How is advanced life support modified for a patient with hyperkalemia?

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Multiple Choice

How is advanced life support modified for a patient with hyperkalemia?

Explanation:
In the context of treating a patient with hyperkalemia, the correct approach involves administering calcium chloride intravenously. Hyperkalemia can result in dangerous cardiac effects, such as reduced cardiac contractility, prolonged QT interval, and ultimately, the risk of cardiac arrest. Calcium plays a crucial role in stabilizing the myocardial cell membrane, thereby helping to counteract the effects of elevated potassium levels on heart function. Calcium chloride acts quickly to protect the heart muscle and can prevent arrhythmias, especially in situations where hyperkalemia is contributing to life-threatening cardiac rhythms. This rapid administration is essential for immediate management and helps to buy time for other treatments aimed at lowering potassium levels, such as insulin or diuretics. Other options, while they may be relevant in different clinical scenarios, do not address the acute management of hyperkalemia in the same way. For instance, atropine is used primarily to increase heart rate in bradycardia and does not address hyperkalemia directly. Adenosine is effective for certain types of supraventricular tachycardia but is not appropriate for hyperkalemia-related dysrhythmias. Immediate defibrillation is reserved for shockable rhythms, which may not be directly related to the hyperkalemia

In the context of treating a patient with hyperkalemia, the correct approach involves administering calcium chloride intravenously. Hyperkalemia can result in dangerous cardiac effects, such as reduced cardiac contractility, prolonged QT interval, and ultimately, the risk of cardiac arrest. Calcium plays a crucial role in stabilizing the myocardial cell membrane, thereby helping to counteract the effects of elevated potassium levels on heart function.

Calcium chloride acts quickly to protect the heart muscle and can prevent arrhythmias, especially in situations where hyperkalemia is contributing to life-threatening cardiac rhythms. This rapid administration is essential for immediate management and helps to buy time for other treatments aimed at lowering potassium levels, such as insulin or diuretics.

Other options, while they may be relevant in different clinical scenarios, do not address the acute management of hyperkalemia in the same way. For instance, atropine is used primarily to increase heart rate in bradycardia and does not address hyperkalemia directly. Adenosine is effective for certain types of supraventricular tachycardia but is not appropriate for hyperkalemia-related dysrhythmias. Immediate defibrillation is reserved for shockable rhythms, which may not be directly related to the hyperkalemia

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