Arterial Blood Gas - Analysis 1
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Arterial Blood Gas
Analysis …..1
Dr Deopujari
Pediatrician
Nagpur
Analysis …..1
Dr Deopujari
Pediatrician
Nagpur
The Goal :
To provide simple and bedside approach to ABG
report
Not to:
To teach physiology .
To teach theories on acid-base regulation
To look for alternative approaches to
interpretation
In details
To provide simple and bedside approach to ABG
report
Not to:
To teach physiology .
To teach theories on acid-base regulation
To look for alternative approaches to
interpretation
In details
A Systematic and pointed
………approach
Use of pH for Hydrogen
Ion Activity ……..
The credit (or Blame) for
introducing the term pH,
the negative log of
hydrogen ion (H+)
concentration, goes to
S. P. L. Sørensen
(1868-1939), who
apparently was tired of
writing seven zeros in a
paper on enzyme
activity and wanted a
simpler
designation…..?.
………approach
Use of pH for Hydrogen
Ion Activity ……..
The credit (or Blame) for
introducing the term pH,
the negative log of
hydrogen ion (H+)
concentration, goes to
S. P. L. Sørensen
(1868-1939), who
apparently was tired of
writing seven zeros in a
paper on enzyme
activity and wanted a
simpler
designation…..?.
H ION CONC.
N.MOLS / L.
pH
20 7.70
30 7.52
40 7.40
50 7.30
60 7.22
H ION
OH ION
0
14
pH stand for "power of hydrogen"
H
+
= 80 - last two digits of pH
N.MOLS / L.
pH
20 7.70
30 7.52
40 7.40
50 7.30
60 7.22
H ION
OH ION
0
14
pH stand for "power of hydrogen"
H
+
= 80 - last two digits of pH
The Anatomy
of a Blood Gas Report
----- XXXX Diagnostics ------
Blood Gas Report
248 05:36 Jul 22 2000
Pt ID 2570 / 00
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
pH 7.439
pCO
2 47.6 mm Hg
pO
2 123.5 mm Hg
Calculated Data
HCO
3 act 31.1 mmol / L
HCO
3 std 30.5 mmol / L
BE 6.6 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
ct CO
2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
Measured Values the most
important
Temperature Correction:
Is there any value to it?
Calculated Data:
Which are the useful ones?
Entered Data:
As important
of a Blood Gas Report
----- XXXX Diagnostics ------
Blood Gas Report
248 05:36 Jul 22 2000
Pt ID 2570 / 00
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
pH 7.439
pCO
2 47.6 mm Hg
pO
2 123.5 mm Hg
Calculated Data
HCO
3 act 31.1 mmol / L
HCO
3 std 30.5 mmol / L
BE 6.6 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
ct CO
2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
Measured Values the most
important
Temperature Correction:
Is there any value to it?
Calculated Data:
Which are the useful ones?
