ATI PN Adult Medical Surgical 2020 with NGN
ATI PN Adult Medical Surgical 2020 with NGN ( 79 Questions)
Metabolic alkalosis is a condition in which the pH is high and the HCO3 is high. This can be caused by excessive vomiting, diuretic use, or ingestion of antacids. The client's ABG results do not indicate metabolic alkalosis.
Respiratory alkalosis is a condition in which the pH is high and the PaCO2 is low. This can be caused by hyperventilation, anxiety, or fever. The client's ABG results do not indicate respiratory alkalosis.
Metabolic acidosis is a condition in which the pH is low and the HCO3 is low. This can be caused by diabetic ketoacidosis, renal failure, or diarrhea. The client's ABG results do not indicate metabolic acidosis.
Respiratory acidosis is a condition in which the pH is low and the PaCO2 is high. This can be caused by hypoventilation, airway obstruction, or lung disease. The client's ABG results indicate respiratory acidosis, which means that the client has impaired gas exchange and retention of carbon dioxide.
Choice A reason: Metabolic alkalosis is a condition in which the pH is high and the HCO3 is high. This can be caused by excessive vomiting, diuretic use, or ingestion of antacids. The client's ABG results do not indicate metabolic alkalosis.
Choice B reason: Respiratory alkalosis is a condition in which the pH is high and the PaCO2 is low. This can be caused by hyperventilation, anxiety, or fever. The client's ABG results do not indicate respiratory alkalosis.
Choice C reason: Metabolic acidosis is a condition in which the pH is low and the HCO3 is low. This can be caused by diabetic ketoacidosis, renal failure, or diarrhea. The client's ABG results do not indicate metabolic acidosis.
Choice D reason: Respiratory acidosis is a condition in which the pH is low and the PaCO2 is high. This can be caused by hypoventilation, airway obstruction, or lung disease. The client's ABG results indicate respiratory acidosis, which means that the client has impaired gas exchange and retention of carbon dioxide.