ABG INTERPRETATION

1. ABG INTERPRETATION By: Dr. Ashraf Al Tayar, MD,MRCP(I), Assistant Consultant Critical Care, KKNGH.

2. ABG Interpretation: Comprises 4 steps. • Determine the process • Determine the primary disorder • Sharpen the diagnosis • Determine compensation

3. I. Step 1: Use pH to determine Acidosis - < 7.35 Alkalosis - > 7.45

4. II. Determine metabolic vs. Respiratory Metabolic disorders: - pH changes in same direction as PCO2 and HCO3 - Metabolic acidosis pH PCO2 HCO3 - Metabolic alkalosis pH PCO2 HCO3

5. Respiratory disorders: - pH change in opposite direction of HCO3 and PCO2 - Respiratory acidosis pH PCO2 HCO3 - Respiratory alkalosis pH PCO2 HCO3

6. Sharpen the Diagnosis - Calculate the AG - Calculate Osm. Gap - Calculate Urinary AG

7. AG: Na – ( CL + HCO3) normal 10 (+/-) 2

8. AG: - Paraproteinaemia - Hyperchloraemia - Hypoalbumenaemia ( AG 2.5 / 1 gm /dL in albumin) - Hypermagnesaemia - Hyponatraemia

9. AG : Metabolic acidosis (DD) (MUDPILERS) Methanol Uremia DKA Paraldehyde Isopropyl alcohol – Isoniazide Lactic acid Ethylene glycol Rhabdomyolosis Salycylate

10. Normal AG Metabolic acidosis (Hyperchloremia) A. Hypokalemia - Diarrhea - Urethral diversion - RTA - Mineralocorticorticoid deficiency - CAI: Acetazolamide B. Hyperkalemia - Renal failure (Early) - Renal disease: SLE Amylodosis Sickle cell - Sulphur toxicity

11. Urine AG - < - 10 extra renal causes - > + 10 Renal causes

12. Osmolal Gap - measured serum osm. – calc. osm. normal (10 – 15) OG DD: ( MEDIE ) Methanol Ethylene glycol Diuretic : Mannitol Isoprophyl alcohol Ethanol

13. Determine Compensation Metabolic acidosis PCO2 = 40 + BE Metabolic alkalosis PCO2 = 40 + 0.6 X BE

14. Respiratory acidosis Acute :HCO3 = PCO2 – 40 / 10 + 24 Chronic : HCO3 = PCO2 – 40 / 3 + 24 Respiratory alkalosis: Acute : 40 – PCO2 / 5 + 24 Chronic: 40 – PCO2 / 2 + 24

15. Example 1: pH: 7.07 PCO2: 28 HCO3: 8 SBE: - 20

16. Example 2: pH : 7.33 PCO2 : 20 HCO3 : 12 BE : 12

17. Example 3 pH : 7.48 PCO2 : 28 HCO3: 22 BE : 2

18. Effects of Acid base change Acidosis alkalosis CVS Inotropy Inotropy Conduction- defect Altered coronary flow Arterial VD Digoxin toxicity Venous VD Oxygen Delivery O2 Hb binding Affinity 2, 3 DPG 2, 3 DPG Neuromuscular Resp. dep NM excitability Sensorium Encephalopathy Seizures Resp. dep Electrolytes Hyper K+ Hypo K+ Hyper Ca+ Hypo Ca+ Hyperuricaemia Hypophosphatemia

19. THANK YOU