09: Vent Initiation

Question 1

Clinical goals of CMV

Answer 1

Improve ventilation and oxygenation
Decrease WOB and myocardial work

Question 2

How to achieve CMV goals

Answer 2

Normalize pH
Improve alveolar ventilation
Arterial oxygenation
Increase lung volume

Question 3

Four broad indications for CMV

Answer 3

Apnea
Acute hypercapnic failure
Impending acute ventilator failure
Acute hypoxemia respiratory failure

Question 4

Acute hypercapnic respiratory failure signs

Answer 4

Respiratory acidosis
PaCO2 55 or greater
pH 7.20 or less

Question 5

How to determine impending acute ventilatory failure

Answer 5

Serial ABGs

Question 6

acute hypoxemia respiratory failure signs and systems and disease process this is common in

Answer 6

PaO2 <60
Increased WOB
Inefficient breathing pattern
Common in ARDS

Question 7

Five steps in ventilator commitment

Answer 7

patent airway (artificial aw or ambu)
Stabilize cardio (hypotensive and arrhythmias)
baseline vitals
Respiratory pattern (initial parameters)
Connect pt to vent

Question 8

Effect of peak flow on ventilation and I:E (increasing or too high)

Answer 8

Increasing peak flow -> decreases I time, increases E time, improve venous return
Too high peak flow -> increase PIP, turbulence, but decrease venous return

Question 9

Artificial airway complications/hazards and how to manage

Answer 9

Tube disconnection -> set alarms, ambu bag
Sore throat, edema, etc -> use less than 25-30 mmHg of cuff pressure
Cuff over-inflation -> deflate, reintubate
Loss of cuff seal -> reinflate
VAP -> HOB 30 degrees, oral care, hi-lo eval secretions

Question 10

Machine failure complications/hazards and how to manage

Answer 10

System leak -> locate leak, bag pt
Machine failure -> immediately remove pt from vent

Question 11

Hypotension/hypovalemia in CMV cause of and effect on venous return

Answer 11

Tidal volume >8 ml/kg and pressures >7cmH2O cause decreased venous return

Question 12

Pulmonary barotrauma in CMV complications/hazards, cause of, and what to do if pneumo is suspected

Answer 12

Pneumo, subq emphysema
PIP>50 and/or PEEP >20
Call dr/nurse, needle decompression for tension

Question 13

Atelectasis in CMV: cause of and how to manage

Answer 13

Inefficient tidal volume (keep between 6-8 ml/kg IBW)
Change body positioning
Fluid management

Question 14

Pulmonary infection in CMV:
Cause of
Immunosurpressed?
How to prevent
Signs to look for
Common site?

Answer 14

Direct contact w pt aw
Immunosuppressed? Get sick quick
Aw care/aseptic
Change in sputum
Common site? Headed humidifier

Question 15

GI problems in CMV complications/hazards and how to manage

Answer 15

Acute ulcerations with bleeding -> HOB 30 degrees

Question 16

Renal problems in CMV complications/hazards and how to manage

Answer 16

Fluid retention from increase in ADH
Mgmt: daily kg body wt check

Question 17

O2 toxicity in CMV:
Cause of
Leads to
How to manage

Answer 17

FiO2 > 50% for 24-72 hrs
Absorption atelectasis
Hyaline membrane formation
Mgmt: ween FiO2 to 50% then PEEP

Question 18

Hemodynamic changes in CMV:
Effect on blood flow
Bedside monitor?

Answer 18

L ventricle cannot pump blood to body -> cannot return to R side
Bedside monitor? BP

Question 19

CNS (ICP) in CMV

Answer 19

Increased ICP (NV: 5-15) with PEEP and increased intrathoracic pressure
decreased CO -> decreased Cerebral perfusion -> increased ICP

Question 20

Human error in CMV complications/hazards and how to manage

Answer 20

R main stem intubation
Poor sx technique
Inefficient alarms/parameters

Question 21

Prolonged full ventilatory support in CMV complications/hazards

Answer 21

Atrophy
Fatigue

Question 22

Insufficient alveolar ventilation parameters

Answer 22

PaCO2 >55
pH <7.20

Question 23

Insufficient lung expansion parameters

Answer 23

Vt <5
VC <10
RR <8 or >35

Question 24

Insufficient muscle strength parameters

Answer 24

MIP/NIF > -20
VC <10

Question 25

Increased WOB (labored/distressed)

Answer 25

VE >10
VD/Vt >0.6

Question 26

Hypoxemia parameters

Answer 26

P(A-a)O2 on 100% >350
PaO2/FiO2 <200

Question 27

PIF/NIF tests

Answer 27

Respiratory muscle strength

Question 28

What might prevent improved ventilation in CMV

Answer 28

Severe obstruction
Reduced LC beyond capability of vent (ARDS)

Question 29

As alveolar ventilation decreases, PaCO2

Answer 29

Increases

Question 30

As VA increases, PaCO2

Answer 30

Decreases

Question 31

Alveolar ventilation equation

Answer 31

(Vt - VD) x RR

Question 32

Vd =

Answer 32

1 ml/lb IBW

Question 33

MAP or PAW =

Answer 33

Result of duration and amount of positive pressure in lung

Question 34

Initial vent settings

Answer 34

FiO2: 100%
Mode: Control
Rate: 12-20 or rate needed to correct acidosis/alkalosis
Vt: 6-8 ml/kg IBW

Question 35

How to alleviate cuff leak from severed pilot line

Answer 35

Reinflate w needle

Question 36

O2 toxicity S&S

Answer 36

Nausea
Substernal chest pain

Question 37

Ventilation strategy for increased ICP

Answer 37

Deliberate hyperventilation (PaCO2 30-35) for first 24-48 hrs to decrease swelling and ICP

Question 38

Effect of subnormal workload on respiratory muscle

Answer 38

Atrophy

Question 39

Effect of excessive workload on respiratory muscle

Answer 39

Fatigue

Question 40

NIF normal range

Answer 40

-80 to -100

Question 41

Acute hypoxemic RF ABG

Answer 41

PaO2 <60

Question 42

Hypercapnic respiratory failure ABG

Answer 42

Uncompensated pH
Increased CO2

Question 43

Acute on Chronic hypercapnic respiratory failure

Answer 43

Alveolar hyperventilation

Question 44

CMV effect on WOB

Answer 44

Decreases

Question 45

What effects MAP

Answer 45

PEEP

Question 46

How does air trapping occur in CMV and how does it effect I and e time

Answer 46

Too low of flow -> increase I time decrease E time

Question 47

Airtrapping results in

Answer 47

Decreasing pulmonary capillary blood flow
Increasing risk for barotrauma

Question 48

Positive pressure effect on venous return

Answer 48

Decreases

Question 49

Overly/more compliant lung and PPV

Answer 49

Emphysema
Worsen impact on cardiovascular

Question 50

Stiff lung and PPV

Answer 50

ARDS
Less transmission of pressure, less effect on venous return

Question 51

Kyphoscoliosis and CMV

Answer 51

Rapid transmission of pressures -> decreases venous return

Question 52

Pt fighting ventilator? (Asynchronous)

Answer 52

Increases WOB -> increases intrapulmonary pressures -> decreases venous return

Question 53

Status asthmaticus and circulation effect

Answer 53

No evidence of circulatory depression w high Raw

Question 54

Fatigue in CMV: caused by and leads to

Answer 54

failure to provide adequate vent support or strenuous weaning, leads to hypoventilation/inadequate lung expansion and atelectasis