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Mechanical Ventilation. Dr Rob Stephens robcmstephens@googlemail.com www.ucl.ac.uk/anaesthesia/people/stephens. Contents. Introduction: definition Introduction: review some basics Basics: Inspiration + expiration Details inspiration pressure/volume expiration Cardiovascular effects
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Mechanical Ventilation Dr Rob Stephens robcmstephens@googlemail.com www.ucl.ac.uk/anaesthesia/people/stephens
Contents • Introduction: definition • Introduction: review some basics • Basics: Inspiration + expiration • Details • inspiration pressure/volume • expiration • Cardiovascular effects • Compliance changes • PEEP • Some Practicalities
Definition: What is it? • Mechanical Ventilation =Machine to ventilate lungs = move air in (+ out) • Several ways to..move air in (IPPV vs others) Intermittent Positive Pressure Ventilation
Definition: What is it? • Mechanical Ventilation =Machine to ventilate lungs = move air in (+ out) • Several ways to..move air in (IPPV vs others) Intermittent Positive Pressure Ventilation • Several ways to ..connect the ventilator to the patient
Several ways to ..connect the machine to Pt • Oro-tracheal Intubation • Tracheostomy • Non-Invasive Ventilation Picture of a tubes connected to patients
Definition: What is it? • Mechanical Ventilation =Machine to ventilate lungs = move air in (+ out) • Several ways to..move air in (IPPV vs others) Intermittent Positive Pressure Ventilation • Several ways to ..connect the machine to Pt • Unnatural- not spontaneous • Consequences • of drugs needed to tolerate it • of IPPV itself • route for infection
Why do it?- indications • Hypoxaemia: low blood O2 • Hypercarbia: high blood CO2 • Need to intubate eg patient unconscious so reflexes • Others eg • need neuro-muscular paralysis to allow surgery • want to reduce work of breathing • cardiovascular reasons
Anaesthesia Drugs • Hypnosis = Unconsciousness • Gas eg Halothane, Sevoflurane • Intravenous eg Propofol, Thiopentone • Analgesia = Pain Relief • Different types: ‘ladder’, systemic vs other • Neuromuscular paralysis • Nicotinic Acetylcholine Receptor Antagonist
Neuromuscular Paralysis Nicotinic AcetylCholine Channel Non competitive Suxamethonium Competitive Others eg Atracurium Different properties Different length of action Paralyse Respiratory muscles Apnoea – ie no breathing Need to ‘Ventilate’ Picture of a NM drugs
Review some basics • 1 What’s the point of ventilation? • 2 Vitalograph, lets breathe • 3 Normal pressures
Review 1 What’s the point of ventilation? • Deliver O2 to alveoli • Hb binds O2 (small amount dissolved) • CVS transports to tissues to make ATP - do work • Remove CO2 from pulmonary vessels • from tissues – metabolism
IRV VC TLC TV FRC ERV RV 0
Review 3: Normal breath Normal breath inspiration animation, awake Lung @ FRC= balance Diaghram contracts -2cm H20 Chest volume Pressure difference from lips to alveolus drives air into lungs ie air moves down pressure gradient to fill lungs Pleural pressure -7cm H20 Alveolar pressure falls -2cm H20
Review 3: Normal breath Normal breath expiration animation, awake -7cm H20 Diaghram relaxes Pleural / Chest volume Pleural pressure rises +1-2cm H20 Alveolar pressure rises Air moves down pressure gradient out of lungs
The basics: Inspiration Comparing with spontaneous • Air blown into lungs • 2 different ways to do this (pressure / volume) • Air flows down pressure gdt • Lungs expand • Compresses • pleural cavity (inside chest) • abdominal cavity • pulmonary vessels
Ventilator breath inspiration animation Air blown in -2 cm H20 lung pressure Air moves down pressure gradient to fill lungs +5 to+10 cm H20 Pleural pressure
Ventilator breath expiration animation Similar to spontaneous…ie passive Ventilator stops blowing air in Pressure gradient Alveolus-trachea Air moves out Down gradient Lung volume
Details: IPPV • Inspiration • Pressure or Volume? • Machine or Patient initiated? ’control or support’ • Fi02 • Tidal Volume / Respiratory Rate • Expiration • PEEP? Or no PEEP (‘ZEEP’)
Details: Inspiration Pressure or Volume? • Do you push in.. • A gas at a set pressure? = ‘pressure…..’ • A set volume of gas? = ‘volume….’
