Non invasive ventilation
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Nov 10, 2012
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About This Presentation
Non-invasive ventilation
Slide Content
NON-INVASIVE VENTILATION
Objectives:
•Definitions
•Advantages and Disadvantages
•Indications
•Contraindications
•Modes
•Definitions
•Advantages and Disadvantages
•Indications
•Contraindications
•Modes
Non-invasive ventilation
“The delivery of mechanical ventilation to the lungs
using techniques that do not require endotracheal
intubation”
“The delivery of mechanical ventilation to the lungs
using techniques that do not require endotracheal
intubation”
Background
•Initially used in the treatment of hypoventilation
with Neuromuscular Disease
•Now accepted modality in treatment of acute
respiratory failure
•Initially used in the treatment of hypoventilation
with Neuromuscular Disease
•Now accepted modality in treatment of acute
respiratory failure
Respiratory mechanics
•Respiratory effort required for inspiration needs
to overcome
–Elastic work (stretch)
–Flow resistance work ( airway obstruction)
•Respiratory failure – forces opposing inspiration
exceed respiratory muscle effort
•Respiratory effort required for inspiration needs
to overcome
–Elastic work (stretch)
–Flow resistance work ( airway obstruction)
•Respiratory failure – forces opposing inspiration
exceed respiratory muscle effort
Respiratory failure
Failure to maintain adequate gas exchange
•Hypoxic ( Type 1)
or
Hypercapnic /Hypoxic (Type 2)
•Acute /Chronic / Acute on Chronic
Failure to maintain adequate gas exchange
•Hypoxic ( Type 1)
or
Hypercapnic /Hypoxic (Type 2)
•Acute /Chronic / Acute on Chronic
Effects of NIV
•Improves alveolar ventilation to reverse
respiratory acidosis and hypercarbia
•Recruits alveoli and increases FRC to reverse
hypoxia
•Reduces work of breathing
•Improves alveolar ventilation to reverse
respiratory acidosis and hypercarbia
•Recruits alveoli and increases FRC to reverse
hypoxia
•Reduces work of breathing
Advantages
Noninvasiveness
•Application - easy to implement or remove
•Improves patient comfort
•Reduces the need for sedation
•Oral patency
(preserves speech, swallowing, and cough)
Noninvasiveness
•Application - easy to implement or remove
•Improves patient comfort
•Reduces the need for sedation
•Oral patency
(preserves speech, swallowing, and cough)
Advantages 2
•Avoid the resistive work of ETT
•Avoids the complications of ETT
–Early (local trauma, aspiration)
–Late (injury to the the hypopharynx, larynx,
and trachea, nosocomial infections)
•Reduced Cost and Length of Stay
•Avoid the resistive work of ETT
•Avoids the complications of ETT
–Early (local trauma, aspiration)
–Late (injury to the the hypopharynx, larynx,
and trachea, nosocomial infections)
•Reduced Cost and Length of Stay
Disadvantages
1.System
Slower correction of gas exchange abnormalities
Gastric distension (occurs in <2% patients)
2.Mask
Air leakage
Eye irritation
Facial skin necrosis (most common complication)
1.System
Slower correction of gas exchange abnormalities
Gastric distension (occurs in <2% patients)
2.Mask
Air leakage
Eye irritation
Facial skin necrosis (most common complication)
Disadvantages
3.Lack of airway access and protection
Suctioning of secretions
Aspiration
4. Compliance / claustrophobia
5. Work load and supervision
3.Lack of airway access and protection
Suctioning of secretions
Aspiration
4. Compliance / claustrophobia
5. Work load and supervision
Which mode?