Entered Data:
As important
Bicarbonate:
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
Calculated Data
HCO
3 act 31.1 mmol / L
HCO
3 std 30.5 mmol / L
BE 6.6 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
t CO
2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
Henderson - Hasselbach equation:
pH = pK + Log
HCO3
Dissolved CO2
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
Calculated Data
HCO
3 act 31.1 mmol / L
HCO
3 std 30.5 mmol / L
BE 6.6 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
t CO
2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
Henderson - Hasselbach equation:
pH = pK + Log
HCO3
Dissolved CO2
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
Calculated Data
HCO
3 act 31.1 mmol / L
HCO
3 std 30.5 mmol / L
BE 6.6 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
t CO
2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
Standard Bicarbonate:
Plasma HCO
3 after equilibration
to a PCO
2 of 40 mm Hg
: reflects non-respiratory acid base change
: does not quantify the extent of the buffer
base abnormality
: does not consider actual buffering
capacity of blood
Base Excess:
D base to normalise HCO
3 (to 24)
with PCO
2 at 40 mm Hg
(Sigaard-Andersen)
: reflects metabolic part of acid base D
: no info. over that derived from pH,
pCO
2 and HCO
3
: Misinterpreted in chronic or mixed
disorders
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
Calculated Data
HCO
3 act 31.1 mmol / L
HCO
3 std 30.5 mmol / L
BE 6.6 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
t CO
2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
Standard Bicarbonate:
Plasma HCO
3 after equilibration
to a PCO
2 of 40 mm Hg
: reflects non-respiratory acid base change
: does not quantify the extent of the buffer
base abnormality
: does not consider actual buffering
capacity of blood
Base Excess:
D base to normalise HCO
3 (to 24)
with PCO
2 at 40 mm Hg
(Sigaard-Andersen)
: reflects metabolic part of acid base D
: no info. over that derived from pH,
pCO
2 and HCO
3
: Misinterpreted in chronic or mixed
disorders
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
Calculated Data
HCO
3 act 31.1 mmol / L
HCO
3 std 30.5 mmol / L
BE 6.6 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
t CO2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
Oxygenation
Parameters:
O
2 Content of blood:
Hb x O
2 Sat + Dissolved O
2
Oxygen Saturation:
( remember this is calculated )
Alveolar / arterial gradient:
Arterial / alveolar ratio:
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
Calculated Data
HCO
3 act 31.1 mmol / L
HCO
3 std 30.5 mmol / L
BE 6.6 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
t CO2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
Oxygenation
Parameters:
O
2 Content of blood:
Hb x O
2 Sat + Dissolved O
2
Oxygen Saturation:
( remember this is calculated )
Alveolar / arterial gradient:
Arterial / alveolar ratio:
Rt. Shift
Lt.Shift
Lt.Shift
Alveolar-arterial Difference
Inspired O
2 = 21 %
p
iO
2 = (760-45) x . 21 = 150 mmHg
O
2
CO
2
p
alvO
2 = p
iO
2 – pCO
2 / RQ
= 150 – 40 / 0.8
= 150 – 50 = 100 mm Hg
p
artO
2 = 90 mmHg
p
alv
O
2
– p
artO
2 = 10 mmHg
Inspired O
2 = 21 %
p
iO
2 = (760-45) x . 21 = 150 mmHg
O
2
CO
2
p
alvO
2 = p
iO
2 – pCO
2 / RQ
= 150 – 40 / 0.8
= 150 – 50 = 100 mm Hg
p
artO
2 = 90 mmHg
p
alv
O
2
– p
artO
2 = 10 mmHg
Alveolar- arterial Difference
O
2
CO
2
Oxygenation Failure
p
iO
2 = 150
pCO
2 = 40
p
alvO
2= 150 – 40/.8
=150-50
=100
pO
2 = 45
D = 100 - 45 = 55
Ventilation Failure
p
iO
2 = 150
pCO
2 = 80
p
alvO
2= 150-80/.8
=150-100
= 50
pO
2 = 45
D = 50 - 45 = 5
PAO
2 (partial pres. of O
2. in the alveolus.)
= 150 - ( PaCO
2 / .8 )
760 – 45 = 715 : 21 % of 715 = 150
O
2
CO
2
Oxygenation Failure
p
iO
2 = 150
pCO
2 = 40
p
alvO
2= 150 – 40/.8
=150-50
=100
pO
2 = 45
D = 100 - 45 = 55
Ventilation Failure
p
iO
2 = 150
pCO
2 = 80
p
alvO
2= 150-80/.8
=150-100
= 50
pO
2 = 45
D = 50 - 45 = 5
PAO
2 (partial pres. of O
2. in the alveolus.)
