Mech Vent and Anesthesia

Question 1

Pleural pressure surrogate

Answer 1

Esophageal pressure

• target Pes < 25cm/H2O
• Calculate by subtracting Pes from inspiratory hold on LTV

Question 2

Ways to improve oxygenation:

Answer 2

• Increase FiO2
• Increase PEEP
• Paralyze patient
• Pressure control (square waveform)
• Lengthen I-time (inverse ratio)
• Recruitment maneuver
• Prone positioning
• Don’t forget to consider a fluid bolus to improve West Zone physiology

Question 3

Low Pressure Alarm

Answer 3

Not enough Pip was created to hit the low pressure limit (usually set 5cm/H2O above PEEP). Check for…

• Leak in the circuit/disconnect
• ETT cuff deflation
• ETT displacement

Question 4

High Pressure Alarm

Answer 4

Could mean increased resistance or worsened compliance. Check for…

• ETT secretions/foreign body
• Patient biting on tube
• Bronchospasm/constriction
• Patient airway mal-alignment
• Decreased lung compliance (edema, fibrosis, pneumonia)
• Decreased thoracic compliance (burns, MSK trauma)
• Kinked circuit
• Patient dysynchrony

Question 5

LTV weight ranges

Answer 5

• Neonates: 5-10kg
• Pediatric: 10-40kg
• Adult: 40kg +

Question 6

Describe Lung Compliance…

Answer 6

• Change in pressure divided by change in volume
• If a lot of pressure is required for not a big change in volume, you have a non-compliant lung.
• Can relate to inner (lung) and outer (MSK, integuementry, abdomen)

Question 7

Describe the resistance/compliance relationship…

Answer 7

Resistance is the force that needs to be overcome to get air into the alveoli. Once air gets into the alveoli, compliance is the force that needs to be overcome to inflate them.

Question 8

What factors adjust the I:E ratio?

Answer 8

Resp rate

I-time

Question 9

What is the ideal vCalc and what factors influence it?

Answer 9

50-60lpm

I-time and tidal volume

Question 10

What contributes to autoPEEP?

Answer 10

• Increased RR (not enough time to exhale)
• Minute volumes are too high
• Bronchospasm
• ETT too small
• Mucus plug in ETT

Question 11

What are the three breath types?

Answer 11

• Machine (control)
• Assisted (pressure support, BPAP, ACV, SIMV)
• Patient (SIMV, CPAP)

Question 12

Ventilator dyssynchrony is associated with badness. What is it and how do you go about addressing it?

Answer 12

Dyssynchrony is associated with ALI, respiratory fatigue (increased VO2) and a longer duration of mechanical ventilation. Increasing sedation to make the patient more compliant will also possibly lead to ICU delirium. Look for what the patient needs and give it to them. That being said, if you have too much other shit going on, paralyze the patient and get things under control before you go about fine tuning the vent.

Question 13

Discuss Pip

Answer 13

• Highest pressure measured during the respiratory cycle

- Is a function of both resistance and compliance of the respiratory system

Question 14

Discuss Pplat…

Answer 14

• Measured during a no-flow state at the end of inspiration

- Reflects static compliance of the respiratory system including the lung parenchyma, chest wall and abdomen

Question 15

What does an increased Pip with a wide delta P (Pip- Pplat) indicate?

Answer 15

• Increased airway resistance

- Check for secretions/mucus plug, kinked circuit, bronchospasm, biting, tube position

Question 16

What does an increased Pip and increased Pplat with a normal or narrow delta P signify?

Answer 16

• Suggest a worsening respiratory system compliance

- Check for right main stem, pneumothorax, atelectasis, pneumonia, ACS, edema, DOPES…

Question 17

What is bias flow?

Answer 17

Flow within the circuit (usually 10lpm) that senses a patient breath (usually at 2lpm) and triggers the ventilator.

