A 22-year-old patient with Hb 15 g/dL has pre-induction PaO2 120 mm Hg with SaO2 100%, and post-induction PaO2 150 mm Hg with the same saturation. How has the oxygen content changed?

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Multiple Choice

A 22-year-old patient with Hb 15 g/dL has pre-induction PaO2 120 mm Hg with SaO2 100%, and post-induction PaO2 150 mm Hg with the same saturation. How has the oxygen content changed?

Oxygen content in blood comes from two parts: the amount bound to hemoglobin and the small amount dissolved in plasma. The bound portion is calculated as Hb × 1.34 × SaO2, and the dissolved portion as PaO2 × 0.003. With Hb 15 g/dL and SaO2 at 100%, the bound O2 is 15 × 1.34 × 1.0 = 20.1 mL O2 per dL in both states. The dissolved portion changes with PaO2: 120 mm Hg gives 0.36 mL/dL, while 150 mm Hg gives 0.45 mL/dL. So pre-induction CaO2 ≈ 20.46 mL/dL, post-induction CaO2 ≈ 20.55 mL/dL. The increase is about 0.09 mL/dL, which is roughly 0.4–0.5% of the total CaO2—less than 1%. Therefore, oxygen content increases by less than 1%.

A 22-year-old patient with Hb 15 g/dL has pre-induction PaO2 120 mm Hg with SaO2 100%, and post-induction PaO2 150 mm Hg with the same saturation. How has the oxygen content changed?

Prepare for the Hall Anesthesia Test. Study with interactive questions and detailed explanations. Ace your exam with confidence!

A 22-year-old patient with Hb 15 g/dL has pre-induction PaO2 120 mm Hg with SaO2 100%, and post-induction PaO2 150 mm Hg with the same saturation. How has the oxygen content changed?

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