= 150 - ( PaCO
2 / .8 )
760 – 45 = 715 : 21 % of 715 = 150
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
Calculated Data
HCO
3 act 31.1 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
t CO2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
Oxygenation:
Limitations of parameters:
O2 Content of blood:
Useful in oxygen transport calculations
Derived from calculated saturation
Oxygen Saturation:
Ideally measured by co-oximetry
Calculated values may be error-prone
Alveolar / arterial gradient:
Reflects O
2 exchange with fixed FiO
2
Impractical
Differentiates hypoventilation as cause
Arterial / alveolar ratio:
Proposed to be less variable
Same limitations as A-a gradient
20 × 5 = 100
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
Calculated Data
HCO
3 act 31.1 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
t CO2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
Oxygenation:
Limitations of parameters:
O2 Content of blood:
Useful in oxygen transport calculations
Derived from calculated saturation
Oxygen Saturation:
Ideally measured by co-oximetry
Calculated values may be error-prone
Alveolar / arterial gradient:
Reflects O
2 exchange with fixed FiO
2
Impractical
Differentiates hypoventilation as cause
Arterial / alveolar ratio:
Proposed to be less variable
Same limitations as A-a gradient
20 × 5 = 100
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Calculated Data
HCO
3 act 31.1 mmol / L
O
2 Sat 98.3 %
pO
2 (A - a) 32.2 mm Hg
Entered Data
FiO
2 30.0 %
The Blood Gas Report:
pH 7.40 + 0.05
PCO
2 40 + 5 mm Hg
PO
2 80 - 100 mm Hg
HCO
3 24 + 4 mmol/L
O2 Sat >95
Always mention and see FIO2
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
pH 7.439
pCO
2 47.6 mm Hg
pO
2 123.5 mm Hg
Calculated Data
HCO
3 act 31.1 mmol / L
HCO
3 std 30.5 mmol / L
BE 6.6 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
t CO
2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
The essentials
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Calculated Data
HCO
3 act 31.1 mmol / L
O
2 Sat 98.3 %
pO
2 (A - a) 32.2 mm Hg
Entered Data
FiO
2 30.0 %
The Blood Gas Report:
pH 7.40 + 0.05
PCO
2 40 + 5 mm Hg
PO
2 80 - 100 mm Hg
HCO
3 24 + 4 mmol/L
O2 Sat >95
Always mention and see FIO2
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.463
pCO
2 44.4 mm Hg
pO
2 113.2 mm Hg
Corrected 38.6
o
C
pH 7.439
pCO
2 47.6 mm Hg
pO
2 123.5 mm Hg
Calculated Data
HCO
3 act 31.1 mmol / L
HCO
3 std 30.5 mmol / L
BE 6.6 mmol / L
O
2 CT 14.7 mL / dl
O
2 Sat 98.3 %
t CO
2 32.4 mmol / L
pO
2 (A - a) 32.2 mm Hg
pO
2 (a / A) 0.79
Entered Data
Temp 38.6
o
C
ct Hb 10.5 g/dl
FiO
2 30.0 %
The essentials
A ) low PAO2 ( Low Alveolar Pressure )
1) low barometric pressure,
2) low fraction of inspired oxygen (FiO2)
3) Hypercarbia – elevated (PaCO2).
B ) Wide A / a gradient ( Normal Alveolar
pressure )
1)Shunt ( cardiac or non cardiac )
2)Diffusion abnormality
Low PaO2 can be the result of
1) low barometric pressure,
2) low fraction of inspired oxygen (FiO2)
3) Hypercarbia – elevated (PaCO2).
