Monitoring anaesthesia

Question 1

3 components of balances anaesthesia

Answer 1

unconsciousness, analgesia and adequate mm relaxation

Question 2

Goals of anaesthetic monitoring - 4

Answer 2

• ensure all components of balanced anaesthesia are provided
• maintain homeostasis
• detect any adverse effects of anaesthesia and correct immediately

Question 3

Other than the patient, what else should the anaesthetist also monitor? 3

Answer 3

(Patient first)
Anaesthetic machine
Breathing system (+/- ventilator)
IV fluids

Question 4

When do most anaesthetic deaths occur?

Answer 4

within 3 hours of the end of the procedure

Question 5

What determines the level of monitoring?

Answer 5

Physical condition (animal)
Surgical procedure planned (intense then use both invasive and non-invasive measures)

Question 6

What is the anaesthetic record?

What should it include? 7

Answer 6

legal document
shows trends
reference for future anaesthetics

Should include:
Drugs (time, dose, route)
All intra-operative monitoring (blood tests, blood loss and urine output)
IV fluids (rate, type)
All procedures (intubation, invasive monitors)
Time of important events (induction, position, timing, extubation)
Unusual events/complications
Condition of animal at end of procedure.

Question 7

What is the blood volume of dogs and cats?

Why is this important?

Answer 7

Dogs = 80ml/kg
Cats = 60ml/kg

(useful to calculate and note the values for blood loss equal to 10%, 15% and 20% of blood volume to help in decision making as to whether to give crystalloids, colloids or blood)

Question 8

What should you do if an anaesthetic machine doesn’t have low oxygen warning alarms fitted?

Answer 8

check cylinder (or pipeline) pressure and oxygen flowmeters constantly. If using NO2 on older machines without anti-hypoxic devices, it is also essential to check the O2:NO2 ratio regularly to ensure you aren’t delivering a hypoxic mixture to the patient.

Question 9

What other machine checks should be made?

Answer 9

• Vaporiser settings and level of volatile anaesthetic in vaporiser
• Breathing system (+/- mechanical ventilator) for operation adn disconnedtion
• Fluid administration (rate, contents)

Question 10

What 2 readings need to be measured by equipment during anaesthesia?

Answer 10

Arterial BP

End-tidal CO2

Question 11

What can you listen for when monitoring anaesthesia? 5

Answer 11

Ventilation sounds
Leaks (ETT or breathing system)
Low oxygen pressure warning alarms
Malfunctioning equipment
Communications

Question 12

What can you look for when monitoring anaesthesia? 3

Answer 12

Eye position
Chest movements
Colour of MMs

Question 13

What can you feel for when monitoring anaesthesia?

Answer 13

Pulses - quality, rate, rhythm
CRT
Jaw tone
Palpebral reflex
Relaxation - limbs and reflexes

Question 14

What can you smell for when monitoring anaesthesia?

Answer 14

Detecting volatile anaesthetic agent which would indicate leaks or disconnections

Question 15

What is the anaesthetist’s first priority when anaesthesia is induced?

Answer 15

ABC assessment:
AIRWAY - placement of ETT, secured, cuff inflated
BREATHING - rapid, slow, regular/irregular
PULSE - strong, weak, thready, absent
Then once you are confident in the patient’s condition, make a quick assessment of the patient’s depth

Question 16

How do you assess patient’s depth under anaesthesia? 4

Answer 16

• Eye position, nystagmus (species and drug dependent) lacrimation, pupil size and response to light
• Palpebral reflex - absent/present, brisk/sluggish, other CN reflexes.
• Muscular relaxation - jaw tone etc.
• EEG changes

Question 17

What physiological parameters need to be monitored during anaesthesia?

Answer 17

HR
Pulse rate
RR, depth, quality

Question 18

What can be used in small animals for physiological parameter monitoring?

Answer 18

oseophageal stethoscope - for heart and respiratory sounds.

Question 19

What clinical observations should be monitored? 8

Answer 19

Depth of anaesthesia
MMs
Pulse
Chest movements
Pupil size
Response to surgery
Blood loss
(Urine output)

Question 20

What equipment observation should be monitored? 6

Answer 20

Respiratory gases
Pulse oximeter
Blood pressures
ECG
Thermometer
Blood gases

Question 21

What does an ECG inform you of?

Answer 21

electrical activity of the heart

Question 22

What does an ECG not inform you of?

