Lung Protective Ventilation

Question 1

Physiological respiration occurs through

Answer 1

negatice pressure

Question 2

Negative intrapleural pressures provides

Answer 2

a positive transpulmonary pressure to minimize atelectasis at baseline

Question 3

Positive transpulmonary pressures=

Answer 3

Palveolar- intrapleural pressure

Question 4

Anesthetic and surgical factors alter

Answer 4

chest wall muscle tone

Question 5

Chest wall muscle tone from anesthesia and surgical factors alter

Answer 5

intraplueral pressure gradient

Question 6

Maintaining a positive transpulmonary pressure during is dependent on

Answer 6

maintain alveolar alveolar pressure

Question 7

Anesthesia and surgical effects on the lungs include:

Answer 7

loss of muscle tone

elevated intraabdominal pressure

Question 8

Loss of muscle tone effects on the lungs includes

Answer 8

upper airway muscles (obstruction)

chest wall and diaphragm (abdominal contents cephalad displacement and alveolar compression)

Question 9

Elevated intra-abdominal pressure on lungs in surgery

Answer 9

increased BMI
pneumoperitoneum
trendelenburg positioning

Question 10

Induction of anesthesia causes

Answer 10

reduction in FRC

Question 11

Transitioning from upright to supine position

Answer 11

decreases FRC by 0.8-1L

Question 12

Induction agents

Answer 12

further reduce FRC by 0.4-0.5L

Question 13

Total reduction after induction is

Answer 13

1.2-1.5L

bring lung volume close to residual volume

Question 14

Recruitable lungs

Answer 14

general anesthesia

loss of FRC and ateletasis

Question 15

Non-recruitable lungs

Answer 15

ARDS
cellular debris
edema

Question 16

Factors that contribute to alveolar collapse

Answer 16

position
induction
FiO2
maintenance
emergence

Question 17

Position as a factor that contributes to alveolar collapse

Answer 17

increased closing pressure leads to decreased FRC

Question 18

Induction as a factor that contributes to alveolar collapse

Answer 18

loss of muscle tone leads to decrease FRC

Question 19

FiO2 as a factor that contributes to alveolar collapse

Answer 19

resorption behind closed airways leads to atelectasis

increased FiO2 causes faster re-absorption

Question 20

Maintenance as a factor that contributes to alveolar collapse

Answer 20

progressive airway closure with decreasing compliance

Question 21

Emergence as a factor that contributes to alveolar collapse

Answer 21

high FiO2 promotes postoperative ateletasis

absence of CPAP causes continued lung collapse

Question 22

Ventilator Induced Lung injury includes

Answer 22

Mechanical ventilation can induce lung injury
ventilation induced lung injury
ventilation associated lung injury

Question 23

Adverse effects of mechanical ventilation

Answer 23

leads to potentially irreversible structural and functional damage

Question 24

What is ventilation induced lung injury?

Answer 24

ventilator does not cause injury but the settings of the ventilator do

Question 25

What is ventilation associated lung injury?

Answer 25

specific to OR setting

Question 26

Ventilation Associated Lung Injury Examples

Answer 26

volutrauma
barotrauma
atelectrauma
biotrauma

Question 27

Volutrauma

Answer 27

damaged endothelium, decreased surfactant, increased capillary leak

Question 28

Barotrauma

Answer 28

damage from positive pressure effects

Question 29

Atelectrauma

Answer 29

damage from repeated collapse and re-inflation

Question 30

Biotrauma

Answer 30

damage from release of inflammatory mediators

Question 31

Conventional Lung Ventilation includes

Answer 31

strategy that promotes VALI
not individualized
PEEP- 0-5cmH2o
Vt- 10-15m TBW
I:E no greater than 1:2
FiO2- provider preference

Question 32

Lung Protective Ventilation (LPV)

Answer 32

strategy that protects against VALI
individualized to patient and surgery
adjust setting based on: pt monitors and ventilator data

Question 33

LPV Initial Maintenance Settings

Answer 33

Low Vt 6-8ml/kg IBW
minimize FiO2 < 30% of BMI
alveolar recruitment Maneuvers
inspiratory: expiratory (I:E) ration 1:1.5

Question 34

LPV Emergence Settings

Answer 34

FiO2 < 80%
Positive Pressure Ventilation (maintenance of lung volume and must be greater than closing pressure)
Elevate Head of BEd

Question 35

Induction Strategies

Answer 35

Initial FiO2: 100%
elevated HOB >30%
RT> Back up
Tightly sealed face mask- apply CPAP
OPA or NPA as needed

Question 36

Goal of Induction

Answer 36

attenuate anesthesia related changes

Question 37

Goals of Mainteance LPV Sequence

Answer 37

restore lung volume via ARM
maintain lung volume and minimize atelectasis formation (individualize PEEP)
Maximize lung compliance

Question 38

How can you maximize lung compliance during the maintenance phase?