B ) Wide A / a gradient ( Normal Alveolar
pressure )
1)Shunt ( cardiac or non cardiac )
2)Diffusion abnormality
Low PaO2 can be the result of
Technical Errors
Glass vs. plastic syringe:
Changes in pO
2 are not clinically important
No effect on pH or pCO
2
Heparin (1000 u / ml):
Need <0.1 ml / ml of blood
pH of heparin is 7.0; pCO
2 trends down
Avoided by heparin flushing & drawing 2-4 cc
blood
Delay in measurement:
Rate of changes in pH, pCO
2 and pO
2 can be
reduced to 1/10 by cooling in ice slush(4
o
C)
No major drifts up to 1 hour
Glass vs. plastic syringe:
Changes in pO
2 are not clinically important
No effect on pH or pCO
2
Heparin (1000 u / ml):
Need <0.1 ml / ml of blood
pH of heparin is 7.0; pCO
2 trends down
Avoided by heparin flushing & drawing 2-4 cc
blood
Delay in measurement:
Rate of changes in pH, pCO
2 and pO
2 can be
reduced to 1/10 by cooling in ice slush(4
o
C)
No major drifts up to 1 hour
The
Steps for
Successful
Blood Gas
Analysis
Steps for
Successful
Blood Gas
Analysis
Step 1
Look at the pH
Is the patient acidemic pH < 7.35
or alkalemic pH > 7.45
Step 2
Who is responsible for this change ( culprit )?
Acidemia: With HCO
3 < 20 mmol/L = metabolic
With PCO
2 >45 mm hg = respiratory
Alkalemia: With HCO
3 >28 mmol/L = metabolic
With PCO
2 <35 mm Hg = respiratory
The culprit
BICARB pH
CO
2 pH
BICARB pH
CO
2 pH
Look at the pH
Is the patient acidemic pH < 7.35
or alkalemic pH > 7.45
Step 2
Who is responsible for this change ( culprit )?
Acidemia: With HCO
3 < 20 mmol/L = metabolic
With PCO
2 >45 mm hg = respiratory
Alkalemia: With HCO
3 >28 mmol/L = metabolic
With PCO
2 <35 mm Hg = respiratory
The culprit
BICARB pH
CO
2 pH
BICARB pH
CO
2 pH
Step 3
If there is a primary respiratory disturbance, is it acute?
(Acute)change in pH = 0.08 for 10 mm change in PCO2
(Chronic)change in pH = 0.03 for 10 mm change in PCO2
If there is a primary respiratory disturbance, is it acute?
(Acute)change in pH = 0.08 for 10 mm change in PCO2
(Chronic)change in pH = 0.03 for 10 mm change in PCO2
Step 4
If the disturbance is metabolic is the respiratory
compensation appropriate?
For metabolic acidosis:
Expected PCO
2 = (1.5 x [HCO
3]) + 8 ) + 2
(Winter’s equation)
( Last two digits of pH )
For metabolic alkalosis:
Expected PCO
2 = 6 mm for 10 mEq. rise in Bicarb.
If :
actual PCO
2 more than expected : additional
respiratory acidosis
actual PCO
2 less than expected : additional respiratory
alkalosis
The last two
digits
If the disturbance is metabolic is the respiratory
compensation appropriate?
For metabolic acidosis:
Expected PCO
2 = (1.5 x [HCO
3]) + 8 ) + 2
(Winter’s equation)
( Last two digits of pH )
For metabolic alkalosis:
Expected PCO
2 = 6 mm for 10 mEq. rise in Bicarb.
If :
actual PCO
2 more than expected : additional
respiratory acidosis
actual PCO
2 less than expected : additional respiratory
alkalosis
The last two
digits
Step 4 cont.
If there is metabolic acidosis, is there a wide anion gap ?
Na - (Cl
-
+ HCO
3
-
) = Anion Gap usually <12
If >12, Anion Gap Acidosis :
Methanol
Uremia
Diabetic Ketoacidosis
Paraldehyde
Infection (lactic acid)
Ethylene Glycol
Salicylate
Common pediatric causes
1)Lactic acidosis
2) Metabolic disorders
3) Renal failure
If there is metabolic acidosis, is there a wide anion gap ?
Na - (Cl
-
+ HCO
3
-
) = Anion Gap usually <12
If >12, Anion Gap Acidosis :
Methanol
Uremia
Diabetic Ketoacidosis
Paraldehyde
Infection (lactic acid)
Ethylene Glycol
Salicylate
Common pediatric causes
1)Lactic acidosis
2) Metabolic disorders
3) Renal failure
th step
Clinical correlation
Clinical correlation
HCO3
META. pH
PCO2 pH RESP.
