chronic respiratory failure 1
TRANSCRIPT
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Chronic respiratory failure
SAMIR EL ANSARY
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ACUTE RESPIRATORYFAILURE
ALI
ARDS
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Does the actual
diagnosis matter?
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Exacerbations of COADoptimal mode of ventilation?
Aim to balance
Treatment of hypoxaemia
Treatment of hypercapnia
Unloading respiratory muscles
Managing auto-PEEP
Managing atelectasis
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Normalisation of milieu
Target is normalising
blood gases for that patient
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Two principles of ‘conventional’ ventilation
1. Lung protection
2. Lung recruitment
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Independent lung ventilation
Maintaining spontaneous ventilation
High frequency ventilation
Continuous positioning therapy
Prone positioning
ECMO
iNO
Partial liquid ventilation
Nebulised prostacyclin
Surfactant
Anti-inflammatory agents
Anti-oxidants
iLA
i v salbutamol
Carbon monoxide
etc
etc
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RespirationCombination of ventilation and perfusion
Separate out the ventilation (air in and out) component usually and treat just that.
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Respiratory failure
Components
1. Mechanical
2. Lack of functional lung tissue
3. Lack of blood supply
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Respiratory Failure: Adjunctive treatment making ventilatory support more effective
• NO
• Inhaled epoprostenol
Improve ventilation- perfusion matching by dilating arterioles in ventilated alveoli
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Respiratory Failure: Treatment recruiting functional but
non-functioning lung
•Pronation
•HFOV
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HFOV• High frequency (3-15Hz) oscillation
• Ventilation (1-4 ml / kg)
Theoretically meets goals of protective ventilation and maintains constant lung recruitment.
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And...
Hypercapnia is almost inevitable....hypoxia may not improve
There may not be recruitable lung tissue
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Lung Replacement
• Temporary
- NOVA lung
- ECMO
• Semi-permanent
• Permanent
- Transplant
- Stem cell therapy
- Biolung
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Two variables:Sweep gas flow controls CO2 removalBlood flow controls oxygenation
(MAP & cannula size)
NovalungmembraneCannula in
Femoral artery
Cannula inFemoral vein
Flow monitor
Sweep gas O2
•High CO2 gradient between blood and sweep gas allows diffusion across the membrane, allowing efficient CO2
removal
•Oxygenation limited due to arterial inflow•Low resistance to blood flow (7mmHg at 1.5l /minute) allowing the heart to be the pump for the device•Heparin coated biocompatible surface
NovaLung function
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FUNCTION
Blood in Blood out
Deairing
Distribution chamber
Gas in
Gas out
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Novalung as bridge to transplant
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ECMO
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Basically extended CPB
Blood drained from body
Blood circulated through an oxygenator (can be membrane diffusor or bubble)
Pumped back to body
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ECMO
VV ECMO
VA ECMO
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ECMO
Blood pumped back to Body
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In parallel
Allows oxygenation as receives deoxygenated blood
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Novalung x 2 plumbed from pulmonary artery and back to Left atria
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No sieving out of thrombi
In parallel, low resistanceso receives most blood
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In series – i.e. plugged between prox. and distal PA
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Biolung• Under development
• No long term rejection problems
• Would need long term anticaogulation (similar to mechanical heart valves)
•May take over from lung transplantation as a long term solution to chronic respiratory failure in conditions like COAD
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Tissue Engineering?
Lung units consisting of
pulmonary epithelium and vascular endothelium
If can build bone marrow
and tracheas, why not lungs?
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Our approach at the moment
• Maximise protective ventilation using adjuncts if appropriate; if hypoxic try oscillator
• Elevated CO2 – use NOVAlung first
• Continuing hypoxia – use VV ECMO
BUT MUST BE POTENTIALLY REVERSIBLE & NOT JUST EXTENDING
DYING