SAAS Module Review

Question 1

What does capnography measure?

Capnography gives feedback about what three parameters/key body systems?

Answer 1

1. The partial pressure of C02 in expired respiration
2. Capnography provides instantaneous information about:

ventilation (how effectively CO2 is being eliminated by the lungs)

perfusion (how effectively CO2 is being transported through the vascular system)

metabolism (how effectively CO2 is being produced by cellular metabolism).[2]

Question 2

EtCO2 refers to what? What is the normal value for an adult? How about for children?

Answer 2

• It refers to end tidal C02 (End of breath partial pressure of C02)
• 36-40 mmHg in a healthy adult and the range for children is not significantly different

Question 3

PaCO2 refers to what? What is the normal value?

Answer 3

PaCO2 refers to the Partial pressure of CO2 in the arterial blood (it is generally 3-5 mmHg higher than EtCO2) and normally in the range 35-45 mm Hg.

Question 4

Capnogram is what?

Answer 4

a plot of EtCO2 over time

Question 5

Capnography reads or estimates pac02?

Answer 5

Estimates.

Prediction of PaCO2 from ETCO2 is variable (the major limiting factors = blood flow to the lungs and mismatch between ventilation and perfusion);

ETCO2 may however, also be misleadingly in different conditions where a significant mismatch between ventilation and perfusion exists.

Question 6

How does infrared light detect the etc02?

Answer 6

Infrared is only absorbed by gases that have two or more different atoms.

Because H20 contains two of the same atoms, it does not absorb infrared.

Because c02 has a carbon, and an oxygen molecule…it does absorb infrared.

The capnography device takes a sample of expired air and aspirates it. The infrared light absorbed is measured, to obtain a partial pressure ETc02.

Question 7

The normal waveform for capnography, would look like what?

Answer 7

An elephant under a blanket. Basically like a big square.

isoelectric line as exhalation begins, and dead space is cleared from the airway. And then a sharp uptick on expiration (dead space gases are mixed with alveolar gases filled with c02). This expiration plateus (the straight line at the top of the square. Peaks and then drops as inhalation begins, making a line drop downwards completing the square.

Question 8

During resuscitation, why is ETc02 a good reflection of perfusion status in isolation?

Answer 8

During cardiac arrest alveolar ventilation and metabolism are essentially constant. (the amount of c02 produced and the amount of c02 expired)

EtCO2 therefore predominately reflects pulmonary blood flow. Therefore, EtCO2 can be used as a non-invasive gauge of the effectiveness of cardiac compressions. As effective CPR leads to a higher cardiac output, EtCO2 will rise, reflecting the increase in perfusion.

Question 9

Good compressions cause ETC02 to go up or down?

Answer 9

ETC02 would go up. There is more c02 because

better perfusion -> Better pulmonary blood flow -> more waste products expired in air -> increased ETc02.

Conversely.

Poorer perfusion -> less pulmonary blood flow -> less c02 expired -> lower ETc02.

Question 10

If a patient gets ROSC, how would this reflect in ETC02?

How can this be used to predict ROSC?

Answer 10

• A massive rise in c02, because the c02 accumulated during arrest is being expelled . THis is because CO is now restored (heart is beating).
• Before ROSC you may see an increase in ETc02 waveform, as CO is being restored.

Question 11

What is a key value of capnography as it pertains to compressions?

Answer 11

It eliminates the need to stop chest compressions to check for pulses. Because you can see a rise in ETc02, and hence know that CO is increasing.

Pulse checks should only be performed when a perfusing rhythm has been detected, and in conjunction with a notable rise in waveform capnography suggestive of ROSC. either way the 2 minute cycle of CPR should be completed

Question 12

Is ETc02 good for checking ventilation rate in cardiac arrest?

Answer 12

ARC: “During a cardiac arrest, the EtCO2 value (ie in mmHg) should NOT be used as a guide for ventilation, and clinicians should be wary about using it to guide ventilation in the immediate post resuscitation phase”

Low CO2 in expired breath from a patient under CPR may imply:

• inadequate cardiac compression or excessive ventilation or both
• a treatable condition (reversible causes)

Question 13

Hypoventilating a patient would cause ETc02 to do what?

