Nokea
What should the nurse do before an echocardiogram for a client who has had a myocardial infarction?
- A. Ensuring no food or drink for 4 hours before the procedure
- B. Obtaining informed consent from the client
- C. Assessing for any history of iodine or shellfish allergies
- D. Informing the client about the painless nature and duration of the procedure
Correct Answer: D
Rationale: The correct answer is to inform the client that the echocardiogram is a painless procedure that usually takes 30 to 60 minutes to complete. Echocardiography is a noninvasive, risk-free, and pain-free test that uses ultrasound to evaluate the heart's structure and motion. There is no need for special preparation before the procedure. Choices A, B, and C are incorrect because imposing nothing-by-mouth status, obtaining informed consent, and assessing for allergies to iodine or shellfish are not necessary steps before an echocardiogram.
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An emergency department nurse assesses a client with kidney trauma and notes that the client's abdomen is tender and distended, and blood is visible at the urinary meatus. Which prescription should the nurse consult the provider about before implementation?
- A. Assessing vital signs every 15 minutes
- B. Inserting an indwelling urinary catheter
- C. Administering intravenous fluids at 125 mL/hr
- D. Typing and crossmatching for blood products
Correct Answer: B
Rationale: In a client with kidney trauma and blood visible at the urinary meatus, inserting a urinary catheter via the urethra should be avoided until further diagnostic studies are completed to prevent potential urethral tears. The nurse should consult the provider about the need for a catheter; if necessary, a suprapubic catheter can be used instead. Assessing vital signs every 15 minutes is important for continuous monitoring of the client's condition. Administering intravenous fluids at 125 mL/hr is crucial to maintain hydration and support kidney function. Typing and crossmatching for blood products is necessary in case the client requires blood transfusion due to potential blood loss from the trauma.
The patient has a heart rate of 98 beats per minute and a blood pressure of 82/58 mm Hg, is lethargic, complaining of muscle weakness, and has had gastroenteritis for several days. Based on these findings, which sodium value would the nurse expect?
- A. 126 mEq/L
- B. 140 mEq/L
- C. 145 mEq/L
- D. 158 mEq/L
Correct Answer: A
Rationale: The patient's presentation of tachycardia, hypotension, lethargy, muscle weakness, and gastroenteritis suggests hyponatremia. Hyponatremia is characterized by a serum sodium level below the normal range of 135-145 mEq/L. A serum sodium level of 126 mEq/L falls significantly below this range, indicating hyponatremia. Choice B (140 mEq/L) and Choice C (145 mEq/L) are within the normal range for serum sodium levels and would not explain the patient's symptoms. Choice D (158 mEq/L) is above the normal range and would indicate hypernatremia, which is not consistent with the patient's presentation.
A child who weighs 10 kg will begin taking oral trimethoprim-sulfamethoxazole (TMP-SMX). The liquid preparation contains 40 mg of TMP and 200 mg of SMX per 5 mL. The nurse determines that the child's dose should be 8 mg of TMP and 40 mg of SMX/kg/day divided into two doses. Which order for this child is correct?
- A. 5 mL PO BID
- B. 5 mL PO daily
- C. 10 mL PO BID
- D. 10 mL PO daily
Correct Answer: A
Rationale: The correct answer is A: '5 mL PO BID.' To calculate the child's daily dose requirement, you multiply the child's weight (10 kg) by the prescribed dosage per kg, which is 8 mg for TMP and 40 mg for SMX. This results in a total daily requirement of 80 mg of TMP and 400 mg of SMX. To divide this into two doses, each dose should contain half of the total daily requirement, which is 40 mg TMP and 200 mg SMX. Since the liquid preparation contains 40 mg of TMP and 200 mg of SMX per 5 mL, the correct dose per administration is 5 mL. Therefore, 5 mL PO BID is the correct order. Choice B, '5 mL PO daily,' is incorrect as the total daily dose needs to be divided into two doses. Choices C and D, '10 mL PO BID' and '10 mL PO daily,' respectively, are incorrect as they do not align with the calculated dosage requirements based on the child's weight and the prescribed dosage per kg.
A client expresses difficulty voiding in public places. How should the nurse respond?
- A. Offer to turn on the faucet in the bathroom to help stimulate urination.
- B. Suggest a prescription for a diuretic to increase urine output.
- C. Propose moving to a room with a private bathroom to enhance comfort.
- D. Close the curtain to provide maximum privacy.
Correct Answer: D
Rationale: The nurse should prioritize the client's privacy when addressing issues related to voiding discomfort in public places. Closing the curtain in the current room would offer immediate privacy and support the client's needs. Turning on the faucet is not an evidence-based intervention for voiding difficulties. Prescribing a diuretic is not appropriate without further assessment. While moving to a room with a private bathroom might be ideal, it may not be immediately feasible, making ensuring privacy in the current setting the most appropriate action.
The nurse is teaching the main principles of hemodialysis to a client with chronic kidney disease. Which statement by the client indicates a need for further teaching by the nurse?
- A. My sodium level changes due to the movement from the blood into the dialysate.
- B. Dialysis works by the movement of wastes from higher to lower concentration.
- C. Extra fluid can be pulled from the blood by osmosis.
- D. The dialysate is similar to blood but without any toxins.
Correct Answer: B
Rationale: The correct answer is B because dialysis works by the movement of solutes from an area of higher concentration to an area of lower concentration, which is known as diffusion. The other statements are accurate: A correctly describes the movement of sodium during hemodialysis, C explains the removal of excess fluid by osmosis, and D highlights the purpose of the dialysate in removing toxins from the blood.