Applied anatomy, physiology and pharmacology for IV sedation

Question 1

Minimal sedation:
1. responsiveness
2. airway
3. ventilation
4. cardiovascular
 (4)

Answer 1

1. Normal response to verbal commands
2. Airway unaffected
3. Ventilation unaffected
4. Cardiovascular unaffected

Question 2

Moderate sedation:
1. responsiveness
2. airway
3. ventilation
4. cardiovascular
 (4)

Answer 2

1. Purposeful response to verbal or tactile stimulation
2. Airway maintained without intervention
3. Ventilation adequate
4. Cardiovascular usually maintained

Question 3

Deep sedation:
1. responsiveness
2. airway
3. ventilation
4. cardiovascular
 (4)

Answer 3

1. Purposeful response following repeated or painful stimulation
2. Airway intervention may be required
   Ventilation may be inadequate
3. Cardiovascular usually maintained

Question 4

GA:
1. responsiveness
2. airway
3. ventilation
4. cardiovascular
 (4)

Answer 4

1. Unrousable even with painful stimulation
2. Airway intervention often required
3. Ventilation frequently inadequate
4. Cardiovascular may be impaired

Question 5

5 parts of respiration (5)

Answer 5

1. Ventilation of gas into and out of lungs
2. Diffusion of gases from lungs into blood
3. Transport of oxygen by blood to cells and transport away of carbon dioxide
4. Diffusion of gases from blood to cells
5. Oxidation: use of oxygen to produce energy within cell and production of carbon dioxide

Question 6

Learn upper airway anatomy

Answer 6

Learn upper airway anatomy

Question 7

Learn lower airway anatomy

Answer 7

Learn lower airway anatomy

Question 8

Inspiration vs expiration (4)

Answer 8

Active vs passive
Initiated by diaphragm vs elastic recoil of lungs
Inspiration supported by intercostals, accessory muscles for more vigorous inhalation
Forced expiration involves abdominals and intercostals

Question 9

Normal rate of ventilation

Answer 9

10-18 per minute

Question 10

Gas exchange
-where
-how
(5)

Answer 10

Occurs within the alveoli
Wall single layer thick
0.2 micrometers
Adjacent to pulmonary capillary wall
Gases diffuse down concentration gradients

Question 11

Action of haemoglobin (7)

Answer 11

O2 binds to haemoglobin
Each molecule can carry 4 O2 molecules
Carried within red blood cells
CaO2= 1.34 x Hb x SpO2
Rely on adequate circulation to transport to tissues
Delivery = CaO2 x Cardiac Output
Properties of haemoglobin mean it releases O2 when it gets to the tissues

Question 12

Cellular respiration simple equation (5)

Answer 12

Glucose + 6O2 –> 6CO2 + 5H2O + ATP

Question 13

Control of respiration (3)

Answer 13

Autonomic nervous system: brainstem, medulla and pons
Respiratory centre
Respond to blood CO2 levels

Question 14

Monitoring respiration: basic clinical signs (4)

Answer 14

Respiratory rate 10-18 per minute
Depth of breathing
Pattern of breathing
Cyanosis

Question 15

Monitoring respiration: advanced (2)

Answer 15

Pulse oximetry (mandatory)
Carbon dioxide monitoring (optional)

Question 16

Limitations of pulse oximetry (5)

Answer 16

Ambient light
Movement 
Cold peripheries
Nail varnish
Measurement lag

Question 17

What is capnography? (2)

Answer 17

Detected exhaled CO2 in breath

Usually via nasal prongs

Question 18

How does capnography work? (3)

Answer 18

Waveform displayed on a monitor
Allows confirmation of adequate ventilation and an open airway
Patient has to be breathing through their nose

Question 19

Name 2 respiratory complications (2)

Answer 19

Upper airway obstruction

Hypoventilation

Question 20

Describe upper airway obstruction (3)

Answer 20

Sedation leads to a decrease in tone of the muscles of the pharynx
Leads to pharyngeal collapse, tongue falls against back wall of pharynx
Mild cases lead to partial airway obstruction, more severe leads to complete obstruction

Question 21

Signs of airway obsruction (5)

Answer 21

Snoring
Stridor
Drop in O2 saturations
Loss of CO2 trace
Seesaw respiration

Question 22

Management of airway obstruction (4)

Answer 22

Supplementary oxygen
Careful titration of sedation
Basic airway opening manoeuvres
Airway adjuncts

Question 23

Detection of hypoventilation (2)

