1b Respiratory Failure

Question 1

What is the broad definition of respiratory failure?

Answer 1

Syndrome of inadequate gas exchange due to dysfunction of one or more components of the respiratory system

Question 2

Which parts of the nervous system are involved in the respiratory system?

Answer 2

CNS / Brainstem
Peripheral NS
Neuro-muscular junction

Question 3

What respiratory muscles are involved in respiratory infections?

Answer 3

Diaphragm and thoracic muscles
Extra-thoracic Muscles

Question 4

Where in the lung will there be more ventilation? and why?

Answer 4

At the base - the alveoli are smaller and more compliant

Question 5

Describe the difference in transmural pressure gradient between the apex and the base of the lung?

Answer 5

Greater gradient at the apex of the lung, much smaller at the bottom as the Pleural Pressure is LESS NEGATIVE AT THE BOTTOM

Question 6

What is meant by compliance?

Answer 6

Compliance is the tendency to distort under pressure (change in volume/ change in pressure)

Question 7

In which part of the lung are the alveoli more compliant?

Answer 7

Base of the lung

Question 8

Which part of the lung has a LOWER INTRAVASCULAR PRESSURE?

Answer 8

APEX

Question 9

Which part of the lung has a higher intravascular pressure?

Answer 9

Base

Question 10

What are the effects of the high intravascular pressure at the base of the lung?

Answer 10

More recruitment
less resistance
higher flow rate

Question 11

What are the effects of a lower intravascular pressure at the apex of the lung?

Answer 11

Less recruitment
Greater resistance
Lower flow rate

Question 12

What is the pulmonary transit time?

Answer 12

0.75s

Question 13

What is the time taken for gas exchange to occur through?

Answer 13

0.25s

Question 14

What is elastance?

Answer 14

The tendancy to recoil to its original volume

Question 15

What is the formula to calculate compliance?

Answer 15

Change in Volume / Change in pressuer

Question 16

What is the formula to calculate elastance?

Answer 16

Change in pressure / change in volume

Question 17

What is the biggest risk factor for males with chronic respiratory failure?

Answer 17

Smoking

Question 18

What is the biggest risk factor for women with chronic respiratory failure?

Answer 18

Household air pollution from solid fuels

Question 19

What is an acute presentation of respiratory failure?

Answer 19

Acute Respiratory Distress Sydrome

Question 20

How would you diagnose someone with ARDS based on timing?

Answer 20

Within 1 week of known clinical insult or new or worsening respiratory symptoms

Question 21

What would be seen on chest imaging of someone with ARDS?

Answer 21

bilateral opacities, not fully explained by effusions, lung collapse, or nodules

Question 22

What is the origin of oedema in a patient with ARDS?

Answer 22

Respiratory failure not fully explained by cardiac failure or fluid overload.

Need objective assessment (e.g. echocardiography) to exclude hydrostatic oedema if no risk factor present

Question 23

What are acute on chronic types of respiratory failure?

Answer 23

Infective exacerbation of COPD, CF
Myasthenic crisis
Post operative

Question 24

What is the tidal volume?

Answer 24

The amount of air breathed in and breathed out in a normal cycle of breathes

Question 25

What is the inspiratory reserve volume?

Answer 25

The volume of air which can be inspired on top of the tidal volume to reach maximum inspiration capacity

Question 26

What is the inspiratory capacity a sum of?

Answer 26

Tidal volume + Inspiratory reserve volume

Question 27

What is functional residual capacity?

Answer 27

Expiratory reserve volume + residual volume

Question 28

What is the residual volume?

Answer 28

The volume of air which is kept in the lungs in order for the pressure to be balanced in the lungs and prevent them from collapsing

Question 29

What is the vital capacity?

Answer 29

Inspiratory reserve volume + Expiratory reserve volume + tidal volume

Question 30

What is meant by minute ventilation?

Answer 30

The volume of gas which is entering and leaving the lungs per minute

Question 31

How do you calculate minute ventilation?

Answer 31

Tidal Volume x breathing frequency

Question 32

What is alveolar ventilation?