•Hypoxaemia = CPAP
•Hypercapnia and hypoxaemia= Bi Level
•Hypoxaemia = CPAP
•Hypercapnia and hypoxaemia= Bi Level
CPAP
CONTINUOUS POSITIVE AIRWAY PRESSURE (AKA PEEP)
•Constant positive airway pressure throughout cycle
•Improves oxygenation
•Decreases work of breathing by alveolar recruitment (Dec
elastic work) and unloads insp muscles
•Decreases hypoxia by alveolar recruitment and reduces
intrapulmonary shunt
CONTINUOUS POSITIVE AIRWAY PRESSURE (AKA PEEP)
•Constant positive airway pressure throughout cycle
•Improves oxygenation
•Decreases work of breathing by alveolar recruitment (Dec
elastic work) and unloads insp muscles
•Decreases hypoxia by alveolar recruitment and reduces
intrapulmonary shunt
Indications
•Acute pulmonary oedema
•Pneumonia
•Acute pulmonary oedema
•Pneumonia
Bi-level Pressure Support
•Combination of IPAP and EPAP
Inspiratory PAP = Pressure Support
Expiratory PAP = CPAP
•Combination of IPAP and EPAP
Inspiratory PAP = Pressure Support
Expiratory PAP = CPAP
Respiratory Effects Bi-PAP
•EPAP
–Provides PEEP
–Increases Functional Residual Capacity
–Reduces FiO
2
required to optimise SaO
2
•IPAP
–Decreases work of breathing + oxygen demand
–Increases spontaneous tidal volume
–Decreases spontaneous respiratory rate
•EPAP
–Provides PEEP
–Increases Functional Residual Capacity
–Reduces FiO
2
required to optimise SaO
2
•IPAP
–Decreases work of breathing + oxygen demand
–Increases spontaneous tidal volume
–Decreases spontaneous respiratory rate
Indications for Bi Level
•Acute Respiratory Failure
•Chronic Airway Limitation/COPD
•Asthma?
•Acute Respiratory Failure
•Chronic Airway Limitation/COPD
•Asthma?
When to use NIV/CPAP
•Indication: APO, COAD
•Contraindications excluded
•Assessment
–Sick not moribund
–Able to protect airway
–Conscious/cooperative
–Haemodynamic stability
•Premorbid state / Ceiling of therapy?
•Indication: APO, COAD
•Contraindications excluded
•Assessment
–Sick not moribund
–Able to protect airway
–Conscious/cooperative
–Haemodynamic stability
•Premorbid state / Ceiling of therapy?
Contraindications
•Impaired consciousness, confusion, agitation
•Inability to protect airway
•Excessive secretions or vomiting
•Haemodynamic instability
•Untreated pneumothorax
•Bowel obstruction
•Facial trauma, burns, recent surgery
•Fixed upper airway obstruction
•Impaired consciousness, confusion, agitation
•Inability to protect airway
•Excessive secretions or vomiting
•Haemodynamic instability
•Untreated pneumothorax
•Bowel obstruction
•Facial trauma, burns, recent surgery
•Fixed upper airway obstruction
Complications
•Hypoxia
•Pulmonary barotrauma
•Reduced cardiac output
•Vomiting and aspiration
•Pressure areas
•Gastric distension
•Hypoxia
•Pulmonary barotrauma
•Reduced cardiac output
•Vomiting and aspiration
•Pressure areas
•Gastric distension
Ventilator Settings- LVF
•CPAP at 5-8 and increase to 10-15 cm H
2
0
•Mask is held gently on patient’s face.
•Increase the pressures until adequate Vt
(7ml/kg), RR<25/min, and patient comfortable.
•Titrate FiO2 to achieve SpO2>90%.
•Keep peak pressure <25-30 cm
•CPAP at 5-8 and increase to 10-15 cm H
2
0
•Mask is held gently on patient’s face.
•Increase the pressures until adequate Vt
(7ml/kg), RR<25/min, and patient comfortable.
•Titrate FiO2 to achieve SpO2>90%.
