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ChartABG & Acid-Base

ABG Disorder Comparison Chart

Every primary acid-base disorder in one grid. Find the pH direction first, confirm it against the respiratory (PaCO₂) and metabolic (HCO₃⁻) columns, and use the causes and hallmark signs to connect the numbers to the patient in front of you.

Written by Apex Respiratory Editorial Team

Educational use only. This material supports respiratory therapy education and exam review. It is not medical advice and is not a substitute for clinical judgment, institutional protocols, or physician orders. Always follow facility policies and current provider orders, and verify calculations independently before clinical use.

The Eight Core Disorders

Comparison of acid-base disorders by pH, PaCO₂, HCO₃⁻ direction, common causes, and hallmark signs
DisorderpHPaCO₂HCO₃⁻Common CausesHallmark Signs
Respiratory acidosis (acute)NormalHypoventilation — COPD, sedation, neuromuscular weaknessSomnolence, headache, flushed skin
Respiratory acidosis (chronic / compensated)Low-normalChronic CO₂ retentionBaseline-shifted COPD; few acute symptoms
Respiratory alkalosis (acute)NormalHypoxemia, anxiety, pain, sepsis, PETingling, lightheadedness, tachypnea
Respiratory alkalosis (chronic)High-normalProlonged hyperventilation, high altitudeOften asymptomatic; renal compensation
Metabolic acidosis↓ (compensating)DKA, lactic acidosis, renal failure, diarrheaKussmaul respirations
Metabolic alkalosis↑ (compensating)Vomiting, NG suction, diureticsSlow, shallow breathing; weakness
Mixed acidosis↓↓Cardiac arrest, severe combined failureCritical illness
Mixed alkalosis↑↑Hyperventilation plus vomiting / diuresisMarked alkalemia; arrhythmia and tetany risk

Normal Reference Ranges

Normal arterial blood gas reference ranges
ValueNormal Range
pH7.35 – 7.45
PaCO₂35 – 45 mmHg
HCO₃⁻22 – 26 mEq/L

How to Use This Chart

Read the chart the way you read a gas: start in the pH column to find the direction of the disturbance, then scan PaCO₂ and HCO₃⁻ to see which system explains it. When the respiratory and metabolic columns push the pH the same way, you are looking at a mixed disorder — not compensation.

  • The acute and chronic respiratory rows differ only in the HCO₃⁻ column — renal compensation takes 48–72 hours to shift bicarbonate, so a raised HCO₃⁻ implies a chronic process.
  • Compensation never fully normalizes the pH and never pushes it past 7.40. A pH on the “wrong” side of 7.40 still points to the primary disorder.
  • Match every value to the patient and the FiO₂ before acting. A chronic CO₂ retainer lives at numbers that would alarm you in an acute patient.

Related Resources

Sources

  1. Kacmarek RM, Stoller JK, Heuer AJ. Egan's Fundamentals of Respiratory Care. 12th ed. Elsevier; 2021. Acid-base balance chapters.
  2. Malley WJ. Clinical Blood Gases: Assessment and Intervention. 2nd ed. Elsevier Saunders; 2005.