Answer 22

mechanical activity of heart
CO
BP

Question 23

T/F: after a patient has been euthanased under GA, a normal ECG trace may remain for several minutes

Answer 23

True

Question 24

Why is ECG monitoring recommended under GA?

Answer 24

cardiac arrhythmias occur in over 80% anaesthetised patients, most not clinically significant. most familiar departure from normal is sinus arrhythmia (so common it cannot be considered an abnormality, CO should be unaffected). abnormal ECGs have more significance if they indicate atrial contraction isn’t followed by ventricular contraction (2nd degree AV block) or ventricular activity is not preceded by atrial contraction (3rd degree AV block).

Question 25

When might AV blocks be seen under GA? 2

Answer 25

• bradycardic patients
• if sedated with an alpha-2-agonist
  = so long as arterial BP is satisfactory,it may not be significant

Question 26

What might VPCs be a warning of? 5

Answer 26

hypoxia
hypercapnia
acidosis
underlying heart disease
others - surgery to remove splenic tumours

Question 27

Why should VPCs be monitored closely?

Answer 27

worsening can progress to ventricular fibrillation (VF)

Question 28

What is the most common cause of delayed recovery from anaesthesia?

Answer 28

Hypothermia - can also cause other problems (bradycardia, increased susceptibility to infection, risks increasing the anaesthetic depth inadvertantly). Smaller the patient, the greater the risk (increased surface area to mass ratio)

Question 29

What is malignant hyperthermia (MH)?

Answer 29

very rare, genetic condition

triggered by used of older anaesthetics (halothane, suxamethonium)

Question 30

What is core temp. most effectively measured by?

Answer 30

thermistor probe in oesophagus (slightly more reliable) or rectum (slightly less reliable)

Question 31

When does heat loss occur?

Answer 31

after pre-med
preparation (especially alcohol-based scrubs)
surgery (especially opening of body cavity)

Question 32

List examples of warming devices

Answer 32

bubble wrap
blankets (reflective)
hot air blankets
water blankets
warmed IV fluids
warmed fluids for flushing

Question 33

Why be careful applying direct heat?

Answer 33

burning risk
increased vasodilation (further reduces core temperature)
hypotension

Question 34

How can respiratory gases be monitored? 3

Answer 34

Inspired oxygen concentration
Capnography
Anaesthetic agent concentration.

Question 35

What information does inspired oxygen concentration inform you of?
Method?

Answer 35

early warning that hypoxic gas mixtures are being delivered
METHOD = fuel cell fitted at the common gas outlet with a machine that measures % of oxygen OR can be measured at the end of the ETT via sidestream analysis (usually capnography) which allows measurement on a breath-by-breath basis (gives values for both inspired and end-tidal oxygen concentration, as a %).

Question 36

What is the minimum concentration of oxygen that is usually provided during anaesthesia to small animals and large animals?

Answer 36

Smallies - minimum 30% inspired oxygen concentration
Large animals - minimum of 60% oxygen normally used.

This ensures that hypovetilation alone is unlikely to cause hypoxaemia.

Question 37

Define capnography

Answer 37

measure of CO2 concentrations in respiratory gases - arguably the most useful monitoring equipment during anaesthesia - provides information on Resp, CVs and anaesthetic breathing systems

Question 38

How can CO2 concentrations in respiratory gases be measured (capnography)?

Answer 38

1. ) most commonly involves sidestream technology - gases are continuously suctioned from the breathing system (rate of about 150ml/min) into a sample cell within monitor (this effectively creates a leak in the breathing system).
2. ) mainstream techology
   * always remember to scavenge on a capnograph*

Question 39

What are the normal components of a capnogram?

Answer 39

Phase 1 = inspiratory baseline
Phase 2 = Expiratory upstroke (mix of dead space and alveolar gas)
Phase 3 = alveolar plateau (not horizontal line but continues to rise gradually. End-tidal value for CO2 is taken at the peak of phase 3)
Phase 4 = inspiratory downstroke

Question 40

Diffrentiate capnographs and capnometers.

Answer 40

Capnometers - give a numerical reading
Capnographs - give a graphical display of CO2 concentration with time. Most useful as shape of capnogram provides more info on respiratory system.

Question 41

Define etCO2.
Normal values?
Intervention value?

Answer 41

end-tidal CO2. Reading is taken at the peak of phase 3 (the alveolar plateau). Indicates how well an animal is ventilating. Normal range is 35-45mmHg (4.5-6kPa). Values >60mmHg (>8kPa) may warrant IPPV.