Answer 23

Monitoring of respiratory rate

Drop in oxygen saturation

Question 24

Describe hypoventilation and its effects (4)

Answer 24

Sedative drugs also sedate the Respiratory center in the brain
Also reduce receptor sensitivity to CO2
Leads to reduced respiratory rate or complete cessation of breathing
CO2 levels can build up leading to narcosis

Question 25

Management of hypoventilation (2)

Answer 25

Reversal of sedation with Flumazenil or Naloxone

Assisted ventilation with self-inflating AMBU bag

Question 26

Basic function of the CV system (2)

Answer 26

Deliver oxygenated blood to body organs and tissues for metabolism
“Tissue perfusion”

Question 27

What happens with inadequate perfusion in
-cardiac ischaemia
-cerebral ischaemia
-lung
(4)

Answer 27

Organs and tissues quickly begin to fail:

• cardiac ischaemia –> angina –> MI
• cerebral ischaemia –> faint/ collapse –> stroke
• lung –> hypoxia

Question 28

What is the main determinant of organ perfusion? (1)

Answer 28

Blood pressure

Question 29

How is blood pressure displayed? (3)

Answer 29

systolic, diastolic and mean (MAP)

e.g. 120/60 (80)

Question 30

How is the MAP calculated? (1)

Answer 30

Diastolic + 1/3 (systolic - diastolic)

-modern machines calculate it for you

Question 31

What is a normal MAP? (1)

Answer 31

Around 80mmHg

Question 32

What is autoregulation? (2)

Answer 32

Ensures adequate perfusion over a range of MAPs
Limits will shift in people with chronic hypertension
(graph)

Question 33

What is blood pressure determined by? (2)

Answer 33

1. Cardiac output (CO)

2. Systemic vascular resistance (SVR)

Question 34

What is cardiac output? (1)

Answer 34

The amount of blood ejected by the heart per minute

Question 35

What is the average cardiac output? (1)

Answer 35

5litres / min

Question 36

How is cardiac output determined? (2)

Answer 36

By heart rate and stroke volume

-HR between 50-180 have little effect

Question 37

When is stroke volume reduced? (3)

Answer 37

Dehydration / blood loss
Ischaemic heart disease / heart failure
Anaesthetic drugs

Question 38

What is systemic vascular resistance? (2)

Answer 38

The resistance produced by the vascular system to the flow of blood, predominantly small arterioles throughout body

Question 39

Effect of dilation and constriction on SVR (2)

Answer 39

Constriction increases SVR and hence BP

Dilation decreases SVR and hence BP

Question 40

SVR is decreased by (3)

Answer 40

Sedative drugs
Anaphylaxis
Sepsis/ infection

Question 41

Acute blood pressure control (3)

Answer 41

Baroreceptors in aortic arch and internal carotids
Send signals to brain stem
Autonomic nervous system alters rate and strength of heart contraction and constriction of blood vessels

Question 42

Chronic blood pressure system (3)

Answer 42

Renin-angiotensin system
Aldosterone
Chronic regulation of blood sodium concentration and body fluid retention

Question 43

Monitoring BP: basic clinical signs (5)

Answer 43

Heart rate (from pulse oximeter)
Heart rhythm
Conscious level
Skin colour
Capillary refill

Question 44

Monitoring BP: advanced (2)

Answer 44

Non-invasive blood pressure (mandatory)

ECG monitoring

Question 45

How does non-invasive blood pressure (NIBP) work? (3)

Answer 45

Automated machines
Cuff around arm or calf
Automatic cycling - every 5 minutes

Question 46

What is NIBP affected by? (2)

Answer 46

Movement

Wrong size cuff

Question 47

What is sedation? (1)

Answer 47

Is a continuum which extends from normal alert consciousness to complete unresponsiveness

Question 48

ECG monitonitoring: what can it detect and when is it used? (2)

Answer 48

Used in pts with history of significant CV disease
Can detect arrythmias and also signs of cardiac ischaemia and infarction
Usually a 3-lead configuration

Question 49

Name 3 cardiovascular complications (3)

Answer 49

1. Hypotension
2. Cardiac arrhythmias
3. Cardiac arrest

Question 50

Causes of CV hypotension (2)

Answer 50

Vasodilation caused by sedative drugs

Some drugs decrease strength of heart contraction

Question 51

Risk factors in CV hypotension (2)

Answer 51

Dose related

More likely to occur in elderly, and those with existing CV disease

Question 52

Treatment for CV hypotension (5)