Answer 38

use lowest possible driving pressure

compliance = Vt/change in pressure

Question 39

Initial Setting of TV

Answer 39

6-8ml/kg of IBW

Question 40

Purpose of TV

Answer 40

maintain physiologic tidal volume

Question 41

Maintenance of FiO2 (initial setting)

Answer 41

30%

Question 42

Maintain SpO2 during maintenance phase

Answer 42

> 94%

Question 43

Purpose of Maintenance FiO2

Answer 43

to reduce resorption atelectasis

use SpO2: FiO2 curve as monitor to assess if we are maintaining “open-lung ventilation”

Question 44

Maintenance FiO2

Answer 44

low FiO2 can be used as a surrogate monitor to assess ventilation
at 21% less then 97% we know greater than 10% intrapulmonary shunting is occurring

Question 45

Alveolar Recruitment Maneuvers- initial performance

Answer 45

post intubation

sufficient CPAP to exceed critical opening pressure

Question 46

Purpose of alveolar recruitment

Answer 46

create an open lung state

Question 47

Alveolar recruitment maneuvers

Answer 47

bag squeeze technique

vital capacity maneuvers

Question 48

Bag squeezing technique

Answer 48

arm through ventilator is ideal

APL close need to maintain pressure on bag while you switch to ventilator mode

Question 49

CPAP

Answer 49

VC maneuver
place patient on ventilator
procedure mode where amt of pressure and amt of time set to recruit lung

Question 50

Cycling Maneuver

Answer 50

set inspiratory pressure @ 20cm then and PEEP then slowly decrease PEEP

Question 51

Stepwise Vt changes

Answer 51

set PEEP and increase Pinspiratory circuit then decrease pressure

Question 52

Minimum recruitment pressure required BMI <30

Answer 52

40cmH20

Question 53

Minimum recruitment pressure required BMI 30-40

Answer 53

40-50cmH20

Question 54

Minimum recruitment pressure required BMI 40-50

Answer 54

50-55cmH20

Question 55

Minimum recruitment pressure required BMI >50

Answer 55

50-60cmH20

Question 56

initial setting of PEEP

Answer 56

BMI x 0.3

Question 57

Purpose of PEEP

Answer 57

maintain end expiratory lung volume
reduce ateletasis formation
BMI specific levels of PEEP must be proceeded by ARM
(max starting PEEP is 15)

Question 58

Initial Setting of I:E ratio for BMI < 45

Answer 58

1:1.5

Question 59

initial setting of I:E ratio for BMI > 45

Answer 59

1:1

Question 60

Purpose of setting I:E ratio

Answer 60

reduce airway pressures

increase homogenous ventilation

Question 61

Goals of LPV for Emergence

Answer 61

maintain open lung throughout emergence

minimize anesthesia induced changes during postoperative period

Question 62

Emergence FiO2

Answer 62

Maintain FiO2 < 80 throughout

Question 63

Purpose Emergence FiO2

Answer 63

reduce atelectasis formation

Question 64

Positive Pressure Ventilation

Answer 64

maintains CPAP and PEEP throughout

Question 65

Purpose of PPV

Answer 65

prevent atelectasis formation

maintain open-lung state

Question 66

Purpose of HOB >30

Answer 66

decrease chest wall compression

increase lung compliance

Question 67

Oxygen therapy post-operatively

Answer 67

does everyone need O2?

excessive O2

Question 68

Concerns of excessive O2?

Answer 68

activation of ROS (reactive oxygen species)
peripheral/coronary vasoconstriction
decreased CO
absorption atelectasis

Question 69

What does down trending compliance represent?

Answer 69

poor ventilation of lungs

Question 70

Pressure Volume Loops

Answer 70

assessment of driving pressure
“width of loop”
pressure required to deliver a set volume
want to maximize volume delivered at lowest pressure

Question 71

Flow Volume Loop

Answer 71

representation of expiratory flow

acute angle represents expiratory flow limitation