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Noninvasive Mechanical

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Title: Noninvasive Mechanical

1
Noninvasive Mechanical Ventilation in the ICU
Antalya, Turkey April 2011 Nicholas Hill
MD Tufts Medical Center Boston, MA USA
2
Disclosures

Research Grants
Respironics, Inc
Breathe Technologies, Inc

3
Outline

ICU Applications of NIV
Epidemiology
Main indications
Patient Selection
Practical Application

4
Why Noninvasive Ventilation?

Avoids trauma of intubation
Reduces respiratory infections
More comfortable, less sedation
Less costly
Respiratory System Protective Strategy
Must be used selectively

5
French ICU/ US NIV Utilization
of Pts
Carlucci et al, AJRCCM, 2001 Demoule et al, ICM,
06 Ozsancak et al, Chest 08
6
Use of NIV for COPDMassachusetts and Rhode Island
of Vent starts for COPD exacerbations treated
with NIV
7
Main Indications for Acute Noninvasive
Ventilation (NIV)
Strong (Level A) Acute hypercapnic RF (COPD)
Cardiogenic pulmonary edema ARF in
immunocompromised
8
Physiologic Rationale for NIV in COPD Effect of
Pressure Support plus PEEP
NIV (BiPAP) Combines expiratory (PEEP) with
higher inspiratory pressure (PSV)
9
Benefits of NIV in Acute COPDcompared to
Conventional Rx

More rapidly improves dyspnea
More rapid ? RR, HR,
breathing effort
More rapid ? PaCO2, ? O2
Lowers intubation rate (50?20)
Lowers mortality, morbidity rate
Less time in hospital

Based on 7 RCTs
10
NIV for COPD Risk of Treatment Failure (Death,
ETT, Intolerance)
Lightowler JV, et.al BMJ 326185, 2003
11
NIV for COPD associated with

Difficult weaning (to facilitate extubation)
Pneumonia
Extubation failure
Do-not-intubate status
Post-operative Respiratory Failure

12
NIV for Acute Pulmonary Edema Physiologic
Rationale

CPAP
Increased FRC
Re-expands flooded alveoli
Improved oxygenation
Increased compliance
Afterload reduction - ? cardiac function
Pressure Support
Further reduction in work

13
Meta-analysis CPAP vs NIV for ACPE
Evidence is now robustand use as a first line
intervention is becoming mandatory.
Winck et al, Crit Care 2006 10R69
14
Multicenter RCT of CPE (3CPO)
26 cntrs, RRgt20, pHlt7.35, excl if need for
intervention
NIV(8/4) or CPAP(5) STD n
702 367 Death 7 days () 9.5
9.8 Intubation () 2.9
2.8 MI () 27 24.9 Dyspnea
(analog) -4.6 -3.9 pH (1 hr)
0.11 0.08 RR (1 hr)
-7.2 -7.3
P lt 0.05
Gray et al, NEJM 2008
15
Out-of-Hospital CPAP Vs Usual Care in Acute
Respiratory Failure A RCT
Thompson et al, Ann Emerg Med. 200852232-241
CPAP Control
(10
cm H2O) n 35
34 SaO2 82
75 RR/min 38
38 CHF/COPD/Asthma 99 100
Intubation 7(20)
17(50) Hosp Mortal () 4(14)
12(35)
Plt0.05
16
Indications for Acute NIV
Weaker (Level B) Asthma Extubation
failure(COPD) Hypoxemic Respiratory
Failure Postoperative Respiratory
Failure Do-not-intubate pts (COPD and CHF)
17
RCT of NPPV for Asthma Exacerbations

NPPV Sham
n 17 16
FEV1 () 37.3 33.8
50 FEV1 (1h) 80 20
? FEV1 (1h) 53.5 28.5
Hospitalized 3 (17.6) 10 (63.5)
Soroksky et al, Chest 2003 1231018.

18
Use of NIV as Bronchodilator
? FEV1
8/6 cm H2O 6/4 cm H2O O2 by FM
44 asthmatics, FEV1 33 P 80-90, RR 20 3 Groups,
High, Low and O2 ctls for 1hr Hydrocort BUT
NO BDs!
Soma T et al, Intern Med 08
19
NIV for Asthma

Used for pts with status asthmaticus severe
and refractory to treatment
May combine with continuous neb and heliox
(anecdotal evidence)
Monitor very closely
? Role early for bronchodilator effect and to
reduce dyspnea more rapidly?

20
Selection Criteria in Trials to
Prevent Extubation Failure

NIV for Extubation Failure
2004 trial - no reduction in reintub-
ations and ? mortality in NIV group
-Esteban et al, NEJM 04
Recent RCT showed ? resp failure and
? 90 d mortality in hypercapnics on NIV
-Ferrer et al, Lancet 09
Dont delay needed intubation!

