HESI A2 Acid-Base Balance, pH & Buffer Systems – 200 Practice Questions with Rationales

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HESI A2 Acid-Base Balance, pH & Buffer
Systems – 200 Practice Questions with
Rationales




Table of Contents
Subtopic 1: Fundamentals of Acid-Base Balance and pH Physiology...............2
Subtopic 2: Respiratory Regulation of Acid-Base Balance..............................10
Subtopic 3: Renal Regulation and Compensation in Acid-Base Imbalance.....18
Subtopic 4: Metabolic Acidosis – Causes, Effects, and Management.............26
Subtopic 5: Metabolic Alkalosis – Causes, Effects, and Management............35
Subtopic 6: Acid-Base Interpretation of ABGs (Arterial Blood Gases)............43
Subtopic 7: Acid-Base Disorders in Clinical Scenarios (Case-Based Questions)
.......................................................................................................................51
Subtopic 8: Buffer Systems in the Human Body (Physiology and Application)
.......................................................................................................................60
Subtopic 9: Respiratory and Renal Compensation Mechanisms.....................68
Subtopic 10: Clinical Management and Nursing Interventions for Acid-Base
Imbalances.....................................................................................................77

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Subtopic 1: Fundamentals of Acid-Base
Balance and pH Physiology
Question 1:

Which of the following best describes the pH of arterial blood in a healthy
adult?

A. 6.8–7.0

B. 7.0–7.25

C. 7.35–7.45

D. 7.50–7.65



Rationale:

Normal arterial blood pH is tightly regulated between 7.35 and 7.45. A value
below 7.35 indicates acidosis, while above 7.45 indicates alkalosis.



Question 2:

What organ system is primarily responsible for regulating pH through
excretion of hydrogen ions and bicarbonate reabsorption?

A. Cardiovascular system

B. Endocrine system

C. Renal system

D. Integumentary system



Rationale:

The kidneys help maintain acid-base balance by excreting hydrogen ions and
reabsorbing bicarbonate, acting slower but more sustained than respiratory
compensation.

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Question 3:

Which buffer system is the most important extracellular buffer in the body?

A. Hemoglobin buffer system

B. Bicarbonate buffer system

C. Phosphate buffer system

D. Protein buffer system



Rationale:

The bicarbonate buffer system is the primary extracellular buffer that
maintains physiological pH by neutralizing excess acids or bases.



Question 4:

A pH of 7.10 in arterial blood indicates:

A. Alkalosis

B. Acidosis

C. Homeostasis

D. Neutrality



Rationale:

A pH of 7.10 is below the normal range, indicating acidosis. Homeostasis
requires a pH between 7.35 and 7.45.



Question 5:

Which of the following components makes up the bicarbonate buffer system?

A. HCl and Cl⁻

B. NaOH and H₂O

C. H₂CO₃ and HCO₃⁻

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D. HPO₄²⁻ and H₂PO₄⁻



Rationale:

The bicarbonate buffer system is composed of carbonic acid (H₂CO₃) and
bicarbonate ion (HCO₃⁻). It balances pH by neutralizing H⁺ or OH⁻ ions.



Question 6:

When hydrogen ion concentration increases, what happens to pH?

A. Increases

B. Decreases

C. Stays the same

D. Becomes alkaline



Rationale:

As hydrogen ion (H⁺) concentration increases, pH decreases, making the
environment more acidic.



Question 7:

Which process results in the formation of carbonic acid in the blood?

A. Excretion by kidneys

B. Digestion in the stomach

C. Reaction of CO₂ with H₂O

D. Protein catabolism



Rationale:

CO₂ combines with water in the blood to form carbonic acid (H₂CO₃), which
plays a key role in acid-base regulation.