Question 18

Common complications of mechanical ventilation…

Answer 18

• Diminished cardiac output (IVC compression)
• Increased right sided afterload (pulmonary vasculature compression)
• Pulmonary barotrauma/volutrauma (pneumothorax)
• VALI/ARDS
• AutoPEEP
• Elevated ICP
• VAP
• Pressure ulcerations

Question 19

Considerations for venting a TBI

Answer 19

• There will be reduced ICP drainage

- Don’t let the patient become hypercapnic (target paCO2 to 35-40mm/Hg)

Question 20

Ways to reduce VAP

Answer 20

• HOB at 30 degrees
• Swap out HME filters
• Ensure proper ETT cuff inflation

Question 21

Ventilation strategies for obstructive pulmonary disease…

Answer 21

• vCalc of 80-100lpm
• I:E of at least 1:3
• 10 to 14 frequency (monitor EtCO2 waveform)
• Keep tidal volumes below 8mL/kg
• Allow permissive hypercapnia; target pH instead
• Keep Pplat <30cm/H20
• Monitor autoPEEP carefully
• Suction, larger ETT, bronchodilators, take off vent, reduce demand)

Question 22

Target PaCO2 for elevated ICP? For herniation?

Answer 22

Increased ICP: 35 to 40mm/Hg

Herniation: 30 to 35mm/Hg

Question 23

Effects of ACS on lungs

Answer 23

• Compresses lung parenchyma, reduces surface area
• Increases intrapulmonary shunt fraction
• Increases alveolar deadspace
• Will require higher Pips, MAP and Pplat (consider permissive hypercapnia)

Question 24

DOPES for acute MV decompensation:

Answer 24

• Displaced ETT
• Obstructed ETT
• Pneumothorax
• Equipment failure
• Stacked breaths

Question 25

Correct autoPEEP

Answer 25

• Change vent settings (increase vCalc, decrease rate, decrease TV)
• Reduce ventilator demand (treat fever, pain, anxiety)
• Reduce airway resistance (suction ETT, bronchodilators, larger ETT)
• Take circuit off of patient and let them fully exhale over an uncomfortably long period of time.

Question 26

Effects of PPV on hemodynamics

Answer 26

• Increased intrathoracic pressure decreases preload.
• Alveolar over-inflation compresses pulmonary vascular bed, increasing PVR and reducing RV output.
• Increased PVR causes intraventricular septal shift which impairs diastolic filling and reduces CO of LV.
• Reduced afterload due to improved pressure difference in LaPlace’s law. Decreased wall tension = decreased MVO2.

Question 27

Effects of PPV on neurological system…

Answer 27

• Can cause hyperemia/increased ICP by inhibiting cerebral drainage
• pH affects vascularity and cerebral blood flow.
• Changes in cerebral pH could affect respiratory center in brainstem.

Question 28

Effects of PPV on respiratory system…

Answer 28

• Trauma (barotrauma, volutrauma, biotrauma, sheer trauma)

- Over-inflation of alveoli will compress blood vessels and cause VQ mismatch/shunt

Question 29

Effects of PPV of GI/GU…

Answer 29

• GI bleeding from stress ulcerations
• Impaired renal blood flow and possible AKI due to decreased CO (pre-renal failure)
• Gut ischemia causes translocation of bacteria
• Liver dysfunction (decreased oncotic pressure, decreased coagulation)

Question 30

Effects of PPV on immune system…

Answer 30

• Induces pulmonary inflammation

- Translocation of tracheal bacteria into bloodstream

Question 31

Equation of Motion

Answer 31

P(mus) + P(vent) = V/C + (Raw x flow)

Question 32

Setting alarm parameters on LTV 1200

Answer 32

High Pressure: 10cm/H2O above set Pip
Low Pressure: 5cm/H2O above PEEP
Low Minute Volume: 10% below minute volume.

Question 33

Low minute volume alarm

Answer 33

• Breathstacking
• Cuff leak
• Leak in circuit/disconnect
• Decreased lung compliance in PC mode

Question 34

Turn on CPAP mode

Answer 34

Toggle CPAP/SIMV
Dial breath rate to –
Dial in PEEP from 0-20cm/H2O and pressure support to –

Question 35

Describe the apnea back up ventilation mode (pressure support, CPAP)

Answer 35

• After 20 seconds of apnea, the ventilator will start ventilating at the preset breath rate, or at least 12 breaths if nothing programmed.
• Mode shuts off after 2 consecutive patient breaths or when alarm silenced.

Question 36

How long does an alarm stay silenced for after hitting silence once?