Answer 32

The gas entering and leaving the alveoli per minute

Question 33

How is alveolar ventilation measured?

Answer 33

(Tidal volume - dead space) x breathing frequency

Question 34

What is type 1 respiratory failure?

Answer 34

Failure of oxygen exchange (Hypoxemic)

Question 35

What is the level of PaO2 for respiratory failure to be considered type 1?

Answer 35

PaO2 less than 60

Question 36

what happens to the shunt fraction in type 1?

Answer 36

Increased due to alveolar flooding

Question 37

What are the pulmonary causes of acute respiratory failure?

Answer 37

Infection Aspiration - when something accidentally enters your lungs Primary graft dysfunction (Lung Tx) - severe lung injury occurs within first 72 hours of lung transplantation -

Question 38

What would be the extra-pulmonary causes of acute respiratory failure?

Answer 38

Trauma Pancreatitis - increased inflammatory chemicals secreted into the bloodstream Sepsis

Question 39

What are the neuromuscular causes of acute respiratory failure?

Answer 39

Myasthenia/ GBS - respiratory muscle weakness

Question 40

What is meant by an increased shunt fraction?

Answer 40

Increased shunt fraction - percentage of blood put out by the heart that is not completely oxygenated (Q S) Therefore less oxygenated blood in the body

Question 41

What are the causes of Type 1 respiratory failure?

Answer 41

Collapse Aspiration Pulmonary Oedema Fibrosis Pulmonary Embolism Pulmonary Hypertension

Question 42

What is type 2 respiratory failure?

Answer 42

Failure to exchange or remove carbon dioxide

Question 43

What is hypercapnic respiratory failure?

Answer 43

Type 2

Question 44

what is the physiology behind type 2 respiratory failure?

Answer 44

Decreased alveolar minute ventilation Dead Space Ventilation

Question 45

What is type 3 respiratory failure?

Answer 45

Perioperative respiratory failure

Question 46

what is atelectasis?

Answer 46

Atelectasis is a complete or partial collapse of the entire lung or area (lobe) of the lung. It occurs when the tiny air sacs (alveoli) within the lung become deflated or possibly filled with alveolar fluid

Question 47

What is the main pathology behind perioperative respiratory failure?

Answer 47

Increased atelectasis due to low functional residual capacity with abnormal wall mechanics Can be hypoxemic or hypercapnic

Question 48

How is type 3 respiratory failure prevented?

Answer 48

Anesthetic Posture incentive spirometry analgesia attempts to lower the intra-abdominal pressure

Question 49

What is type 4 respiratory failure?

Answer 49

Shock - patients who are intubated and ventilated during a form of shock (septic / cardiogenic / neurologic)

Question 50

What is the basic pathophysiology of type 4 respiratory failure?

Answer 50

Poor perfusion of lung → gas doesn't meet the blood and cannot transfer across alveolar capillary membrane

Question 51

What happens when the patient gets neurologic shock?

Answer 51

Patient becomes very **vasoplegic** (low systemic vascular resistance) so you get peripheral pooling of blood to get much central return of blood to the pulmonary vasculature. This leads to significant drop in pulmonary perfusion gas exchange.

Question 52

When someone is in shock, they drop their conscious level, why does this mean they have to be intubated?

Answer 52

They no longer protect their airway Intubation allows them to get positive pressure ventilation using a ventilator -

Question 53

how does positive pressure affect the left ventricle?

Answer 53

Reduces afterload which is good for the LV as distress across the heart muscle wall is reduced because there is some pressure within the chest that is raised

Question 54

how does positive pressure affect the right ventricle?

Answer 54

Increased pressure in the thorax → much harder for right ventricle to fill with blood and its contractility is affected

Question 55

What are the risk factors of chronic respiratory failure?

Answer 55

COPD Pollution recurrent pneumonia Cystic Fibrosis Pulmonary FIbrosis

Question 56

What are the risk factors for acute respiratory failure?

Answer 56

Infection - Viral or bacterial Aspiration trauma pancreatitis Transfusion

Question 57

What are the origins of shortness of breath in acute respiratory failure?

