ABG Interpretation

What You’ll Learn in This Book

1. 📖 Introduction

🔍 A quick yet essential overview of acid-base balance, emphasizing its clinical relevance in diagnosing and managing a wide range of conditions.

2. ⚖️ Normal Acid-Base Regulation

🫁 How the body maintains pH through buffering systems, respiratory control of CO₂, and renal handling of bicarbonate.

3. 🧪 Simple Acid-Base Disorders

📊 Learn to identify and differentiate the four primary disorders: metabolic and respiratory acidosis and alkalosis, using a clear diagnostic approach.

4. 🔄 Compensation & Mixed Disorders

🧐 Understand how the body compensates for each acid-base disturbance, and how to spot mixed disorders when compensation doesn’t match the expected pattern.

5. 🧮 The Anion Gap

💡 A core tool for evaluating metabolic acidosis—how to calculate it, interpret it, and use it to uncover hidden causes of acidosis.

6. ➗ The Delta Ratio

📏 Refines the interpretation of elevated anion gap acidosis by helping detect concurrent metabolic alkalosis or normal anion gap acidosis.

7. ⚖️ Mixed Acid-Base Disorders with Normal pH

🔬 Reveals how opposing acid-base disturbances can result in a normal pH, and why it’s crucial to evaluate beyond the pH alone.

8. 🔥 Elevated Anion Gap Metabolic Acidosis

🔍 A practical approach to the differential diagnosis—covering key causes like ketoacidosis, lactic acidosis, uremia, and toxins—with a clinical algorithm to guide reasoning.

9. 💧 Normal Anion Gap Metabolic Acidosis

🧭 Differential diagnosis of hyperchloremic acidosis due to GI bicarbonate loss (e.g., diarrhea) or renal causes (e.g., renal tubular acidosis), with an algorithmic strategy.

10. 🌊 Metabolic Alkalosis

🔄 Breaks down causes by assessing volume status and urine chloride levels, and builds a step-by-step method to interpret labs and guide treatment.

11. 😮‍💨 Respiratory Acidosis

🫁 Reviews acute and chronic hypoventilation causes (e.g., COPD, CNS depression).

12. 😤 Respiratory Alkalosis

⚡ Covers clinical situations leading to hyperventilation (e.g., Hypoxemia), and how to use ABGs to confirm diagnosis.

13. 📊 A Comprehensive Overview of Acid-Base Analysis

📝 A full, step-by-step framework for interpreting ABG results in real-life practice—starting with pH, then PaCO₂, HCO₃⁻, and compensation.

14. 💡 Pearls & Pitfalls of Acid-Base Analysis

🚧 Practical tips and cautionary points to avoid common ABG interpretation errors.

15. 🌬️ Oxygenation & A-a Gradient

🫀 How to assess oxygenation status, calculate the alveolar-arterial gradient, and use it to detect shunt physiology , ventilation-perfusion mismatch, and impaired diffusion.

16. 💨 The Effect of Supplemental Oxygen

🎈 Understand how oxygen therapy alters ABG readings and oxygen gradients, and how to interpret results in the context of ongoing oxygen administration.

17. 🫁 Hypoxia & Hypoxemia: Mechanisms and Etiologies

🧠 Categorizes the five major causes of hypoxemia (e.g., low FiO₂, diffusion defects, V/Q mismatch) and explains how to differentiate them with ABG and clinical clues.

18. 🩸 Dyshemoglobinemia

🩸 Describes how abnormal hemoglobin forms (like carboxyhemoglobin and methemoglobin) impair oxygen delivery, often with normal PaO₂, and how to detect them.

19. 📚 Using the ABG to Create a Unified Model of Human Pathophysiology

🧠 Connects ABG interpretation to broader clinical insights, helping you see acid-base status as a window into the underlying pathophysiology of disease.