Answer 52

Prevention better than the cure!
Pre-assessment of comorbidity (recent IHD)
Stop administering agent
Place patient head down and with feet elevated
IV fluids may be required

Question 53

Risk factors/ causes of cardiac arrhythmias (4)

Answer 53

Multi-factorial aetiology
May be precipitated by adrenaline in LA
More likely in elder and those with CVS disease
Raised blood CO2 levels also increase risk

Question 54

Treatment for cardiac arrhythmias (2)

Answer 54

Call for expert help

ALS standard algorithms

Question 55

Commonly used drug types in moderate sedation (3)

Answer 55

Benzodiazepines: Midazolam
Opiates: Fentanyl, Remifentanil
Others: Propofol, Ketamine, Dexomethomedine

Question 56

Mode of action of Midazolam

Question 57

How is Midazolam given including onset, peak and duration? (5)

Answer 57

IV for moderate sedation
-onset: 1-3mins
-peak: 5-7mins
-duration: 20-30mins
Titrate dose to desired end-point e.g. slurring of speech

Question 58

Dosing of midazolam (4)

Answer 58

Initial dose ≈ 2.5mg given over 2 minutes
Wait at least 2 minutes for effect
Subsequent doses of 1mg
Usually no more than 5mg total

Question 59

Midazolam: cautions (2)

Answer 59

Decrease initial dose to 1.5mg in the elderly

If used with a pre-med then reduce dose by 1/3

Question 60

Advantages of Midazolam (3)

Answer 60

Quick onset
Short action of duration
Minimal cardiovascular effects

Question 61

Adverse effects of Midazolam (2)

Answer 61

Respiratory depression

Airway obstruction

Question 62

What does flumazenil do including onset and peak effect (3)

Answer 62

Reverse benzodiazepine effects quickly

Onset within 1-2mins, peak effect within 6-10mins

Question 63

Dose of Flumazenil (2)

Answer 63

Dose of 200mcg every 1-2mins as required

Question 64

What is fentanyl and what does it do including onset, peak and duration (5)

Answer 64

Man-made synthetic opiate drug
Provides analgesia and sedation
Onset:	1 - 2 mins
Peak:	10 - 15 mins
Duration:	30 - 60 mins

Question 65

Dosing of Fentanyl (1)

Answer 65

25mcg (0.5ml) bolus up to 200mcg max

Question 66

Advantages of Fentanyl (3)

Answer 66

Provides analgesia as well as sedation
Fast onset
Short duration of action

Question 67

Adverse effects of Fentanyl (3)

Answer 67

Hypotension and bradycardia
Respiratory depression
Nausea and vomiting

Question 68

Remifentanil: what is it and how it is administered? (3)

Answer 68

Ultra short acting opiate
Very potent analgesic effect
Has to be administered by continuous infusion via syringe driver

Question 69

Advantages of Remifentanil (2)

Answer 69

Excellent analgesic properties

Extremely short duration of action (8 minutes)

Question 70

Adverse effects of Remifentanil (3)

Answer 70

Hypotension
Bradycardia
Respiratory depression and apnoea

Question 71

What is Propofol including onset and duration (3)

Answer 71

IV induction agent
Onset: 30s
Duration: 10-15mins

Question 72

Dosage of Propofol (2)

Answer 72

10-20mg (1-2mls) every 5mins
OR
By continuous infusion

Question 73

Advantages of Propofol (2)

Answer 73

Very potent sedative

Rapid onset

Question 74

Adverse effects of Propofol (3)

Answer 74

Only for use by trained sedationist or anaesthetic staff
Can rapidly progress to general anaesthesia
Significant cardiovascular and respiratory depression

Question 75

General tips for IV sedation (4)

Answer 75

Use single drug if possible - avoid ‘polypharmacy’
Give small incremental boluses to titrate effect in individual patient
Easier to give a bit more than to deal with effects of giving too much
Knowledge of time to onset and peak effect of the drug you are using

Question 76

What is polypharmacy and what are the good aspects? (4)

Answer 76

Use of more than one drug
Can have advantages
Different drugs give different effects e.g. Opiate + Benzodiazepine gives both sedation and analgesia
Giving a second drug means you can use less of the first drug and so potentially reducing side effects

Question 77

Disadvantages of polypharmacy (3)

Answer 77

Opens the door for greater risk of overdosing and over-sedating patients
Drugs with the same side effects will have synergistic action and make those side effects even more likely
Must be aware of time to peak effect of the drugs you are using as not waiting for full effect of first drug may lead to dosing of 2nd drug peaking with 1st drug –> significant over-sedation and side effects