Burns

Question 1

What are the main categories of burns?

Answer 1

• Scalds
• Chemical
• Thermal
• Radiation
• Electric

Question 2

Which chemicals are worse for burns; acids or alkalis?

Answer 2

Alkalis - penetrate deeper

Question 3

What are the local effects of burns?

Answer 3

Jackson’s burn model

• Zone of Coagulation - irreversible process
• Zone of Stasis - reduced blood flow
• Zone of hyperaemia

Question 4

What is the systemic pathophysiology seen in burns?

Answer 4

https://www.youtube.com/watch?v=j4v7PFw5wA0

• Fluid loss
• Increased metabolic rate
• Infection

Question 5

Why do you get fluid loss in burns?

Answer 5

Due to dramatically increased vascular permeability and protein loss

Question 6

What layer does a superficial burn affect?

Answer 6

Epidermis

Question 7

What is the appearence of a superficial burn?

Answer 7

Red

Question 8

How long does it take to heal a superficial burn?

Answer 8

5-7 days

Question 9

How painful is a superficial burn?

Answer 9

Mild/moderate - due to exposure of sensory nerve endings

Question 10

Do superficial burns scar?

Answer 10

No

Question 11

What layers does a partial thickness superficial burn affect?

Answer 11

Epidermis and superficial dermis

Question 12

What is the appearence of partial thickness superficial burns?

Answer 12

• Red
• Blistering - closed blister

Question 13

How long does it take for superficial partial thickness burns to heal?

Answer 13

Up to 3 weeks

Question 14

How painful is a partial thickness superficial burn?

Answer 14

Moderate/severe

Question 15

Do partial thickness superficial burns scar?

Answer 15

Partially

Question 16

What layers do partial thickness deep burns affect?

Answer 16

Epidermis down to deep dermis

Question 17

What is the appearence of a partial thickness deep burn?

Answer 17

• Brown blisters
• White tissue

Question 18

How long does it take for partial thickness deep burns to heal?

Answer 18

3+ weeks

Question 19

How much pain would someone be in with a partial thickness deep burn?

Answer 19

Pain to pressure - The dermal nerve endings are also damaged and hence sensation to pinprick is also lost

Question 20

Do deep partial thickness burns scar?

Answer 20

Yes

Question 21

Which skin layers are involved in full thickness burns?

Answer 21

Into subcutaneous layer

Question 22

What is the appearence of a full thickness burn?

Answer 22

Dense white, waxy or even charred appearance; note the white leathery appearance of the burnt skin which shines on exposure

Question 23

Do full thickness burns heal?

Answer 23

No

Question 24

Are full thickness burns painful?

Answer 24

No - There is total loss of sensation as all sensory nerve endings within the dermis are destroyed.

Question 25

How would you calculate surface area for burns?

Answer 25

• Rule of 9’s
• Hand surface area is 1%
• Lund and Browder assessment

Question 26

What are first aid measures for managing burns?

Answer 26

• Run under cold water - 20 minutes
• Remove rings and jewellery
• Anti-inflammatory drugs
• Apply cling film/appropriate dressing
• For chemical burns - irrigate

Question 27

What problems with breathing can burns cause?

Answer 27

• Inhalation of combustion products/toxic fumes
• CO poisoning
• ARDS

Question 28

What circulation problems can occur due to burns?

Answer 28

• Fluid loss resulting in shock
• Cardiac arrhythmias
• Decreased urine output

Question 29

Are you more likely to be hypothermic or hyperthermic in severe burns?

Answer 29

Hypothermic

Question 30

What pain medication would you give to someone with severe burns?

Answer 30

10mg morphine and titrate to effect +/- NSAIDs

Question 31

What vaccination should perople with severe burns recieve?

Answer 31

Tetanus booster

Question 32

What is a scald?

Answer 32

Wet heat burns

Question 33

What happens in the zone of coagulative necrosis?

Answer 33

Inability to conduct heat away from site quick enough -> immediate coagulation of intraceelular proteins which leads to necrosis

Question 34

What happens in the zone of stasis?

Answer 34

Damage to dermal microcirculation -> tissue ischaemia

This area is DAMAGED but potentially VIABLE

Question 35

What happens in the zone of hyperaemia?

Answer 35

Reversible increase in blood flow and inflammation - caused by inflammatory mediators released by damaged tissue

Question 36

What vascular changes occur both locally and systemically in burns victims?

Answer 36

• Vasodilatation
• Increased vascular permeability
• Loss of protein and fluid
• Cell death
• Hypoperfusion

Question 37

Why can acute kidney injury occur in burns?

Answer 37

In serious burns:

• Hypovolaemia
• Vasoconstriction in response to shock
• Red cell haemolysis
• Myoglobin release

Question 38

Why does the body enter a hypermetabolic state after a burn?

