If bicarbonate increases with no change in PCO2, the patient is most likely experiencing which acid-base state?

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Study for the Ciulla Clinical Chemistry Test. Enhance your knowledge with flashcards and multiple-choice questions. Prepare for the exam with comprehensive study materials and detailed explanations for each question.

Multiple Choice

If bicarbonate increases with no change in PCO2, the patient is most likely experiencing which acid-base state?

The main idea is that acid-base status is determined by the relationship between bicarbonate and carbon dioxide. Bicarbonate acts as a base, while CO2 (reflected by PCO2) acts as an acid. When bicarbonate rises and the PCO2 stays the same, the balance shifts toward base, increasing pH and causing alkalemia. This pattern points to a metabolic disturbance producing more base—metabolic alkalosis.

In respiratory disorders, the issue is the CO2 level itself: respiratory acidosis has high CO2, respiratory alkalosis has low CO2, typically with compensatory changes in bicarbonate. Here, the CO2 is unchanged, so a respiratory disorder is unlikely, while the elevated bicarbonate clearly indicates a metabolic alkalosis.

If bicarbonate increases with no change in PCO2, the patient is most likely experiencing which acid-base state?

Study for the Ciulla Clinical Chemistry Test. Enhance your knowledge with flashcards and multiple-choice questions. Prepare for the exam with comprehensive study materials and detailed explanations for each question.

If bicarbonate increases with no change in PCO2, the patient is most likely experiencing which acid-base state?

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