Same direction
Opposite direction
Same direction
META. pH
PCO2 pH RESP.
Same direction
Opposite direction
Same direction
24 CO2
BICARBONATE
= H ION CONC.
24 40 = 960
BICARBONATE
= H ION CONC.
960
24
= H ION CONC. = 40
N.MOLS / L.
H
+
N.MOLS / L. = 80 - last two digits of pH
N.MOLS / L.
N.MOLS / L.
BICARBONATE
= H ION CONC.
24 40 = 960
BICARBONATE
= H ION CONC.
960
24
= H ION CONC. = 40
N.MOLS / L.
H
+
N.MOLS / L. = 80 - last two digits of pH
N.MOLS / L.
N.MOLS / L.
Primary lesion
Primary lesion
compensation
pH
HCO3
CO2
METABOLIC ACIDOSIS
HYPER VENTILATION
BICARB CHANGES
pH in same direction
Primary lesion
compensation
pH
HCO3
CO2
METABOLIC ACIDOSIS
HYPER VENTILATION
BICARB CHANGES
pH in same direction
Primary lesion
compensation
pH
HCO3
CO2
METABOLIC ALKALOSIS
HYPO VENTILATION
BICARB CHANGES
pH in same direction
compensation
pH
HCO3
CO2
METABOLIC ALKALOSIS
HYPO VENTILATION
BICARB CHANGES
pH in same direction
Primary lesion
compensation
pH
CO 2
BICARB
Respiratory acidosis
CO 2 CHANGES
pH in opposite direction
compensation
pH
CO 2
BICARB
Respiratory acidosis
CO 2 CHANGES
pH in opposite direction
pH CO2+H20=H2CO3 = H + HCO3
+
HCO3
HCO3
RESP. ACIDOSIS ALKALOSIS META.
ACUTE RISE : PCO2 10 : pH .08
CHRONIC RISE : PCO2 10 : pH .03
PCO2
HIGH
H
HIGH
HCO3
+
+
HCO3
HCO3
RESP. ACIDOSIS ALKALOSIS META.
ACUTE RISE : PCO2 10 : pH .08
CHRONIC RISE : PCO2 10 : pH .03
PCO2
HIGH
H
HIGH
HCO3
+
Primary lesion
Primary lesion
compensation
pH
CO 2
BICARB
Respiratory alkalosis
CO 2 CHANGES
pH in opposite direction
Primary lesion
compensation
pH
CO 2
BICARB
Respiratory alkalosis
CO 2 CHANGES
pH in opposite direction
CO2 + H20 = H2CO3 = H + HCO3
+
pH
HCO3
LOW H IONS
…LOW HCO3
RESP. ALK. ACID. META.
ACUTE FALL : PCO2 10 : pH .08
CHRONIC FALL: PCO2 10 : pH .03
CO2
+
+
pH
HCO3
LOW H IONS
…LOW HCO3
RESP. ALK. ACID. META.
ACUTE FALL : PCO2 10 : pH .08
CHRONIC FALL: PCO2 10 : pH .03
CO2
+
Pco
2 of 10 pH
Acute change .08
Chronic change .03
2 of 10 pH
Acute change .08
Chronic change .03
INTERPRETATION OF A.B.G.
FOUR STEP METHOD OF DEOSAT
1)LOOK FOR pH
2)WHO IS THE CULPRIT ?
3)IF RESPIRATORY ACUTE / CHRONIC ?
4)IF METABOLIC / COMP. / ANION GAP
CLINICAL CORRELATION
FOUR STEP METHOD OF DEOSAT
1)LOOK FOR pH
2)WHO IS THE CULPRIT ?
3)IF RESPIRATORY ACUTE / CHRONIC ?
