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PHILIP L . KALARICKAL, M.D. , M.P.H.
Ventilators and ABG’s
Objectives
1. Review and understand Intubation criteria2. Understand basic ventilator settings and
mechanisms3. Understand how to monitor a patient on a
ventilator4. A systematic review of ABG analysis5. Understand the physiology of ventilation
and oxygenation.
Patient in ER
55 y.o. MaleCC: SOB and coughVitals: Ht: 5’10”, Wt: 70kg
T: 38.7 RR: 35 HR: 105 BP: 140/95 Pox: 90% on 100% NRBM
What do you do?
Intubation Criteria
1.
2.
3.
4.
5.
Intubation Criteria
1. Hypoxemia: PaO2 < 60mmHg on >.6 FiO2
2.Hypercarbia: PaCO2 > 60mmHg
3. RR > 30
4. GCS <8
5. Hemodynamic instability - Pressors
You intubate the patient successfully. The respiratory tech turns to you and says, “What vent
settings do you want doc?”
What settings need to be programmed into the ventilator?
1.2.3.4.5.
You intubate the patient successfully. The respiratory tech turns to you and says, “What vent
settings do you want?”
What settings need to be programmed into the ventilator?
1. Mode2. Tidal volume3. RR4. FiO2
5. PEEP
Initial Vent Settings
Mode:
TV:
RR:
FiO2:
PEEP:
Initial Vent Settings
Mode: 2 basic modes – pressure control & volume control. TV depends on lung compliance. Usually pick SIMV or PRVC
TV: 5-7 cc/kg IBW
RR: start at 20. Can adjust based off of ABG
FiO2:
start at 1.0. Can adjust based off of ABG
PEEP: start at 5cm H2O
Ok, the patient is on the vent. Now what?
How do we assess patients on vents?1.
2.
ABG’s
1.2.3.4.5.6.
ABG’s
1. pH: 7.35 – 7.452. PaCO2: 35-45 mmHg
3. PaO2: 80-100 mmHg
4. HCO3-: 22-28 mEq/dL
5. BE: -2 - +26. Sat: 97 – 100%
You get your first gas….
7.30/55/200/24/0/100What do you think?
What do you want to do?
1. Acid/Base
2. Ventilation
3. Oxygentation
Acid/Base
1. Look at pH to determine primary process
2. Then look at PaCO2 and HCO3- to determine relative contribution of Respiratory and Metabolic components to acid/base disturbance and the degree of compenation.
Ventilation
Measured by PaCO2
***Oxygentation and Ventilation are independent processes***
Ventilation is a function of MV MV= TV x RR Usually by RR rather than TV
This patient has an elevated PaCO2. He is hypoventilating (retaining CO2).
We should increase RR
Ventilation
You ask the Resp Tech to increase RR to 24 and check an ABG in an hour
The repeat gas is:7.40/40/200/24/0/100
Now what?Have we addressed oxygenation yet?
What do you think about the PaO2 of 200mmHg?
Oxygenation
How do we assess oxygenation?1.2.
What is PaO2? What does PaO2 mean?It is the pressure of oxygen that is dissolved in
plasmaIt contributes very little to oxygen deliveryCaO2 = 1.34 x Hb x sat + .003(PaO2)Helps assess how well oxygen exchange occurs at
the alveolusYou need to compare it to PAO2.
PAO2
PAO2 = [(Patm – PH2O)FiO2]
– (PaCO2/0.8)
Because oxygen and carbon dioxide are small molecules, there should be almost perfect gas exchange across the alvelous to pulm capp.
PAO2
Example: on 100% oxygen,
PAO2 = [(760-47)x 1] – (40/0.8)= 710 – 50= 650mmHg
Rule of Thumb: PaO2 should be about 5x O2% Ex: on 100% O2, PaO2 should be approx 500mmHg
Now what do you think about the PaO2 of 200 mmHg on our ABG?
If we have an unexpected result, we should correlate it clinically.
Why would this patient have problems with oxygen exchange across the alveolus?
In other patients, different causes may be higher on the differential CHF exacerbation and pulm edema Pneumothorax Mucous plug ETT in main stem bronchus Etc…
Ok, we know we have a problem with oxygenation, now what?
How do we improve oxygenation?2 ways:
Increase FiO2 Increase PEEP
Are there any drawbacks to PEEP?Yes-
Barotrauma Inhibits venous return
Effect of Increased PEEP- example
PEEP (cm H2O )
Sat PaO2 BP
In this example, 9cm H2O is the “Best” PEEP
5 100 200 135/90
7 100 250 130/80
9 100 350 115/70
11 100 450 85/55
•“Best” PEEP – the level of PEEP at which you improve oxygenation the most without significant effects on venous return
Oxygenation
Ok, we’ve improved oxygenation via PEEP and hope to improve it further with anitbiotics for his pneumonia.
Now what?Are we happy with his FiO2?Are there problems with high FiO2?
1.2.
Oxygenation
You should wean FiO2 to minimum to maintain sats > 95% (PaO2 > 80)
Why?
Oxygenation
Problems with high FiO2 “oxygen toxicity” – due to oxygen free radicals that
may cause alveolar damage Risk factor – FiO2 > .6 for greater than 24 hours
High FiO2 is not safe for patients Saturation is a relatively insensitive measure of
oxygenation (sats won’t drop until PaO2 is less than 80-100)
1. Low FiO2 allows you to know your PaO2 within a narrow range without drawing an ABG.
Ex: Pt. on 100% O2 with sats 100%
The lowest PaO2 can be is 80 mmHg The highest PaO2 can be is 500-600mmHg
Pt on 30% O2 with sats 100% The lowest PaO2 can be is 80 mmHg The highest PaO2 can be is 150 mmHg
2. Low FiO2 will allow you to identify problems earlier
A patient on 30% O2 will desat sooner than a patient on 100% O2
In other words, 100% O2 will “mask” a problem
3. If a patient is on a low FiO2 you can increase to 100% to buy time to make a diagnosis and treat.
Now you know almost everything you need to know about Vents and ABG’s
1. Intubation Criteria2. Basic ventilator settings3. Assessing patients on vents
1. Pulse oximeter2. ABG’s
4. Analyzing ABG’s1. Acid/Base2. Ventilation3. Oxygenation
