There is
many ways to set Positive End Expiratory Pressure (PEEP). Setting PEEP too low
may result in under or tidal recruitment of the lung and PEEP that is too high
results in over-distention, both contribute to Ventilator Induced Lung Injury
(VILI). This post provides a synopsis of
the various techniques as well as potential pros & cons.
PEEP Tables
 |
| Image 1: PEEP Tables from ARDS Network |
Setting PEEP
based on Fio2 levels is from the ARDSnet studies/ network.
Pros
-Based on
large clinical trials.
-Simple to
use that helps with adherence and reduces practice variation.
-Can utilize
on any ventilator.
Cons
-Does not
consider trying to decrease FiO2.
-There are
multiple factors which may contribute to hypoxia and the need for higher FiO2
setting. Not all of these factors respond to higher PEEP levels.
-May lead to
over distention or under inflation (e.g. an obese patient or a patient with
decreased extra-thoracic compliance may need more PEEP).
Decremented PEEP Strategy
Following a
lung recruitment maneuver, the operator starts at a higher level of PEEP and
decreases the PEEP (~5 cmH2O/minute) to a lower level. PEEP is decreased to the
lowest level that maintains the oxygenation benefit of the recruitment
maneuver. Also consider CO2 clearance if monitoring is available.
Pros
-Easy to
perform.
-Can be
performed on any ICU ventilator.
Cons
-May have
initial hemodynamic compromise on the higher PEEP levels.
-Takes
additional time.
-Many
different types of recruitment maneuvers.
Static Pressure Volume Curve Analysis
 |
| Image 2: Hamilton Medical's P/V tool (David Grooms). |
Performed
using a minimal flow technique /modified super syringe. The curve is evaluated
for either the lower inflection point, point of maximum curvature, and/or maximum
hysteresis.
Pros
-If the
ventilator has automation software this is a simple procedure.
-Automated
software allows for high inter-user readability.
Cons
-Patient
must be heavily sedated or paralyzed, no spontaneous efforts during the maneuver.
-Controversy,
on what to set PEEP level on, lower inflection point, maximum hysteresis, or deflation
limb?
-Multiple
steps if there is no automated software on the ventilator. See example:
http://kscottrichey.blogspot.com/2011/01/identifying-optimal-peep-with-pb-840.html
http://kscottrichey.blogspot.com/2011/01/identifying-optimal-peep-with-pb-840.html
Esophageal Manometry
 |
| Image 3: Hamilton G5 showing esophageal monitoring "Paux" measurement (Paul Garbarini). |
The clinician can use an esophageal balloon to measure
transpulmoanry/pleural pressures & adjust settings based on these
measurements.
Pros
-Reflects
true transpulmoanry/pleural pressures.
-Patient does not need to be sedated.
Cons
-Extra equipment & trained personal needed (if
ventilator does not have software).
-Invasive procedure (esophageal ballon catheter).
-Extra training required.
Volumetric Carbon Dioxide Measurement
 |
| Image 4: Respironics Volumetric CO2 monitor (David Grooms). |
Setting PEEP is based on two parameters; carbon dioxide
elimination (VCO2) and alveolar minute volume (mValv).
Pros
-Patient does not need to be sedated.
-Can identify both under recruitment and over
distention.
Cons
-Extra equipment needed.
-Extra time.
-Maybe inaccurate with excessive shunts and/or dead
space.
Additional link:
http://kscottrichey.blogspot.com/2011/02/using-volumetric-carbon-dioxide.html
Additional link:
http://kscottrichey.blogspot.com/2011/02/using-volumetric-carbon-dioxide.html
Stress
Index
 |
| Image 5: Screen shot of Servo-i showing stress index monitoring. |
The stress index is determined by analyzing the airway
opening pressure over time, during a constant flow.
Pros
-Based on MRI data.
-Value is easy to comprehend.
Cons
-Patient has to be heavily sedated or paralyzed.
-Only can be accessed using VC-CMV.
-Flow & pressure-time curves are needed.
-Calculated value is only available on the Servo-i at
this time.
Additional link:
http://kscottrichey.blogspot.com/2012/03/minimal-ssi-strategy.html
Additional link:
http://kscottrichey.blogspot.com/2012/03/minimal-ssi-strategy.html