4)IF METABOLIC / COMP. / ANION GAP
CLINICAL CORRELATION
compensation
considered
complete
when the
pH returns
to
normal
range
Clinical blood gases by Malley
considered
complete
when the
pH returns
to
normal
range
Clinical blood gases by Malley
COMPENSION LIMITS
METABLIC ACIDOSIS
CO2 = Up to 10 ?
METABOLIC ALKALOSIS
CO2 = Maximum 6O
RESPIRATORY ACIDOSIS
BICARB = Maximum 40
RESPIRATORY ALKALOSIS
BICARB = Up to 10
METABLIC ACIDOSIS
CO2 = Up to 10 ?
METABOLIC ALKALOSIS
CO2 = Maximum 6O
RESPIRATORY ACIDOSIS
BICARB = Maximum 40
RESPIRATORY ALKALOSIS
BICARB = Up to 10
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.523
pCO
2 30.1 mm Hg
pO
2 105.3 mm Hg
Calculated Data
HCO
3 act 22 mmol / L
O
2 Sat 98.3 %
pO
2 (A - a) 8 mm Hg D
pO2 (a / A) 0.93
Entered Data
FiO
2 21.0 %
Case 1
16 year old female with
sudden onset of dyspnea.
No Cough or Chest Pain
Vitals normal but RR 56,
anxious.
Blood Gas Report
Measured 37.0
o
C
pH 7.523
pCO
2 30.1 mm Hg
pO
2 105.3 mm Hg
Calculated Data
HCO
3 act 22 mmol / L
O
2 Sat 98.3 %
pO
2 (A - a) 8 mm Hg D
pO2 (a / A) 0.93
Entered Data
FiO
2 21.0 %
Case 1
16 year old female with
sudden onset of dyspnea.
No Cough or Chest Pain
Vitals normal but RR 56,
anxious.
Case 2 6 year old male with progressive respiratory distress
Muscular dystrophy .
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.301
pCO
2 76.2 mm Hg
pO
2 45.5 mm Hg
Calculated Data
HCO
3 act 35.1 mmol / L
O
2 Sat 78 %
pO
2 (A - a) 9.5 mm Hg D
pO
2 (a / A) 0.83
Entered Data
FiO
2 21 %
D CO
2 =76-40=36
Expected D pH ( Acute ) = .08 for 10
Expected ( Acute ) pH = 7.40 - 0.29=7.11
Chronic resp. acidosis
pH <7.35 :acidemia
respiratory acidemia : co2 and pH
Hypoxia
Normal A-a gradient
Due to hypoventilation
Muscular dystrophy .
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.301
pCO
2 76.2 mm Hg
pO
2 45.5 mm Hg
Calculated Data
HCO
3 act 35.1 mmol / L
O
2 Sat 78 %
pO
2 (A - a) 9.5 mm Hg D
pO
2 (a / A) 0.83
Entered Data
FiO
2 21 %
D CO
2 =76-40=36
Expected D pH ( Acute ) = .08 for 10
Expected ( Acute ) pH = 7.40 - 0.29=7.11
Chronic resp. acidosis
pH <7.35 :acidemia
respiratory acidemia : co2 and pH
Hypoxia
Normal A-a gradient
Due to hypoventilation
Case 3
8-year-old male asthmatic;
3 days of cough, dyspnea
and orthopnea not
responding to usual
bronchodilators.
O/E: Respiratory distress;
suprasternal and
intercostal retraction;
tired looking; on 4 L NC.
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7. 24
pCO2 49.1 mm Hg
pO2 66.3 mm Hg
Calculated Data
HCO
3 act 18.0 mmol / L
O2 Sat 92 %
pO2 (A - a) mm Hg D
pO2 (a / A)
Entered Data
FiO2 30 %
153-66= 87
pH <7.35 ; acidemia
pCO
2 >45; respiratory acidemia
p
iO
2 = 715x.3=214.5 / p
alvO
2 = 214-49/.8=153 Wide A / a gradient
Hypoxia
WITH INCREASE IN CO2 BICARB MUST RISE ?