Nava
PaCO2gt45,
MVgt72h
gt1 failed weaning attempt
excess secretions
upper airway disorder

Esteban
PaCO2 gt 45
MVgt48h
Resp muscle fatigue RR gt 25
pH lt 7.35
O2sat lt 90, PaO2 lt 80

Ferrer Age gt 65, CHF, APACHE score gt 12
21
Acute Hypoxemic Respiratory Failure

Italian multicenter study of 354 NIV cases, 30
failures 50 ARDS or CAP, 10
cardiogenic pulmonary edema
Condition Odds Ratio
ARDS or Comm Acq Pna 3.75
PaO2FIO2 ? 146 p 1st hr 2.51
SAPS II ? 35 1.81
Age gt 40 1.72

PaO2/FIO2 lt 200 Resp Distress, RR gt
30-35 Non-COPD dx Pneumonia (incl
immunosuppr) ARDS Trauma Cardiogenic Pulm
Edema
Antonelli et al, Int Care Med 2001 271718
22
Hypoxemic Respiratory FailureNIV as First
Line Therapy in ARDS

147 pts eligible of 479 (332 intubated), had
dyspnea, RR gt 30 and 2 new organ failures
54 avoided intubation (15 of Total)
VAP rate 2 vs 20, mortality 6 vs 53
Success more likely if SAPS II 34 and PaO2/FIO2
gt 175 p 1st hr of NIV therapy

Antonelli et al, CCM, 2006
23
NIV for Do-not-intubate pts

75 and 50 of Pulmonary Edema and COPD pts,
respectively, survive hospital
Roughly 25 of pneumonia and cancer pts survive
hospital
If can awaken and cough, survival better
Two main goals must be clear
Treat respiratory failure (CHF COPD)
Palliate for dyspnea or transient life
prolongation

Levy et al, Crit Care Med 2004 322002
24
RCTs of Noninvasive Techniques for Postoperative
Patients

For Prophylaxis
Thoracoabdominal vascular (CPAP)
Kindgren-Milles et al, Chest 06
Bariatric surgery (NIV)
Joris Chest 97
Major abd surgery (CPAP)
Squadrone JAMA 05
For Resp Failure
Lung resection (NIV)
Auriant et al, AJRCCM 01

25
Non-invasive ventilation reduces intubation in
chest-trauma related hypoxemia A RCT
Hernandez et al, Chest 2010 13774-80
NPPV Control n 25
25 PaO2/FIO2 108
110 APACHE II 17.5
14.1 Intubation 3(12) 10(40)
Exhaustion 2(8) 6(24) VAP 2(8)
3(12) Hosp LOS (days) 14
21 Hosp Mortal () 1(4) 1(4)
Plt0.05
26
Non-invasive ventilation reduces intubation in
chest-trauma related hypoxemia An RCT
Hernandez et al, Chest 2010 13774-80
(P lt 0.05)
Plt0.05
27
Use Selectively and with Caution
Neuromuscular Disease Obesity
Hypoventilation Upper Airway Obstruction Not to
be used ARDS with MODS
Pulmonary Fibrosis
28
NIV Practical Application

Patient Selection
Favorable Diagnosis (reversibility COPD, CHF)
Need for ventilatory assistance
Absence of contraindications

29
Step 1 Is there need for Ventilatory Assistance?
When clinical features reveal Dyspnea is at
least moderate Respiratory rate gt 24 (COPD), gt30
(hypoxemic) Accessory muscle use Abdominal
paradox Gas exchange abnormalities PaCO2 gt 45 mm
Hg, pH lt 7.35 PaO2/FIO2 lt 300
Likelihood of needing intubation 50 Window of
Opportunity
30
Step 2 Are there contraindications to NIV?
The Patient is Apneic (arresting) Medically
unstable (shock, acute MI or upper GI
bleed) Agitated and uncooperative (but ? CO2 coma
OK!) Unable to clear secretions Severely
hypoxemic (PaO2/FIO2 lt 75) Or has Multiorgan
failure
31
Forehead Adjuster
32
ORONASAL VS NASAL MASK
FOR ARF
(Kwok et al, Crit Care Med 2003 31468)
Oronasal
Nasal

P value
n
35
35

Success
23 (66)
17 (49) 0.15
Intolerance
4 (11)
12 (34) 0.02
Intubation
8 (23)
8 (23) 1.00
Mortality
2 (6)
4 (11) 0.40
33
(No Transcript)
34
Newer Developments in Mask Technology
35
Helmet
Mainly for CPAP High flow to minimize
rebreathing Noisy and expensive Not approved by
FDA for NIV
36
Bilevel Vents for Acute Applications (80 US)
NIV modes on Critical Care Vents Leak
compensation Adjustable Rise Time Inspiratory
Time Limit Silence nuisance alarms Need
adjustments if leaks Ferreira, Chest 09
37
Ventilator NIV or Crit Care, But Use the
Right Settings!

Mode Bilevel or NIV mode (PSPEEP)
Settings start low (IPAP 8-10, EPAP 4-5 cm H20),
then readjust promptly to achieve adequate ? (PS
gt 8-10 cm)
IPAP titration Relief of respiratory distress vs
intolerance of higher pressures (max 20 cm H2O)
EPAP titration counterbalance auto-PEEP, improve
oxygenation (max 8-10 cm H2O)
FIO2/O2 flow adjusted to maintain O2satgt90-92

38
Monitoring NPPV