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Arterial Blood Gases (ABG) interpretation, a simplified approach
1. ABG INTERPRETATION
A SIMPLIFIED PRACTICAL APPROACH
DR ADEL HAMADA
Assistant Consultant Pulmonary Medicine (KAMC)
Lecturer of Pulmonary Medicine (Zagazig University, EGYPT)
MD Chest Diseases
European Diploma in Intensive Care Medicine
2. Accurate and timely interpretation of an acid–base disorder
can be lifesaving.
Establishment of correct diagnosis of acid base
status (specially in mixed acid base disorders)
may be challenging.
In spite of that
3. By the end of this presentation we will:
Know the basic principles of ABG interpretation
Correlate the ABG data to the clinical context of the
patients.
Consider the concept of mixed acid base disorders and
how to detect.
Apply all these concepts to our clinical practice
4. What are the data the ABG Provide???
Oxygenation
Acid base Status
Ventilation
Hb, Glucose , Electrolytes
lactate
5. pH 7.38 – 7.42
Pa Co2
38 – 42 mmHg
HCo3
22 – 26 m mol/L
Normal ABG
Pa O2 >= 80 mmHg
Spo2 >=95%
P A-a o2 (on room air) (Age/4) + 4
Lactate < 1.6 m mol/L
N Engl J Med. 2014 Oct
9;371(15):1434-45
Dynamed :( accessed 11/2017)
VBG
pH 7.36 – 7.38
Pa Co2
43 – 48 mmHg
HCo3
25 – 26 m mol/L
6. Acidemia - arterial pH below the normal range (< 7.38)
Alkalemia - arterial pH above the normal range (> 7.42)
Acidosis - a process that lowers extracellular fluid pH.
Alkalosis - a process that raises extracellular fluid pH.
Definitions
11. H + = 24 (PaCo2)/HCO3
H + = 80 – (2 digits after Decimal point in ABG)
12. Clinical importance of Henderson Equation
Assure that the ABG is consistent and accurately recorded
pH 7.38
Pa Co2
41
HCo3
23
H+= 24(41)/23= 42
H+= 80-38 = 42
So ABG is consistent and
accurately recorded
pH 7.42
Pa Co2
39
HCo3
20
H+= 24(39)/20= 46.8
H+= 80-42 = 38
So ABG is inconsistent and
inaccurately recorded
Can be interpreted Cant be interpreted
15. History and Physical Examination
Check consistency of ABG
pH:
Pa Co2 and HCo3
Compensation
AG and Other GAPs
Primary
Disorder
Degree of Compensation.
Presence of Other Primary
(mixed) disorders
16. History and Physical
Examination
Underlying medical conditions.
Vitals.
Consciousness.
Signs of infection.
Respiratory status.
GIT symptoms ( Vomiting and Diarrhea).
Medications
Signs of Intoxication.
17.
18. Acid Base Disorder pH Pa Co2 HCo3
Respiratory Acidosis
Acute
Respiratory Acidosis
Chronic
Respiratory Alkalosis
Acute
Respiratory Alkalosis
Chronic
Metabolic Acidosis
Metabolic Alkalosis
21. +10 +1
-10 -2
+10 +3.5
-10 -5
Acute respiratory acidosis
Acute respiratory alkalosis
Chronic respiratory acidosis
Chronic respiratory alkalosis
Metabolic acidosis
Metabolic alkalosis
Delta HCo3
From 24
Delta PaCo2
From 40
-10 -10
+10 +15
Chest Seek TM 2014
It is a simple alphabetical
calculation
22. Anion Gap
Must be calculated even in apparently normal ABG.
Represent Unmeasured Anions
AG= Na –(Hco3+ Cl )= 8-12
23. In patients with low albumin (chronic illness, starvation, cancer,……)
anion gap should be corrected according to the Figge equation
AG= Na –(Hco3+ Cl )= 8-12
Anion Gap
Emerg Med Clin North Am 2014 May;32(2):403.
24. Delta Ratio
Delta Ratio =
Delta AG( increase above 12)
Delta Hco3 ( decrease below 24)
Emerg Med Clin North Am 2014 May;32(2):403.