Metabolic acidosis + respiratory acidosis
30 × 5 = 150
D CO
2 = 49 - 40 = 9
Expected D pH ( Acute ) = 9/10 x 0.08 = 0.072
Expected pH ( Acute ) = 7.40 - 0.072 = 7.328
Acute resp. acidosis
8-year-old male asthmatic;
3 days of cough, dyspnea
and orthopnea not
responding to usual
bronchodilators.
O/E: Respiratory distress;
suprasternal and
intercostal retraction;
tired looking; on 4 L NC.
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7. 24
pCO2 49.1 mm Hg
pO2 66.3 mm Hg
Calculated Data
HCO
3 act 18.0 mmol / L
O2 Sat 92 %
pO2 (A - a) mm Hg D
pO2 (a / A)
Entered Data
FiO2 30 %
153-66= 87
pH <7.35 ; acidemia
pCO
2 >45; respiratory acidemia
p
iO
2 = 715x.3=214.5 / p
alvO
2 = 214-49/.8=153 Wide A / a gradient
Hypoxia
WITH INCREASE IN CO2 BICARB MUST RISE ?
Metabolic acidosis + respiratory acidosis
30 × 5 = 150
D CO
2 = 49 - 40 = 9
Expected D pH ( Acute ) = 9/10 x 0.08 = 0.072
Expected pH ( Acute ) = 7.40 - 0.072 = 7.328
Acute resp. acidosis
Case 4 8 year old diabetic with respi. distress fatigue and loss of appetite.
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.23
pCO2 23 mm Hg
pO2 110.5 mm Hg
Calculated Data
HCO
3 act 14 mmol / L
O2 Sat %
pO2 (A - a) mm Hg D
pO2 (a / A)
Entered Data
FiO2 21.0 %
pH <7.35 ; acidemia
HCO3 <22; metabolic acidemia
Last two digits of pH
Correspond with co2
If Na = 130,
Cl = 90
Anion Gap = 130 - (90 + 14)
= 130 – 104 = 26
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.23
pCO2 23 mm Hg
pO2 110.5 mm Hg
Calculated Data
HCO
3 act 14 mmol / L
O2 Sat %
pO2 (A - a) mm Hg D
pO2 (a / A)
Entered Data
FiO2 21.0 %
pH <7.35 ; acidemia
HCO3 <22; metabolic acidemia
Last two digits of pH
Correspond with co2
If Na = 130,
Cl = 90
Anion Gap = 130 - (90 + 14)
= 130 – 104 = 26
----- XXXX Diagnostics ------
Blood Gas Report
Measured 37.0
o
C
pH 7.46
pCO2 28.1 mm Hg
pO2 55.3 mm Hg
Calculated Data
HCO
3 act 19.2 mmol / L
O2 Sat %
pO2 (A - a) mm Hg D
pO2 (a / A)
Entered Data
FiO2 24.0 %
Case 5 : 10 year old child with encephalitis
pH almost within normal range
Mild alkalosis
Co2 is low , respiratory
Co2 low by around 10
( Acute ) by .08
(Chronic ) by .03
Bicarb looks low ?
Is it expected ?
More cases
Blood Gas Report
Measured 37.0
o
C
pH 7.46
pCO2 28.1 mm Hg
pO2 55.3 mm Hg
Calculated Data
HCO
3 act 19.2 mmol / L
O2 Sat %
pO2 (A - a) mm Hg D
pO2 (a / A)
Entered Data
FiO2 24.0 %
Case 5 : 10 year old child with encephalitis
pH almost within normal range
Mild alkalosis
Co2 is low , respiratory
Co2 low by around 10
( Acute ) by .08
(Chronic ) by .03
Bicarb looks low ?
Is it expected ?