Details: Inspiration Pressure or Volume? Pressure cm H20 Time Pressure cm H20 Time
Details: Expiration Pressure cm H20 PEEP Time Positive End Expiratory Pressure Pressure cm H20 PEEP Time
Details: Cardiovascular effects • Compresses Pulmonary vessels • Reduced RV inflow • Reduced RV outflow • Reduced LV inflow • Think of R vs L heart pressures • RV 28/5mmHg • LV 120/70mmHg ~10 cmH20 =~ 7 mmHg =~1KPa
Details: Cardiovascular effects IPPV + PEEP can create a shunt !
Details: Cardiovascular effects Normal blood flow
Details: Cardiovascular effects Blood flow: Lung airway pressures
Details: Cardiovascular effects • Compresses Pulmonary capilary vessels • Reduced LV inflow • Cardiac Output: Stroke Volume • Blood Pressure = CO x resistance – Blood Pressure • Neurohormonal: Renin-angiotensin activated • Reduced RV outflow- backtracks to body • Reduced RA inflow • Head- Intracranial Pressure • Others - venous pressure eg liver • Strain: if RV poorly contracting
Details: Cardiovascular effects • Compresses Pulmonary vessels • Inspiration + Expiration • More pressure, effects on cardiovascular • If low blood volume eg bleeding • vessels more compressible • effects
Details: compliance changes • If you push in.. • A gas at a set pressure? = ‘pressure…..’ • Tidal Volume compliance • Compliance = Δvolume / Δpressure • If compliance: ‘distensibility stretchiness’ changes • Tidal volume will change • A set volume of gas? = ‘volume….’ • Pressure 1/ compliance • If compliance: ‘distensibility stretchiness’ changes • Airway pressure will change
Details: compliance changes Normal ventilating lungs
Details: compliance changes Abormal ventilating lungs: Eg Left pneumothorax
Regional ventilation; PEEP • Normal, awake spontaneous • Ventilation increases as you go down lung • as ‘top’ ` (non-dependant) alveoli larger already • so their potential to increase size reduced • non-dependant alveoli start higher up compliance curve
Effects of PEEP: whole lung ‘over-distended’ alveoli Compliance= Volume Pressure Volume • energy needed to open alveoli • ?damaged during open/closing • - abnormal forces Pressure
Regional ventilation: PEEP Spontaneous, standing, healthy Static Compliance= Volume Pressure Volume Pressure
Regional ventilation; PEEP Lying down, age, general anaesthesia • Lungs smaller, compressed • Pushes everything ‘down’ compliance curve • PEEP pushes things back up again • Best PEEP = best average improvement
Effects of PEEP: whole lung ‘over-distended’ alveoli Compliance= Volume Pressure Volume • energy needed to open alveoli • ?damaged during open/closing • - abnormal forces Pressure
Effects of PEEP: whole lung Compliance= Volume Pressure Volume PEEP: start inspiration from a higher pressure ↓?damage during open/closing Pressure Raised ‘PEEP’
Effects of PEEP Normal, Awake • in expiration alveoli do not close (closing capacity) • change size Lying down / GA/ Paralysis / +- pathology • Lungs smaller, compressed • Harder to distend, starting from a smaller volume • In expiration alveoli close (closing capacity) PEEP • Keeps alveoli open in expiration ie increases FRC • Danger: but applied to all alveoli • Start at higher point on ‘compliance curve’ • CVS effects (Exaggerates IPPV effects)
Practicalities • Ventilation: which route? • Intubation vs others • Correct placement? • Ventilator settings: • spontaneous vs ‘control’ • Pressure vs volume • PEEP? • How much Oxygen to give (Fi02 ) • Monitoring adequacy of ventilation (pCO2,pO2) • Ventilation: drugs to make it possible • Ventilation: drug side effects • Other issues
Practicalities • Ventilation: which route? • Intubation vs others • Correct placement? • Ventilator settings: • spontaneous vs ‘control’ • Pressure vs volume • PEEP? • How much Oxygen to give (Fi02 ) • Monitoring adequacy of ventilation (pCO2,pO2) • Ventilation: drugs to make it possible • Ventilation: drug side effects
Summary • IPPV: definition • Usually needs anaesthesia- triad of drugs • Needs a tube to connect person to ventilator • Modes of ventilation • Pressures larger + positive ; IPPV vs spontaneous • CVS effects • PEEP opens aveoli, CVS effects