Answer 36

60 seconds. It needs to be tapped twice to shut it off.

Question 37

List the three ways a ventilator breath is cycled (switches from inspiration to expiration).

Answer 37

Time
Pressure
Volume

Question 38

Minimum I-time on LTV 1200

Answer 38

300ms

Question 39

You have an LTV 1200 with pressure control of 20cm/H2O and a PEEP of 10cm/H2O. What’s your Pip and delta P?

Answer 39

Pip: 30cm/H2O

Delta P: 20cm/H2O

Question 40

Battery phases of LTV 1200

Answer 40

“Bat Low” light is amber. You have 10 minutes until the light turns red, alarm constantly sounds “Bat Empty” and then you only have approximately 5 minutes until the ventilator turns off.

Consider even less time if settings are high or patient dysynchrony.

Question 41

What’s the difference between CPAP and NIPPV?

Answer 41

CPAP is for intubated patients breathing on their own. NIPPV is for masks and accounts for greater degree of air leakage.

Question 42

Low PEEP alarm

Answer 42

Patient continues to breathe in after the ventilator cycles into exhale mode, thereby creating a negative pressure in the circuit and reducing the PEEP.
-Check ventilator settings and consider increasing tidal volume/pressure.

Question 43

What does holding the FiO2 button down for 3 seconds do?

Answer 43

Provides 100% oxygen for 60 seconds

Question 44

The LTV can handle oxygen pressures of 35-85 psi. If you need to deliver oxygen at a lower pressure, what must you change on the machine?

Answer 44

“Low Oxygen Pressure”

*Use a tubing nipple and screw it onto the high pressure valve.

Question 45

What does a sustained “HIGH PRES” alarm indicate?

Answer 45

High pressures have been hit 4 x the set I-time. LTV will dump turbine and you need to BVM patient.

Question 46

What three buttons are still active in control lock mode?

Answer 46

• Select
• Silence
• Manual breath

Question 47

High PEEP alarm

Answer 47

Patient is forcing out more on exhalation.
Default setting in extended features is +5cm/H2O
-breath stacking
-kinked circuit
-adjusted PEEP valve on circuit
-kinked exhalation port

Question 48

Is the LTV 1200 and open or closed loop circuit?

Answer 48

Open loop.
Even though it will dump a breath in the setting of a high pressure alarm, it doesn’t take fine inputs from the patient and modify its outputs.

Question 49

Dr. Vu’s goals of mechanical ventilation:

There’s nothing good about putting someone on a ventilator

Answer 49

1. Oxygenate adequately
2. Ventilate appropriately
3. Optimize pH

Question 50

True or False: Decreasing respiration rate will blow off more CO2 in an air trapping patient?

Answer 50

True and False. It depends on their level of autoPEEP.

Question 51

Compare Pra and right sided heart functions in PPV vs spontaneous breathing patients:

Answer 51

-PPV increases right atrial pressure (Pra) which decreases flow to RA which decreases RV preload and CO. It’s the opposite in spontaneous breathing patients.

Question 52

Nine measurements you should always monitor to help confirm you’ve picked the right ventilation strategy.

Answer 52

• Tv
• RR
• I:E
• MAP
• Pip
• PEEP
• Flow
• VE
• EtCO2

Question 53

How does increasing the PEEP actually reduce the Pplat in some patients?

Answer 53

Recruitment maneuvers and increasing PEEP can recruit atelectic lung tissue and improve lung compliance. This will decrease intrathoracic pressures and lower Pplats.

Question 54

What gives you more time under the curve: Volume or pressure mode?

Answer 54

Pressure mode has a square waveform which allows for better oxygenation. It also dissipates pressure evenly throughout the alveoli

Question 55

You’ve successfully recruited lung tissue in an ARDS patient. Now you need to suction their airway. What must you be aware of?

Answer 55

Suctioning will potentially collapse their PEEP so you may need to do a lung recruitment maneuver after the suction.

Question 56

5 prerequisites for NIPPV

Answer 56

• Conscious and spontaneously breathing
• Protecting their airway
• Managing their secretions
• Appropriate seal
• Physiology to support it
• Can they handle it for the duration of flight and be in a comfortable position?

Question 57

What is the P:F ratio?