Answer 38

Profound catabolic state

• Release of stress hormones - cortisol, glucagon, various catecholamines
• Suppression/resistance of anabolic hormones - insulin, GH

This state results in muscle protein breakdown, making amino acids available for tissue repair

Question 39

What immunological effects do burns have?

Answer 39

Immunosuppression - due to the release of cortisol which affects both the humoral and cellular immune mechanisms. Burn wound infection is problematic because it delays healing, encourages scarring and may result in bacteraemia, sepsis or multiple-organ dysfunction. This is why infection is still the leading cause of mortality in burn patients!

Question 40

What respiratory issue can occur in burns victims?

Answer 40

ARDS

Question 41

What are GI effects of burns?

Answer 41

• Gastroparesis
• Stress ulcers

Question 42

What would you want to elicit from a burns history?

Answer 42

• Time of the injury
• Circumstances
• First aid treatment received
• Affected area was immersed in water? - how long was it for?
• Any analgesia taken?
• When was the patient last immunised against tetanus?
• Does the patient have any relevant PMH? - esp. diabetes
• Take relevant drugs? - steroids or warfarin
• Allergic to dressings or antibiotics?

Question 43

Why is it important to ask about circumstances of a burn that someone has recieved?

Answer 43

Co-existing injuries from:

• Open vs closed space fire
• Jumping/falling whilst trying to escape
• RTC’s
• Explosions/blasts
• Electrical burns - may have been thrown significant distance

Question 44

Why is it good practice to run a burn under a cold tap for 20 minutes?

Answer 44

Reduces inflammatory reaction, thus inhibiting progression of zone of necrosis

Question 45

What must you be careful to avoid when running a burn under a cold tap?

Answer 45

Hypothermia

Question 46

How long should you run a burn on a child under a cold tap?

Answer 46

2 minutes - increased risk of hypothermia

Question 47

Why would you not want to use ice or iced water?

Answer 47

Causes vasoconstriction which deepens the injury

Question 48

When getting vascular access in someone with severe burns, what bore size would you use?

Answer 48

2 Large bore cannulas

Question 49

How would you monitor fluid output in a severely burned individual?

Answer 49

Catherise them

Question 50

What bloods would you consider taking as part of an ABCDE assesment in a burns victim?

Answer 50

• RBC
• U+E’s
• Clotting
• Glucose
• Group and save/cross-match
• Carboxyhaemoglobin
• ABG

Question 51

What would you do as part of exposure assessment when performing a primary survey on someone with burns?

Answer 51

• Remove all clothing and jewellery
• Keep the patient warm with blankets or Bair Hugger
• Trim/shave any hair if necessary
• Log-roll the patient to check his back.

Question 52

Why can individuals who are burnt become hypothermic?

Answer 52

Severely burnt patients, particularly children, are liable to heat loss as blister fluid evaporates and normal capillary control is lost in the damaged skin.

Question 53

What are important things to consider in terms of management of a burns victim, besides fluid requirements and analgesia?

Answer 53

• Antibiotics
• Tetanus vaccination

Question 54

What are the two most important factors determining your management of someone with burns?

Answer 54

• Total body surface area
• Depth

Question 55

What is the distinguishing feature of deep partial thickness burns?

Answer 55

Greatly reduced cap refill time - because the burn has destroyed the dermal vascular plexus.

Question 56

How do superficial burns heal?

Answer 56

Secondary intention

Question 57

What is an eschar?

Answer 57

The coagulated dead skin of a full thickness burn

Question 58

What is the most useful clinical indicator of burn depth?

Answer 58

Capillary refill

Question 59

What is a rough guide to calculating moratlity risk from burns?

Answer 59

TBSA affected + Age = mortality

Question 60

What is the most common method used for calculating total body surface area affected by a burn?

Answer 60

Lund Browder Chart

Remember not to include erythema only

Question 61

What is Wallace’s rule of 9’s?

Answer 61

This divides the body surface area into areas of nice percent or multiples of nine percent with the only exception being the perineum which accounts for one percent. The rule of nines is relatively accurate for adults but inaccurate in small children

Question 62

What is the palm method for calculating burn size?

Answer 62

Use the surface area of the patient’s palm, which is equal to 1% of their body surface. This is most appropriate for small burns and in children.

Question 63

What is the Parkland formula for calculating fluid requirements?

Answer 63

4ml X TBSA (%) x Weight (kg) = total mls over 24 hours

Can’t use this equation for any TBSA above 50% - if above, just use 50%

Question 64

When calculating fluids to give when managing someone with burns, what do you need to take into account first?

Answer 64

• How long it has been since the burn first occured
• How much fluid has already been given as resus fluid
  
  • Subtract from overall fluid calculated using parklands

Question 65

When should resus fluids be considered in an adult with burns?

Answer 65

>15%

Question 66

How would you monitor clinical effectiveness of fluid resuscitation in a burns patient?

