Ph, Buffers & Henderson–Hasselbalch MCQ Quiz | Acid–Base & Renal

Welcome to this specialized quiz on pH, Buffers, and the Henderson-Hasselbalch equation, a cornerstone of acid-base physiology for MBBS students. This quiz is designed to test your understanding of the fundamental mechanisms that maintain pH homeostasis in the human body. You will encounter 25 multiple-choice questions covering the major physiological buffer systems, the clinical application of the Henderson-Hasselbalch equation, and the integrated roles of the renal and respiratory systems in regulating acid-base balance. Challenge your knowledge and solidify your concepts. After submitting your answers, you will receive your score and see a detailed breakdown of correct and incorrect responses. You can also download all questions with their correct answers in a PDF format for future revision. Good luck!

1. The Henderson-Hasselbalch equation is crucial for understanding acid-base balance. Which of the following correctly represents it for the bicarbonate buffer system?

2. What is the most important extracellular fluid (ECF) buffer system in the human body?

3. A buffer is most effective when the pH is equal to its pKa. The pKa for the bicarbonate buffer system is 6.1. Why is it so effective at a physiological pH of 7.4?

4. In a patient with metabolic acidosis, what is the expected compensatory response?

5. The phosphate buffer system (H2PO4-/HPO42-) is a major buffer in which of the following compartments?

6. The buffering capacity of hemoglobin is primarily due to which amino acid residue?

7. According to the Henderson-Hasselbalch equation, if the ratio of [HCO3-] to dissolved CO2 ([H2CO3]) in blood increases, what is the effect on blood pH?

8. The enzyme carbonic anhydrase plays a vital role in acid-base balance by catalyzing which reaction?

9. In a state of respiratory acidosis, which of the following is the primary disturbance?

10. The isohydric principle states that:

11. The kidneys regulate acid-base balance long-term. Which of the following is NOT a primary renal mechanism for this regulation?

12. What is the normal ratio of [HCO3-] to dissolved CO2 ([H2CO3]) required to maintain a blood pH of 7.4?

13. The term “pKa” represents:

14. Most of the H+ ions generated from CO2 in tissues are buffered within red blood cells by:

15. The “chloride shift” (Hamburger phenomenon) facilitates the transport of:

16. An ABG report shows pH = 7.25, pCO2 = 55 mmHg, HCO3- = 26 mEq/L. This indicates:

17. Adding a strong acid like HCl to a solution buffered by the bicarbonate system will result in:

18. A patient with uncontrolled diabetes mellitus is likely to have which acid-base disorder?

19. The isoelectric point (pI) of an amino acid is the pH at which:

20. In the renal tubules, the generation of “new” bicarbonate is most closely associated with the excretion of which substance?

21. Deoxyhemoglobin is a better proton acceptor (weaker acid) than oxyhemoglobin. This property is known as the:

22. If a patient’s blood pH is 7.5, pCO2 is 40 mmHg, and [HCO3-] is 32 mEq/L, what is the primary acid-base disturbance?

23. The normal pH range of arterial blood is tightly regulated between:

24. What is the main form in which CO2 is transported in the blood?

25. A patient with severe diarrhea loses a large amount of bicarbonate-rich fluid. This is likely to cause:

Author

  • G S Sachin Author Pharmacy Freak
    : Author

    G S Sachin is a Registered Pharmacist under the Pharmacy Act, 1948, and the founder of PharmacyFreak.com. He holds a Bachelor of Pharmacy degree from Rungta College of Pharmaceutical Science and Research and creates clear, accurate educational content on pharmacology, drug mechanisms of action, pharmacist learning, and GPAT exam preparation.

    Mail- Sachin@pharmacyfreak.com

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