More cases
ABG OF THE DAY
The arterial blood gas report : Room air
pH 7.39
PCO
2 l5mniHg
HCO
3 8mmol/L
PaO
2 90 mmHg
PCO2 24
BICARBONATE
H ION CONCENTRATION =
= 45 nmol/lit
The arterial blood gas report : Room air
pH 7.39
PCO
2 l5mniHg
HCO
3 8mmol/L
PaO
2 90 mmHg
PCO2 24
BICARBONATE
H ION CONCENTRATION =
= 45 nmol/lit
1) These findings are most consistent with….
a) Metabolic acidosis with compensatory Hypocapnia.
b) Primary metabolic acidosis with
respiratory alkalosis.
c) Acute respiratory alkalosis fully compensated.
d) Chronic respiratory alkalosis fully compensated.
pH 7.39
PCO
2 l5mniHg
HCO
3 8mmol/L
PaO
2 90 mmHg
For metabolic acidosis: FULL COMPENSATION
Expected PCO2 = (1.5 x [HCO3]) + 8 ) + 2
(Winter’s equation)
PCO 2 ……SHOULD BE 20
a) Metabolic acidosis with compensatory Hypocapnia.
b) Primary metabolic acidosis with
respiratory alkalosis.
c) Acute respiratory alkalosis fully compensated.
d) Chronic respiratory alkalosis fully compensated.
pH 7.39
PCO
2 l5mniHg
HCO
3 8mmol/L
PaO
2 90 mmHg
For metabolic acidosis: FULL COMPENSATION
Expected PCO2 = (1.5 x [HCO3]) + 8 ) + 2
(Winter’s equation)
PCO 2 ……SHOULD BE 20
2) What is the oxygenation status
a) Normal oxygenation status
b) Hypoxemia
c) None of the above
p
alvO
2 = p
iO
2 – pCO
2 / RQ
= 150 – 15 / 0.8
= 150 – 18 = 132 mm Hg
132 – 90 = 42 WIDE A / a gradient
pH 7.39
PCO
2 l5mniHg
HCO
3 8mmol/L
PaO
2 90 mmHg
a) Normal oxygenation status
b) Hypoxemia
c) None of the above
p
alvO
2 = p
iO
2 – pCO
2 / RQ
= 150 – 15 / 0.8
= 150 – 18 = 132 mm Hg
132 – 90 = 42 WIDE A / a gradient
pH 7.39
PCO
2 l5mniHg
HCO
3 8mmol/L
PaO
2 90 mmHg
pCO
2
pH
70 7.10
60 7.20
50 7.30
40 7.40
30 7.50
20 7.60
2
pH
70 7.10
60 7.20
50 7.30
40 7.40
30 7.50
20 7.60
When pH is normal and:
Bicarbonate is high ( Metabolic alkalosis + respiratory
acidosis )
Bicarbonate is low ( Metabolic acidosis + resp. alkalosis)
Bicarbonate is normal and:
anion gap is high ( Metabolic Acidosis + Metabolic alkalosis)
When bicarbonate is normal and:
pH is in acidic range ( Chronic resp. acidosis + resp alk.)
pH is in alkalemic range ( Metab.alk. + resp alk.)
Anion gap is elevated and:
clinical and laboratory data suggest a diagnosis other than
metabolic acidosis
PCO2 level and bicarbonates are shifted from normal in
opposing directions.
Bicarbonate is high ( Metabolic alkalosis + respiratory
acidosis )
Bicarbonate is low ( Metabolic acidosis + resp. alkalosis)
Bicarbonate is normal and:
anion gap is high ( Metabolic Acidosis + Metabolic alkalosis)
When bicarbonate is normal and:
pH is in acidic range ( Chronic resp. acidosis + resp alk.)
pH is in alkalemic range ( Metab.alk. + resp alk.)
Anion gap is elevated and:
clinical and laboratory data suggest a diagnosis other than
metabolic acidosis
PCO2 level and bicarbonates are shifted from normal in
opposing directions.
THANKS
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