Answer 13

It would rise. Because there is less expired air, and hence C02 will be at a greater concentration IF cardiac output is relatively stable

Hyperventilation would cause ETc02 to drop. c02 is being expired excessively.

Question 14

The CO2 waveform is analysed for five characteristics?

Answer 14

Height – which depends on the end-tidal CO2 value

Frequency – which depends on the respiratory rate

Rhythm – which depends on the state of the respiratory centre or on the function of the person ventilating (in hospital this would be the ventilator)

Baseline – which should be zero

Shape – there is only one normal shape

Question 15

What is the advantage of capnography over oximetry?

Answer 15

ETC02 can pick up occlusion of airway, hypoxia, apnoea well before haemoglobin desaturation occurs. It is a leading indicator of hypoxia compared to sp02.

Question 16

When do you need to use a filter with capnography?

Answer 16

In patients > 40 kg. It effects the readings of paediatrics if you use a filter.

Question 17

If you observe an increase in ETC02 whilst CPR, indicating potential rosc, increase in CO…what action should you take?

Answer 17

Early indication of ROSC - complete 2 minute cycle but have high index of suspicion on a
pulse will be present; withhold CA drugs (if due) until next pulse check; manage post ROSC as
per CPG

Question 18

For intraosseous administratin what size flush for adults and children?

Answer 18

adults - 10 ml syringe

paeds - 2-5 ml

Question 19

IO is only indicated in cardiac arrest when?

Answer 19

IV access has failed two times.

Question 20

Why is a pressure bag sometimes indicated with IO?

Answer 20

In circumstances such as hypovolemic cardiac arrest, it may be necessary to give large fluid volume such as 500 ml.

This is unlikely to flow adequately through an IO injection site without added pressure to overcome the instrinsic pressure of the medullary space.

Question 21

What is a key risk of pressure infusion bags?

Answer 21

If an IO needle becomes dislodged from the bone and is left unnoticed, there is a real risk of fluid extravasation, leading to harmful complications such as compartment syndrome.

Question 22

What are the three injection sites in order of preference?

Answer 22

1. Proximal tibia
2. Distal tibia
3. proximal humerus.

Question 23

Flow rate of a IO within the proximal tibia?

Answer 23

About 1 litre per hour. This is equivalent to a 21 gauge cannula.

Question 24

Contraindications for IO?

Answer 24

1. Fracture to the bone site
2. Previous orthopaedic procedure to the selected limb (previous surgery at the knee perhaps? )
3. Prosthetic joints or limb
4. IO access within 48 hours at that site
5. Local infection, trauma or burn at the site.

Question 25

What is a key precaution or consideration in paed IO insertion in the event of cardiac arrest?

Answer 25

• Their bones are more flexible and softer. Results in more dislodgement of IO needles. This can result in extravasation and compartment syndrome.
• All infusions should be administered carefully by syringe in paediatrics.
• Pressure bags are not to be used under ANY circumstance.

Question 26

How many breaths per minute should be given in ROSC?

One breath every….X…..Seconds?

Answer 26

10 per minute

This works out to one every 6 seconds

Question 27

How much volume should be given when ventilating patients?

Answer 27

Just enough to see a rise and fall of the chest. less is more.

Question 28

Why is hyperventilation very bad?

Answer 28

Multiple reasons. One is that is promotes hypocapnia. And this is associated with cerebral vasoconstriction and poor cerebral perfusion/recovery post arrest.

Question 29

In ROSC, give how many litres of oxygen?

Answer 29

15 litres

Question 30

What is the target SP02 for ROSC patients?

Answer 30

94 - 98 sp02

Question 31

Do we titrate oxygen in ROSC to avoid hyperoxaemia?

Is there an exception?

Answer 31

Broadly speaking no, we prioritise avoiding further hypoxia. HOWEVER there is one exception.

We can titrate oxygen if the patient has a patent airway, spontaneously breathing, good neurological function and is maintaining >98% sp02…you can titrate to achieve 94-98% sp02.

Question 32

How should you position/posture a patient?