25. Approach to metabolic acidosis
Common
causes AGMA ( KUSMALE)
Ethylene G
Ketones
Uremia
Salicylates
Alcohols
Lactate
Diabetic, Alcoholic, Starvation
Cause also respiratory alkalosis
Early: No AG and + Osm Gap.
Late: + AG and no Osm Gap
L lactate( Type A and Type B)
D lactate
With osmolar Gap
Due to acc. Of phosphate and Sulfates
26. Approach to metabolic acidosis
Common
causes Non-AGMA ( USED CARS)
Amino acids ( Arginine HCL , Lysine)
Uretrosigmoidostomy
Saline
Early renal failure
Diarrhea and pancreatic fistula
Carbonic anhydrase inhibitors
RTA
Supplements( TPN with excess Cl vs Acetate)
27.
28. Approach to metabolic acidosis
Clinical context
Internal consistency
Anion Gap
(corrected to Alb.)
Pa Co2
ABG with Met Acidosis
AGMA
NAGMA
Urine AG
Positive : Renal cause
Negative: Extrarenal
Delta
ratio
Osmolar Gap
Metabolic
alkalosis
Or Respiratory
acidosis
Normal or
High
Prim resp
acidosis
Low
+
=
-
Prim resp
alkalosis
No pr. Resp dis.comp
29. 24 Y man with DM, CKD is admitted with altered mental status and hyperglycemia
, blood ethanol negative, ketone + in urine and + opioid in urine
Case 1
pH 7.15
Pa Co2
35
HCo3
12
Pa O2
95
Na 140
Cl 112
Alb 2.5
consistency
Met acidosis
A G 16 A G c 21 d. gap 9
d. ratio 9/12= 0.7
Anion Gap Metabolic Acidosis
Non AGMA.
Respiratory acidosis
Expected
Co2
28
30. Approach to metabolic alkalosis
Common
causes
Volume depletion:
•Vomiting
•NGT loss
•Villous adenoma.
Diuretic use.
Post Hypercapnic
Hypertensive:
•Hyperaldosteronism.
•Cushing
•Exogenous mineralocorticoids
Normotensive:
•Severe hypokalemia.
•Milk alkali syndrome
31.
32. Approach to metabolic alkalosis
Clinical context
Internal consistency
ABG with Met Acidosis
Anion Gap
(corrected to Alb.)
Pa Co2
Check for
urinary
chloride
If low or normal Prim resp.
alkalosis
High Compensation
check -
=
+
No
Resp.
Disorder
Prim
resp.
acidosis
< 20 mmol/l
>20 mmol/l
Saline responsive
Saline resistant
34. Case 2
pH 7.38
Pa
Co2
41
HCo3 23
Pa O2 95
Na 143
Cl 98
A 23-year-old man presented with generalized malaise and vomiting.
His ABG showed:
consistency
Disorder
Anion Gap 22 Delta Gap 10
Delta Ratio 10/1 10
This patient has a blood sugar of 510 mg/ dl and ketones in
the urine. He had diabetic keto-acidosis responsible for his
AGMA and vomiting caused his metabolic alkalosis.
AGMA
Metabolic alkalosis
35. Case 3
pH 7.45
Pa
Co2
44
HCo3 24
Pa O2 90
Na 144
Cl 112
consistency
pH = 7.45
H+= 35
H+= 24(44)/24= 44≠
Inconsistent ABG
36. Case 4
pH 7.30
Pa Co2 60
HCo3 29
Na 144
Cl 112
consistency
Disorder
compensation
AG
yes
Respiratory
acidosis
If
Acute
If
Chronic
HCo3 = 26
HCo3 = 31
3
Acute on top of chronic respiratory acidosis.
Chronic respiratory acidosis with NAGMA
37. References
Uptodate (accessed 11/2017)
Dynamed Plus ( accessed 11/2017).
N Engl J Med. 2014 Oct 9;371(15):1434-45.
Fishman’s Pulmonary Diseases and Disorders, Fifth Edition (2015).
Emerg Med Clin North Am 2014 May;32(2):403.
Pocket ICU , second edition (2017).
Arterial Blood Gases Made Easy, second edition (2015).
Chest Seek TM 2014 (Education Product of ACCP).
38. N Engl J Med. 2014 Oct 9;371(15):1434-45.
Recommended Review for Medical Residents