Answer 57

Divide the patient's PaO2 by the FiO2 they are receiving.
Normal: 400-500
Mild: <300
Moderate: <200
Severe: <100

Question 58

Primary goal of any good ICU according to Vu.

Answer 58

End organ oxygen delivery

Question 59

Management of laryngospasm:

Answer 59

• Tight fitting mask with high flow O2
• Gentle BVM with high PEEP
• Suction any noxious substances from oropharynx
• Paralyze if necessary

Question 60

Broadly speaking, there are two body systems that can be responsible for respiratory insufficiency:

Answer 60

CNS

Pulmonary System

Question 61

The LTV 1200 has a max minute volume. What happens if you suspect the patient has a higher MV than the machine can handle such as a DKA patient?

Answer 61

Avoid paralyzingly patient and see if pressure support will work.

Question 62

List 4 causes of hypotension following induction:

Answer 62

• SNS ablation from sedatives
• PPV compression of vasculature
• Myocardial depressant and vasodilatory action of drugs
• Patient could be catecholamine deplete

Question 63

Kinda left field approach to inducing a TBI or aortic stenosis patient…

Answer 63

1% Xylocaine @ 1mg/kg

Question 64

What’s your induction plan for sick cardiac patients:

Answer 64

Low dose ketamine (30mg) with high dose fentanyl (+1.5mcg/kg). Then use ketamine/midazolam for maintenance.

*Remember that time of onset of induction agents will be delayed if cardiac output is reduced.

Question 65

When topicalizing an airway, what three areas do you want to target?

Answer 65

• Base of tongue
• Tonsilar pillars
• Valecullar folds

Question 66

Infusion of choice for the crashing patient…

Answer 66

Give ‘em the Epi!

Question 68

Two leading causes of cardiac arrest during peri-intubation

Answer 68

Hypoxia

Hypotension

Question 69

Describe your approach to intubating a critically ill patient (no pulmonary hypertension)

Answer 69

• NODESAT
• Get an arterial line
• Start Levophed
• Give 1L of crystaloid
• Provide an increased PEEP if BVMing, or BiPAP
• Consider NaHCO3- if K+ is already elevated

Question 70

How do you calculate if you have recruitable lung tissue using an esophageal balloon?

Answer 70

Calculate your transpulmoanry PEEP (TPPEEP). The value should be 0-10. Anything less than 0 is sheer trauma. Anything greater than 10 is baro/volutrauma.

TPPEEP = LTV set PEEP - (Esophageal PEEP on exp. hold x 1.3)

Question 71

Two causes for a large delta CO2:

Answer 71

1. PE

2. Cardiogenic shock

Question 72

Calculate safe plateau pressures using an esophageal balloon:

Answer 72

TPP = LTV Inspiratory hold - (Esophageal balloon pressure on inspiratory hold x 1.3)

Safe plateau pressures with esophageal balloon = <25

*Pt must be paralyzed and on volume control.

Question 73

How is it possible that increasing PEEP leads to a worsening of PaO2?

Answer 73

If you add too much PEEP, you can turn WZ II, III physiology into WZ I due to overinflated alveoli and vasculature compression.
Drop an esophageal balloon and titrate PEEP accordingly. You can also try a fluid bolus if supine positioning improves SpO2.

Question 74

How do you calculate the PAO2?

Answer 74

PAO2 = FiO2 (PB - H2O) - (PaCO2/r)
PB = Barometric pressure (usually 760)
H2O = Water vapour (47)
r = Coefficient (.8)

PAO2 = .21(760-47) - (40/0.8)
PAO2 = 100

Question 75

How do you perform a recruitment maneuver?

Answer 75

• Paralyze
• Switch to pressure control
• Prolong I time
• Increase PEEP + PiP to 40 for three breaths
• Clamp tube on end-inspiration and hold for 40 seconds
• Dial in new vent settings with increased PEEP.
• Monitor VTe for improvement.

Question 76

Calculate PPlat

Answer 76

VTE/Static Compliance = Driving Pressure

Driving Pressure + Total PEEP = PPLAT (+/- 2)

Question 77

How does static compliance relate to tidal volume?

Answer 77

If static compliance is 23, then you will get 23mL of air per 1 cm/H2O of Pip (under normal lung compliance)