Question 42

How does the etCO2 relate to arterial pressure (PaCO2)

Answer 42

In animals with healthy lungs, the two are very closely related usually (PaCO2 is usually about 5mmHg higher) and thus may be used as a surrogate for vales obtained by blood gas analysis. In animals with diseased lungs, etCO2 measurements should be compared with arterial blood gas results if possible, especially at the beginning of anaesthesia.

Question 43

Define hypercapnia

Answer 43

increased CO2 in the blood

Question 44

Causes - hypERcapnia - 4

Answer 44

• Hypoventilation (anaesthetic-related resp.depression)
• Significant increases in inspired CO2
• Increased CO (if anaesthesia too light)
• Hyperthermia (increased metabolic rate)

Question 45

Causes - hypOcapnia - 4

Answer 45

• Artefact (patients with low tidal volumes, high rate of gas sampling by the capnograph may result in dilution of expired gas with fresh gas from the breathing system)
• Hyperventilation (anaesthesia too light)
• Decreased CO (anaesthetic overdose, shock)
• Hypothermia (decreased metabolic rate)

Question 46

Causes - absent etCO2 - 4

Answer 46

• apnoea
• cardiac arrest (no CO2 containing blood delivered to lungs)
• disconnection of breathing system
• airway obstruction

Question 47

What is the usual cause of increases in inspired CO2 concentration during anaesthesia?

Answer 47

Usually due to rebreathing. (e.g. insufficient fresh gas flow with a non-rebreathing system, exhausted CO2 absorbent or a malfunctioning one-way valve in a circle system)

Question 48

Define etCO2.
Normal values?
Intervention value?

Answer 48

end-tidal CO2. Reading is taken at the peak of phase 3 (the alveolar plateau). Indicates how well an animal is ventilating. Normal range is 35-45mmHg (4.5-6kPa). Values >60mmHg (>8kPa) may warrant IPPV.

Question 49

How does the etCO2 relate to arterial pressure (PaCO2)

Answer 49

In animals with healthy lungs, the two are very closely related usually (PaCO2 is usually about 5mmHg higher) and thus may be used as a surrogate for vales obtained by blood gas analysis. In animals with diseased lungs, etCO2 measurements should be compared with arterial blood gas results if possible, especially at the beginning of anaesthesia.

Question 50

What information do pulse oximeters provide? 3

Answer 50

Arterial blood Hb saturdatin (SpO2, espressed as %)
Adequacy of tissue perfusion
Pulse rate

Question 51

Causes - hypERcapnia - 4

Answer 51

• Hypoventilation (anaesthetic-related resp.depression)
• Significant increases in inspired CO2
• Increased CO (if anaesthesia too light)
• Hyperthermia (increased metabolic rate)

Question 52

Causes - hypOcapnia - 4

Answer 52

• Artefact (patients with low tidal volumes, high rate of gas sampling by the capnograph may result in dilution of expired gas with fresh gas from the breathing system)
• Hyperventilation (anaesthesia too light)
• Decreased CO (anaesthetic overdose, shock)
• Hypothermia (decreased metabolic rate)

Question 53

Causes - absent etCO2 - 4

Answer 53

• apnoea
• cardiac arrest (no CO2 containing blood delivered to lungs)
• disconnection of breathing system
• airway obstruction

Question 54

Define hypoxaemia in terms of PaO2

Answer 54

PaO2 < 60 mmHg is hypoxaemia.

Question 55

What can be measured when looking at anaesthetic agent concentration? When are they most useful?

Answer 55

inspired and expired volatile anaesthetic concentrations. machines doing this becoming more affordable.
Used with knowledge of MAC, helps assess depth of anaesthesia.
USES: especially when low gas flows are used in a circle system (when actual inspired concentrations may bear little relationship to vaporiser setting).

Question 56

How can you assess oxygenation? 3

Answer 56

Clinically -cyanosis
Arterial blood gas analysis
Pulse oximetry

Question 57

What information do pulse oximeters provide?

Answer 57

Arterial blood Hb saturdatin (SpO2, espressed as %)
Adequacy of tissue perfusion
Pulse rate

Question 58

What should the SpO2 be in healthy, anaesthetised animals?

Answer 58

95-100%

Question 59

What does an SpO2 of 90% correspond to in terms of PaO2?

Answer 59

PaO2 of approximately 60mmHg (i.e. a hypoxic leve)

Question 60

Equation for oxgyen delivery (DO2)

Answer 60

= arterial oxygen content (CaO2) * CO

Question 61

What should you do if SpO2 is low on 100% oxygen? 4

Answer 61

• check O2 supply
• check probe position
• check BP (hypoperfusion)
• have you used something causing vasoconstriction (aslpha-2-agonist)?

