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What test uses sound waves to create images of the heart and assess its structure and function?
- A. Echocardiogram
- B. MRI
- C. CT scan
- D. X-ray
Correct Answer: A
Rationale: The correct answer is A: Echocardiogram. An echocardiogram uses sound waves to create images of the heart, providing detailed information about its structure and function. It is a non-invasive and safe test commonly used to diagnose various heart conditions. MRI (B) uses magnetic fields and radio waves, CT scan (C) uses X-rays, and X-ray (D) uses electromagnetic radiation, but none of these tests specifically utilize sound waves for imaging the heart.
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Which nursing diagnosis is most appropriate for a patient with chronic venous insufficiency?
- A. Activity Intolerance.
- B. Body Image, disturbed.
- C. Fluid Volume, deficient.
- D. Skin Integrity, impaired.
Correct Answer: D
Rationale: Chronic venous insufficiency increases the risk of skin breakdown, making impaired skin integrity the most relevant diagnosis.
Identify the three layers of the heart:
- A. Endocardium, Myocardium, Epicardium
- B. Epicardium, Pericardium, Endocardium
- C. Myocardium, Endocardium, Pericardium
- D. Pericardium, Myocardium, Endocardium
Correct Answer: A
Rationale: Rationale:
1. Endocardium: Innermost layer lining the heart chambers.
2. Myocardium: Middle layer composed of cardiac muscle tissue.
3. Epicardium: Outermost layer forming the visceral pericardium.
Therefore, the correct answer is A.
Summary:
B is incorrect as it includes Pericardium instead of Myocardium.
C is incorrect as it switches the positions of Myocardium and Epicardium.
D is incorrect as it has the layers listed in the wrong order and includes Pericardium as the innermost layer.
The client is receiving digoxin and complains of nausea. What is the nurse's priority action?
- A. Check the client's digoxin level.
- B. Continue the current dose of digoxin.
- C. Administer an antiemetic for nausea.
- D. Discontinue the digoxin immediately.
Correct Answer: A
Rationale: The correct answer is A: Check the client's digoxin level. The priority action is to assess the digoxin level to determine if it is within the therapeutic range, as nausea can be a sign of digoxin toxicity. Checking the level will guide further actions. Continuing the dose without assessment (B) may worsen toxicity. Administering an antiemetic (C) only addresses the symptom, not the underlying cause. Discontinuing digoxin immediately (D) without assessing the level can be harmful if the client actually needs the medication.
What is the ability of cardiac cells to respond to an impulse by transmitting the impulse along cell membranes?
- A. Contractility
- B. Automaticity
- C. Conductivity
- D. Rhythmicity
Correct Answer: C
Rationale: The correct answer is C: Conductivity. Cardiac cells have the ability to transmit impulses along cell membranes, allowing for the coordinated contraction of the heart. Conductivity refers to this specific property of cardiac cells to propagate electrical signals.
Contractility (A) refers to the ability of cardiac muscle cells to generate force during contraction. Automaticity (B) refers to the ability of cardiac cells to spontaneously generate electrical impulses. Rhythmicity (D) refers to the regularity of these electrical impulses in the heart. Conductivity is the most relevant choice as it directly addresses the transmission of impulses along cell membranes in cardiac cells.
What is the condition where the lung collapses due to air leaking into the space between the lung and chest wall?
- A. Pneumothorax
- B. Pleural effusion
- C. Pulmonary fibrosis
- D. Lung cancer
Correct Answer: A
Rationale: The correct answer is A: Pneumothorax. This condition occurs when air enters the pleural space, causing the lung to collapse. The air disrupts the pressure balance, leading to lung collapse. Pleural effusion (B) is the accumulation of fluid in the pleural space, not air. Pulmonary fibrosis (C) is scarring of lung tissue, unrelated to air leakage. Lung cancer (D) is the abnormal growth of cells in the lung, not directly causing air leakage.