates to inflammation of the lung covering and severe chest pain.
Which assessment findings aren't consistent with a client diagnosis of right-sided heart failure?
- A. Collapsed neck veins
- B. Distended abdomen
- C. Dependent edema
- D. Decreased appetite
Correct Answer: A
Rationale: The correct answer is A because collapsed neck veins are not consistent with right-sided heart failure. In right-sided heart failure, venous congestion leads to jugular venous distention, not collapse. Distended abdomen (choice B) occurs due to fluid accumulation in the abdomen, a common finding in right-sided heart failure. Dependent edema (choice C) results from fluid retention in the lower extremities, also seen in right-sided heart failure. Decreased appetite (choice D) can be present due to abdominal discomfort from fluid accumulation. Therefore, the presence of collapsed neck veins is the only assessment finding that is not indicative of right-sided heart failure.
The nurse assesses wheezes in a patient with asthma and realizes that these breath sounds result from:
- A. Increased thickness of respiratory secretions.
- B. Use of accessory muscles of respiration.
- C. Tachypnea and tachycardia.
- D. Movement of air through narrowed airways.
Correct Answer: D
Rationale: The correct answer is D because wheezes in asthma are caused by the movement of air through narrowed airways due to bronchoconstriction and inflammation. This narrowing leads to turbulent airflow, resulting in the characteristic high-pitched musical sound of wheezes. Increased thickness of respiratory secretions (A) may cause crackles, not wheezes. Use of accessory muscles (B) indicates respiratory distress but does not directly cause wheezes. Tachypnea and tachycardia (C) are common in asthma but do not directly cause wheezes. Thus, D is the most directly related to the pathophysiology of wheezes in asthma.
Which of the following lymphocytes are involved in innate immunity?
- A. natural killer (NK) cells
- B. plasma cells
- C. CD8 T cells
- D. B memory cells
Correct Answer: A
Rationale: Natural killer (NK) cells are involved in innate immunity as they are able to directly kill virus-infected cells and tumor cells without prior sensitization. They are part of the body's first line of defense against infections. Plasma cells, CD8 T cells, and B memory cells are all part of adaptive immunity, which involves a specific response to pathogens and requires prior exposure. Therefore, they are not involved in innate immunity.
Double Bohr effect (Oxygen curves for maternal and foetal Hb move apart in opposite directions) occurs in
- A. Foetal circulation
- B. Maternal circulation
- C. In the Placenta operating in both maternal and foetal circulations
- D. In the uterine wall
Correct Answer: C
Rationale: Rationale:
1. In the placenta, maternal and fetal blood circulations are in close proximity.
2. Maternal Hb releases oxygen to fetal Hb due to the lower affinity of fetal Hb for oxygen.
3. This double Bohr effect causes the oxygen dissociation curves of maternal and fetal Hb to move apart.
4. This occurs specifically in the placenta where both maternal and fetal circulations operate.
Summary:
A. Incorrect. Double Bohr effect doesn't occur solely in fetal circulation.
B. Incorrect. Double Bohr effect doesn't occur solely in maternal circulation.
C. Correct. Placenta facilitates the exchange between maternal and fetal blood causing the double Bohr effect.
D. Incorrect. Double Bohr effect is not related to the uterine wall.