Answer 66

• Clinical examination
• BP
• Urinary catheter
• Central venous line
• ABG

Question 67

When should resus fluids be considered in a child with burns?

Answer 67

>10%

Question 68

How would you calculate fluid requirements in a child that had >10% burns?

Answer 68

Modified parklands formula = 2 x TBSA (%) x Weight (kg)

PLUS

Maintenance fluids - 4, 2, 1 rule

Question 69

What fluid is used in resus of children with burns?

Answer 69

0.9% saline +/- 5% dextrose - modest hepatic glycogen reserves, which can be exhausted quickly, need replacement of glucose

Question 70

What type of fluids are used in adult resuscitation for burns?

Answer 70

Hartmann’s solution

Question 71

Why should capillary glucose be monitored during the inital hours of a burn?

Answer 71

Should be routine during the hypermetabolic state as glucose is used, especially for patients with larger burns.

Question 72

What CVP should you aim for when fluid resuscitating someone with >15% burns?

Answer 72

8-10 mmHg

Question 73

What would an increased serum lactate in someone with burns indicate?

Answer 73

Reduced tissue perfusion

Question 74

How much does an inhalation injury increase mortality by?

Answer 74

40%

Question 75

When would you suspect an inhalation injury?

Answer 75

• Shortness of breath/dyspnoea
• Wheezing and brassy cough
• Hoarse voice
• Closed space injury
• Facial injury
• Singed nasal hair
• Carbonaceous sputum
• Wheezing
• Pharyngeal oedema

Question 76

What are signs of an inhalation injury?

Answer 76

• Soot in respiratory and oral secretions
• Burns around the mouth and face
• Stridor
• Altered consciousness
• Increased respiratory rate and effort of ventilation

Question 77

What are the different types of inhalation injury?

Answer 77

• Supraglottic (above the larynx)
• Subglottic (below the larynx)
• Systemic

Question 78

What is the cause of supraglottic inhalation injury?

Answer 78

Primarily a thermal injury to the airways above the larynx and occurs due to the inhalation of hot gases. The damage caused leads to the release of inflammatory mediators which causes oedema of tissues leading to ventilatory obstruction.

Question 79

What is the cause of subglottic inhalation injury?

Answer 79

Primarily a chemical injury to the alveoli caused by the dissolving of the inhaled products of combustion in the fluid lying over and within the cells lining the respiratory tract

Question 80

What two chemicals are often implicated in inhalation injuries?

Answer 80

• Carbon monoxide
• Cyanide

Question 81

If you suspected an inhalation injury, what would you do to manage them?

Answer 81

• Give humidified oxygen at 15 litres per minute via a non-re-breathing mask.
• Monitor sats continuously!
• Call for help of your senior and an anaesthetist, as airway oedema may develop rapidly and mechanical ventilatory support may be needed!

Question 82

What are the 4 major criteria used to determine whether a referral is necessary for a burn?

Answer 82

• TBSA
• Depth
• Site
• Mechanism

Question 83

At what TBSA would you consider referring an adult to a burns unit?

Answer 83

>3%

Question 84

At what TBSA would you consider referring a child to a burns unit?

Answer 84

>2%

Question 85

What depth of burns would require referal to a burns unit?

Answer 85

• Circumferencial
• Full thickness

Question 86

What sites would require referral to a burns unit?

Answer 86

• Hands
• Feet
• Genetalia

Question 87

When would immediate surgery be required to manage a burn?

Answer 87

• Eyelids
• Circumferential burns
• A thick, tough, dry eschar around neck

Question 88

What do you need to look for in electrical burns?

Answer 88

Entry and exit point

Question 89

In electrical burns, what is the amount of heat generated proportional to?

Answer 89

• Amount of current
• Tissue resistance
• Duration of contact

Question 90

Electrical burns - list tissues in terms of their resistance to electrical current; from least to most resistance.

Answer 90

1. Nerve
2. Vessel
3. Muscle
4. Skin
5. Tendon
6. Fat
7. Bone

Question 91

What are the different types of electrical burns?

Answer 91

• Contact: entry and exit
• Flash, arc: exit and re-entry
• Thermal: ignition of clothing and nearby structures.

Question 92

What extra monitoring do you need to do with electrical burns?

Answer 92

ECG and 24 hours cardiac monitoring

Question 93

What type of tissue necrosis do acids cause?

Answer 93

Causing a coagulative necrosis (like thermal burns).

Question 94

What type of tissue necrosis occur in alkali burns?

Answer 94

Liquefactive necrosis.

Question 95

What are the most commonly implicated acids in chemical burns?

Answer 95

• Sulphuric acid
• Nitric acid
• Hydrochloric acid
• Hydrofluoric acid

Question 96

What are the most commonly implicated alkali’s in chemical burns?

Answer 96

• Sodium and potassium hydroxide
• Cement

Question 97

How would you manage chemical burns?

Answer 97

Irrigation, irrigation and irrigation