+ if true there are 2 options:

1. ) increased RHS -> LHS shunting (anatomical or intrapulmonary perfusion of unventilated alveoli)
2. ) impaired diffusion (v. rare)

Question 62

Why is pulse oximetry not a good measure of ventilation?

Answer 62

animals with healthy lungs breathing 100% oxygen can never hypoventilate enough to reduce their PaO2 to hypoxic levels (unless they stop breathing). Pulse oximetry gives no information about CO2 elimination.

Question 63

What happens in diseased lungs to SpO2?

Answer 63

serious reductions in SpO2 even when breathing 100% O2 because of problems matching ventilation with the blood flow through the lungs and the development of intrapulmonary shunting of blood.

Question 64

What happens at the end of anaesthsia in terms of ventilation?

Answer 64

Animal is disconnected from the circuit –> hypoventilation (even in healthy animals) –> can result in dangerous reductions in PaO2 and hence SPO2. This is when pulse oximetry is most useful in healthy animals. Always keep pulse oximeter probe attached to tongue for as long as possible, until you are happy that SpO2 is stable on room area.

Question 65

What is important to remember about pulse oximeters? 4

Answer 65

• Gradually falling SpO2 often indicates compression of pulsatile vascular bed (move probe).
• Peripheral vasoconstriction and hypoperfusion affect oximeter performance
• Readings are averaged over 10-20 seconds so machines can’t detect acute desaturation
• Measure O2 saturation but no direct information on O2 content of blood (depends on Hb concentration) nor O2 delivery to tissues (depends on CO).

Question 66

Equation for oxygen content (CaO2)

Answer 66

= (1.36[Hb]SpO2)+(0.003*PaO2)

Therefore anaemic animals may have low arterial oxygen content, even though SpO2 is normal.

Question 67

What is the most accurate reading from an oscillometer?

Answer 67

mean ABP (this is advantageous since it is the vale that is the true driving force for tissue perfusion)

Question 68

What type of ABP does the Doppler technique with the cuff measure? What about cats?

Answer 68

systolic ABP - although in cats the value given is probably closer to the mean. Some authorities recommended adding 14mmHg to the value to obtain the true systolic pressure in these species.

Question 69

When do oscillometers struggle to give readings?

Answer 69

excessive patient movement
presence of poor perfusion
irregular pulse (arrhythmias)

Question 70

Define ABP. What is it used for?

Answer 70

Arterial Blood Pressure
(used to assess the adequacy of tissue perfusion because it is easier to measure than CO which would be measured in an ideal world).

Question 71

Define NIBP

Answer 71

Non-invasive blood pressure measurement

Question 72

How can NIBP be performed? 2

Answer 72

1. ) Cuff arund limb/tail base- –> inflated above systolic ABP then gradually deflated until BF returns –> this is detected with a Doppler Ultrasound probe distal to the cuff OR oscillometry. Accuracy determined by cuff-size
2. ) Oscillometers give values for systolic (SAP), mean (MAP) and diastolic ABP but tend to underestimate the true pressures.

Question 73

How do you select the right cuff size to measure NIBP?

Answer 73

cuff width should be 40% of the circumference of the limb.
Small width cuffs –> over-reads BP
Large width cuffs –> under-read BP
Large determiner of NIBP accuracy.
Measured pressure alters with the site of measurement and its relationship to the level of the heart (hydrostatic pressure)

Question 74

What is the most accurate reading from an oscillometer?

Answer 74

mean ABP

Question 75

What type of ABP does the Doppler technique with the cuff measure? What about cats?

Answer 75

systolic ABP - although in cats the value given is probably closer to the mean. Some authorities recommended adding 14mmHg to the value to obtain the true systolic pressure in these species.

Question 76

When do oscillometers struggle to give readings?

Answer 76

excessive patient movement
presence of poor perfusion
irregular pulse (arrhythmias)

Question 77

At what mean ABP does renal perfusion start to reduce? When is this particularly important? 2

Answer 77

When MAP is < 60mmHg (ischaemia and necrosis). Maintaininf pressure >60mmHg is even more important in animals with pre-existing renal disease or those that have had NSAIDs pre-operatively.

Question 78

When is IABP indicated?

