Certified Pulmonary Function Technologist (CPFT) Practice Exam

What chemical compound is responsible for absorbing CO2 in a pulmonary function testing machine?

• A. Calcium carbonate
• B. Sodium hydroxide
• C. Magnesium sulfate
• D. Chalk powder

The correct answer is: Sodium hydroxide

Sodium hydroxide is the chemical compound primarily used in pulmonary function testing machines to absorb carbon dioxide (CO2). Its high reactivity with CO2 allows it to effectively eliminate CO2 from the gas mixture within the testing environment, ensuring that the measurements of lung function are accurate and reflecting solely the oxygen and other gases present without interference from CO2. In the context of pulmonary function testing, it’s essential to maintain a controlled environment where the concentration of CO2 is minimized, allowing for reliable assessment of respiratory gas exchange and lung capacities. By using sodium hydroxide, the testing apparatus can maintain accuracy in readings of respiratory parameters as it provides precise control over the gas composition. Other options like calcium carbonate and magnesium sulfate are not typically utilized for CO2 absorption in this setting. Calcium carbonate can react with acids but is not efficient for the purpose of CO2 absorption in the context of pulmonary testing. Chalk powder, often composed of calcium carbonate, also does not serve the same purpose effectively. Therefore, sodium hydroxide stands out as the most effective and commonly used compound for this application in pulmonary function testing.