Answer 57

Pulmonary vascular disease Lower RTI Aspiration Trauma Extrapulmonary: pancreatitis, new medications

Question 58

What are the two types of pulmonary vascular disease which result in shortness of breath?

Answer 58

Pulmonary Embolus Haemoptysis

Question 59

What are the pulmonary causes of ARDS?

Answer 59

Aspiration Trauma Surgery Drug Toxicity Infection

Question 60

What are the extra-pulmonary causes of ARDS?

Answer 60

Trauma pancreatitis burns Transfusion Surgery Drug Toxicity Infection

Question 61

What is driving the response in acute lung injury in the image below?

Answer 61

When macrohpages are activated by an infection or inflammation, they will release further cytokines: IL-6, IL-8, TNF-alpha Another TNF-alpha, IL-8 signalling pathway is mediated by TNFR-1 In response to inflammatory setup, there is alveolar fluid build-up or protein rich oedema forming within the lung You can get degradation of surfactant, which means the lung is less efficient at expanding the alveoli which leads to a collapse of the alveoli Due to inflammation, you get migration of neutrophils and leukocytes from capillary into interstitium where they can cause damage before they can get to their site of interest due to chemokines. This damage increases oedema and this increases the distance between the alveolar and the capillary → gas exchange is less efficient.

Question 62

What cytokines are involved in the viral response and T-cell differentiation in the immune response in the lung?

Answer 62

IL-6, IL-8, TNF-alpha, IFN-gamma, IFN-beta

Question 63

What DAMP's might be released in the lungs?

Answer 63

HMGB-1 and RAGE

Question 64

What apoptotic mediators cause cell death in the lungs?

Answer 64

Necrosis in lung biopsies Apoptotic mediators ; FAS, FAS-1, BCl-2

Question 65

What happens to the leucocytes in acute lung injury?

Answer 65

Alveolar macrophage activation Neutrophil Lung Migration

Question 66

What therapies have been tried in respiratory failure?

Answer 66

Steroids Salbutamol Surfactant Statins GM-CSL Neutrophil esterase inhibitor N-acetylcysteine

Question 67

What pharmacological interventions are being trialled?

Answer 67

Mesenchymal stem cells Keratinocyte growth factor Microvesicles high dose vitamin C, thiamine and steroids

Question 68

Is there evidence to suggest that pulmonary vascular endothelial inflammatory response and angiogenesis is an underlying pathology in ARDS?

Answer 68

Yes

Question 69

What type of scan has allowed radiological evidence of poor perfusion?

Answer 69

CT Shows widespread angiogenesis and poor perfusion due to microemboli

Question 70

What is measured in hypo inflammatory endotypes?

Answer 70

P/F Ration plateau pressure Tidal volume

Question 71

What is measured in hyper inflammatory endotypes?

Answer 71

Platelet Biliruin Creatinine CRP IL-6 sTNF

Question 72

What therapeutic intervention could be used to treat the underlying disease?

Answer 72

Inhaled therapies - bronchodilators and pulmonary vasodilators Steroids Anti-biotics Antivirals Drugs - Rituximab

Question 73

what therapeutic intervention could be used to provide respiratory support to those with ARDS?

Answer 73

Physiotherapy High flow oxygen Extra-corporeal support Nebulisers Oxygen Mechanical ventilation Non invasive ventilation

Question 74

What type of cardiovascular support could be given to someone with ARDS?

Answer 74

Fluids Vasopressors Inotropes Pulmonary vasodilators

Question 75

What type of renal support could be given to someone with ARDS?

Answer 75

haemofiltration haemodialysis

Question 76

What type of immune support could be given to someone with ARDS?

Answer 76

Plasma exchange Convalescent plasma

Question 77

What are the sequelae of ARDS

Answer 77

Poor gas exchange - Inadequate oxygenation, poor perfusion, hypercapnoea Infection - sepsis Inflammation Systemic Effects

Question 78

What are the four types of ventilation which could be used in ARDS?

Answer 78

Volume controlled Pressure controlled Assissted breathing modes Advanced ventilatory modes

Question 79

What is compliance on the pressure volume loop?