Answer 32

30 degrees is ideal:

• Prevents aspiration
• Improves lung mechanics
• Lowers ICP.

Contrindications:

• Spinal
• Hypotensive.

Question 33

What key test should be done for breathing post ROSC?

Answer 33

Ausciltation is essential. Up to 70% of OHCA (out of hospital cardiac arrests) result in rib fractures. Be aware of potential for pnemothorax or PE.

Question 34

How do you treat a patient who is ROSC, with hypotension?

Answer 34

• Administer NA+ in 250 ml aliquots until a radial pulse is achieved or SBP=100 mmHg.
• Up to a maximum of 10 ml/kg up to 1000 ml (eg. 70 kg would be a max of 700 ml).
• Reassess after each 250 ml and cease IV fluids if patient shows signs of pulmonary oedema. It is extremely important to auscultate the patient’s chest before commencing fluid therapy and after each 250ml aliquot.
• Consult with a SAAS Medical Practitioner via the EOC Clinician if hypotension persists.

Question 35

What is a consideration when supporting BP post ROSC?

Answer 35

When considering BP goals post-ROSC there is a balance between providing adequate perfusion to a brain that may have lost its autoregulatory ability with the potential for overstressing a post-ischaemic heart. [4]

Question 36

If you find a STEMI post ROSC, what is the a key expectation>

Answer 36

‘Code STEMI’ notification should not take priority over other critical post-ROSC management interventions.

If ST elevation diagnostic of STEMI persists on the 12 lead ECG, activate the receiving hospital PCI team using the Code STEMI line (refer to Ischaemic Chest Pain CPG) and notify the receiving hospital early.

Question 37

When looking for ST elevation post ROSC, what is a key consideration?

Answer 37

Caution needs to be taken when immediately analyzing a post-ROSC ECG. A post-ischaemic heart that has potentially had large doses of adrenaline during the arrest may take some time to settle into a stable rhythm and morphology, and interpretation of the ECG for ST elevation should wait until this occurs

Question 38

What are three key aspects of post ROSC assessment for disability and exposure?

Answer 38

1. Pupil exam
2. GCS
3. Full secondary survey including exposure.

Question 39

What is common post ROSC as it pertains to BGL?

Answer 39

Hyperglycaemia is common after cardiac arrest. A strong association exists between high BGL after resuscitation and poor neurological outcome. [4,9]

Additionally, in critically ill patients severe hypoglycaemia is associated with increased mortality.

Question 40

IF a patient is hypoglycaemic following ROSC, what is the treatment?

Answer 40

• Administer glucose (10%) IV titrated to achieve a BGL between 4-10 mmol/L.
• Sodium 100 ml flush must be given before and after glucose IV.
• Avoid hyperglycaemia.

Question 41

POST ROSC patients often have what abnormalities as it pertains to temperature?

Answer 41

Post-ROSC patients usually have drops in temperature within the first hour and hospital admission temperatures following OHCA are usually between 35-36°C.

Question 42

What is the guideline for managing temperature post ROSC?

Answer 42

Maintain temperature within normal range (36-37.5°C).

• Space blanket
• Regular blanket.

Question 43

What key details are expected to be recorded as it pertains to history of the OHCA?

Answer 43

1. Time of arrest
2. Witnessed arrest or not.
3. whether CPR occured prior to SAAS arrival
4. Whether defibrillation occured prior to SAAS arrival

Question 44

How do the post ROSC standards change for a paed patient?

Answer 44

• Adult targets do not apply. It is specific to the child age, height, weight ect.
• Early clinical support from a SAAS Medical Practitioner, via the EOC clinician, must occur.
• With an anticipated ease of extrication compared to adults, transport of post-ROSC paediatric patients should not be delayed.

Question 45

What is uniquie about paed ariways?

Answer 45

They are small and can occlude easier, they need to be straight and avoid flexion or hyperextension.

A key tip is placing a blanket under the shoulders…tends to be needed.

Question 46

When supporting ventilation for a paed post ROSC, what rate would you use?

Answer 46

Check the paediatric dose chart for SAAS. The value by age for respiration is listed. You must follow this.