•Keep peak pressure <25-30 cm
COAD exacerbation: NIV
•increases pH, reduces PaCO2, reduces the
severity of breathlessness in first 4 h of
treatment
•decreases the length of hospital stay
•mortality and intubation rates are reduced
•increases pH, reduces PaCO2, reduces the
severity of breathlessness in first 4 h of
treatment
•decreases the length of hospital stay
•mortality and intubation rates are reduced
Ventilator settings COAD
•Mode- Spontaneous/Timed
•EPAP- 4-5 cm H20 IPAP- 12- 15 cm H20
•Trigger- maximum sensitivity
•Back up rate- 15 breaths/min
•Back up I:E 1:3
•Mode- Spontaneous/Timed
•EPAP- 4-5 cm H20 IPAP- 12- 15 cm H20
•Trigger- maximum sensitivity
•Back up rate- 15 breaths/min
•Back up I:E 1:3
Setting It Up
•No contraindications
•O
2
\ medical therapy underway
•Explanation and reassurance
•Correct mask size
•Ventilator set up
•Commence NIV hold mask in place
•Reassure and fix mask
•Monitor and observe, regular assessment
•No contraindications
•O
2
\ medical therapy underway
•Explanation and reassurance
•Correct mask size
•Ventilator set up
•Commence NIV hold mask in place
•Reassure and fix mask
•Monitor and observe, regular assessment
Monitoring response
Physiological
a) Continuous oximetry
b) Exhaled tidal volume
c) ABG- Initial, 1, 2-6 hrs
Objective
a) Respiratory rate
b) Chest wall movement
c) Coordination of respiratory effort with NIV
d) Accessory muscle use
e) HR and BP
f) Mental state
Subjective
a) Dyspnoea
b) Comfort
Physiological
a) Continuous oximetry
b) Exhaled tidal volume
c) ABG- Initial, 1, 2-6 hrs
Objective
a) Respiratory rate
b) Chest wall movement
c) Coordination of respiratory effort with NIV
d) Accessory muscle use
e) HR and BP
f) Mental state
Subjective
a) Dyspnoea
b) Comfort
Documentation
•Mode of ventilation
•Flow rate of oxygen, percentage of oxygen
•TPR and BP
•Respiratory assessment
•Conscious level (GCS)
Obs - 15 minutely for first hour, then hourly if condition stable
•Mode of ventilation
•Flow rate of oxygen, percentage of oxygen
•TPR and BP
•Respiratory assessment
•Conscious level (GCS)
Obs - 15 minutely for first hour, then hourly if condition stable
Treatment Failure
•Deterioration in condition
•Worsening or non improving ABG
•Intolerance or failure to coordinate with machine
•Deterioration in condition
•Worsening or non improving ABG
•Intolerance or failure to coordinate with machine
Treatment Failure
•Back to the patient- ABC
•Medical therapy optimised
•Treatment of complications
•Back to the patient- ABC
•Medical therapy optimised
•Treatment of complications
Criteria to discontinue NIV
•Inability to tolerate the mask
•Inability to improve gas exchange or dyspnoea
•Need for endotracheal intubation
•Hemodynamic instability
•ECG – ischaemia/arrhythmia
•Inability to tolerate the mask
•Inability to improve gas exchange or dyspnoea
•Need for endotracheal intubation
•Hemodynamic instability
•ECG – ischaemia/arrhythmia
Withdrawal of NIV
•Clinical improvement
•Aim for
–RR<24
–HR <110
–pH>7.35
–Sats >90% on <40%
•Clinical improvement
•Aim for
–RR<24
–HR <110
–pH>7.35
–Sats >90% on <40%
Most important THPs
•Selection of patient really vital to success - need
to have reversible pathology
•Aim for gradual improvement over hours with
good supportive nursing
•In ED, main use is to avoid intubation /
ventilation in LVF and COAD
•Selection of patient really vital to success - need
to have reversible pathology
•Aim for gradual improvement over hours with
good supportive nursing
•In ED, main use is to avoid intubation /
ventilation in LVF and COAD
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