Answer 79

The steepness of the line

Question 80

What is the UIP in a pressure volume loop?

Answer 80

Upper inflection point - above this pressure, additional alveolar recruitment requires a disproportionate increase in applied airway pressure

Question 81

what is the LIP?

Answer 81

Lower inflection point - can be thought of as the minimum baseline pressure needed for optimal alveolar recruitment

Question 82

How would you regulate pressure during ventilation to terminate exhalation?

Answer 82

You would increase the amount of pressure to allow flow of air back into the lungs and initiate inhalation

Question 83

When is alveolar recruitment at its highest?

Answer 83

At the Positive end expiratory pressure (PEEP)

Question 84

What is V/Q mismatch caused by?

Answer 84

Ventilation without gas exchange and vice versa

Question 85

How can we reduce ventilator induced lung injury?

Answer 85

Maintaining driving pressure (difference between peak and what we call a plateau pressure, which is sort of static pressure within the lung after the initial inspiration)

Question 86

What effect does increasing the ventilation pressure too much have on lung recruitment?

Answer 86

It over **distends** the lungs and so more gas within the chest is **trapped** and ultimately this reduces the ability for **perfusion** and potentially causes right **ventricular dysfunction** as a result of that for a long time Also increases the risk of damaging the lung with pressure or **barotrauma**

Question 87

What information can an ultrasound of the lungs provide?

Answer 87

Whether there is fluid in the lungs or not

Question 88

Would a CT or ultrasound be more useful when observing pathologies in lung injury?

Answer 88

CT

Question 89

What is the name of the scoring system used to guide escalation?

Answer 89

Murray Score

Question 90

What is ECMO?

Answer 90

ECMO stands for extracorporeal membrane oxygenation. The ECMO machine is similar to the heart-lung by-pass machine used in open-heart surgery. It pumps and oxygenates a patient's blood outside the body, allowing the heart and lungs to rest.

Question 91

At what Murray score will a patient be put on ECMO?

Answer 91

3

Question 92

What is the inclusion criteria for ECMO?

Answer 92

Severe respiratory failure with a non cardiac cause Positive pressure ventilation is not appropriate

Question 93

What is the exclusion criteria for ECMO?

Answer 93

Contraindication to continuation of active treatment Significant co-morbidity - when there would be a dependancy on ECMO, or co morbidity is life limiting

Question 94

What occurs in ECMO?

Answer 94

Pass canula up through the groin, usually up the femoral vein (in some cases jugular vein) Withdraw blood through tubing that runs into a pump to run blood across an artificial membrane Blood is pumped through the bottom section and gases flowed over the top layer to remove carbon dioxide from the blood and provide oxygen This oxygenated blood is then carried back into the body

Question 95

What are the advantages of ECMO?

Answer 95

Improved **oxygen** delivery Improved **CO2** removal **Rest** lung and prevent ventilator associated lung **injury** Resolve **respiratory acidosis** Reduce **multiple organ dysfunction** arising from hypoxaemia and hypercapnia -

Question 96

What are the disadvantages of ECMO?

Answer 96

**Time** to access Referral system - **Geographical inequality** Consideration of **referral**

Question 97

What are the technical difficulties associated with ECMO?

Answer 97

Obtaining **access** - IJV, subclavian, femoral **Circuit** **Haemodynamics** **Clottting**/ bleeding

Question 98

Is ARDS likely to lead to a prolonged disability?

Answer 98

No - it is a reversible disease process

Question 99

A patient admitted with bacterial pneumonia but despite antibiotics develops sepsis, and acute respiratory distress syndrome. The clinical team have measured O2 saturation, positive end point pressure and chest radiology. What else would they measure in order to accurately score the severity of ARDS.

Answer 99

Lung Compliance

Question 100

What class of antibiotics should be given to a patient with severe pneumonia?

Answer 100

Penicillins and Macrolides

Question 101

What are the four parameters used in the Murray Score?

Answer 101

Positive End Expiratory Pressure Chest X Ray Lung Complicance Partial Pressure of Oxygen / Oxygen Saturations