Answer 78

when rapid changes in haemodynamic state are indicated and continuous measurement of BP is essential. More accurate but may be associated with more complications

Question 79

Distinguish SaO2 and SpO2

Answer 79

SaO2 = arterial oxygen saturation measured by blood gas analysers
SpO2 = arterial oxygen saturation measured with a pulse oximeter

Question 80

What should you do if blood pressure is low? 4

Answer 80

1. ) reduce depth (anaesthesia)
2. ) fluid bolus (5-10ml/kg)
3. ) positive inotropes (dopamine, dobutamine)
4. ) avoid NSAIDs

Question 81

Where is the level of the heart in dorsal and lateral recumbency?

Answer 81

DORSAL: point of shoulder
LATERAL: manubrium sterni

Question 82

What are normal ABP values (systolic, diastolic and mean)?

Answer 82

Systolic= 100-160mmHg
Diastolic = 60-100 mmHg
Mean = 80-120 mmHg

Question 83

Causes - hypotension

Answer 83

• ** reduced CO as a result of hypovolaemia
• reduced CO
• reduced vascular resistance

Question 84

At what mean ABP does renal perfusion start to reduce? When is this particularly important? 2

Answer 84

When MAP is < 60mmHg (ischaemia and necrosis). Maintaininf pressure >60mmHg is even more important in animals with pre-existing renal disease or those that have had NSAIDs pre-operatively.

Question 85

Name 2 cartridge-based blood-gas analysers.
What do they measure ? 2
What do they calculate? 3

Answer 85

iSTAT and IRMA.
Measure pH and partial pressures (O2 and CO2) in a blood sample.
Calculated derived variable such as plasma bicarbonate concentration, base excess and saturation of Hb with oxygen.

Question 86

What PaO2 and SpO2 values should cause concern?

Answer 86

NORMAL: PaO2 >80mmHg (>10.6 kPa), SpO2 >95%

SERIOUS HYPOXAEMIA: <75%

Question 87

What should you do if blood pressure is low? 4

Answer 87

1. ) reduce depth (anaesthesia)
2. ) fluid bolus (5-10ml/kg)
3. ) positive inotropes (dopamine, dobutamine)
4. ) avoid NSAIDs

Question 88

What is the gold standard for evaluating gas exchange?

Answer 88

Arterial blood gas analysis (also provides information about the acid-base status of the patient)

Question 89

What are the normal ranges for arterial PCO2 (PaCO2)?

Answer 89

Normal range = 35-45mmHg (4.5-6kPa)
Value < 35mmHg indicates hypERventilation
Value >45mmHg indicates hypOventilation
Value >60mmHg is the upper limit, warrants artificial ventilation (IPPV).
Value < 25mmHg, <3.3kPa) indicates severe hypoventilation and can be associated with severe cerebral vasoconstriction, which may reduce cerebral perfusion and oxygen delivery.

Question 90

What shoyld the PaO2 be in an anaesthetised animal be?

Answer 90

PaO2 (mmHg) should be 5 times the FiO2 (=21%, normal PaO2 in a healthy animal breathing air) OR alternatively the ratio of PaO2/FiO2 should be >300.

Question 91

T/F: PaO2 measures the pressure of oxygen dissolved in blood and is independent of Hb concentration

Answer 91

True

Question 92

How is Hb saturation linked with PaO2?

Answer 92

oxyhaemoglobin dissociation curve.

Question 93

What PaO2 and SpO2 values should cause concern?

Answer 93

NORMAL: PaO2 >80mmHg (>10.6 kPa), SpO2 >95%

SERIOUS HYPOXAEMIA: <75%

Question 94

Why might a capnograph have an elevated plateau (increased etCO2)? 2

Answer 94

Hypoventilation

Increased metabolic rate

Question 95

Why might a capnograph have an elevated baseline AND plateau (increased etCO2 AND inspired CO2)?

Answer 95

rebreathing

Question 96

Why might a capnograph have a sudden etCO2 decrease to zero? 4

Answer 96

• airway obstruction
• circuit disconnection
• obstruction in sampling tube
• ventilator failure

Question 97

Why might a capnograph have a plateau that quickly decreases to low or zero values of etCO2? 2

Answer 97

• leaks in breathing system or around ETT cuff

- Reduced CO (= reduced delivery of CO2 to lungs)

Question 98

Why might a capnograph have a low etCO2 without a good plateau and slow rate of rise? 2

Answer 98

• expiration not complete before next inspiration (e.g. as seen with rapid RR, partial airway obstruction)
• contamination of sample with fresh gas