Traumatic Brain Injuries

Question 1

What is a traumatic brain injury (TBI)?

Answer 1

a brain injury caused by an external injury to the head

Question 2

what is a primary brain injury?

Answer 2

injury to the brain tissues as a direct result of neurotrauma

Question 3

what is a secondary brain injury?

Answer 3

Brain damage occurring post injury as a result of extracranial causes, such as hypoxia, hypotension or hypoglycaemia, or intracranial causes, such as haemorrhage, swelling or infection

Question 4

what is an acquired brain injury (ABI)?

Answer 4

any kind of brain damage that occurs after both. Most ABI’s are associated with drug and/or alcohol misuse, infections, strokes, and other diseases

Question 5

what determines the severity of a primary brain injury?

Answer 5

the extent of neuronal and vascular damage

Question 6

what are the three classifications given to the mechanism of a TBI?

Answer 6

impact loading, impulsive loading, and static loading

Question 7

what is impact loading?

Answer 7

this describes a TBI which occurs as a result of contact and inertial forces. It is defined as the head colliding with a solid object at a tangible speed. E.g. in a motor bike accident if the patient is thrown from the bike and their head collides with a tree

Question 8

what is impulsive loading?

Answer 8

this describes when the head is in motion and inertial forces lead to acceleration-induced TBI. For example in a car accident when someone is rear ended. Their head will jerk forward despite not necessarily coming into contact with an object. This causes the brain to move within the skull

Question 9

what is static loading?

Answer 9

this describes a TBI that has occurred when the head becomes trapped between a rigid object and a slow moving object which gradually squeezes the head and skull. It generally results in multiple fractures and results in deformity of the skull and brain

Question 10

what does a closed skull fracture describe?

Answer 10

when the skull is fractured but there is not interaction with the outside environment, i.e. the skin is not broken

Question 11

what is an open skull fracture?

Answer 11

when the skull is fractured and the skin is broken allowing communication with outside environment

Question 12

what is a simple skull fracture?

Answer 12

only one bone fragment

Question 13

what is a compound skull fracture?

Answer 13

multiple bone fragments

Question 14

what does a linear skull fracture describe?

Answer 14

a line in the skull that passes through it’s full thickness, generally a result of a significant blow

Question 15

what does a depressed fracture describe?

Answer 15

occurs when there is significant bone fragmentation which causes an actual depression in the skull surface. Generally a result of a significant mechanism of injury. Bone fragments can become lodged in the underlying brain tissue.

Question 16

What is a base of skull fracture?

Answer 16

fractures involving the base of the skull and cribriform plate

Question 17

what structures are most commonly affected by a base of skull fracture?

Answer 17

the petrous portion of the temporal bone, external auditory canal, and the tympanic membrane

Question 18

what are some tell tale signs of a base of skull fracture?

Answer 18

clear fluid (cerebrospinal fluid) leakage from the ears, periorbital ecchymosis (raccoon eyes), and a ‘battle sign’ which is a bruise that develops over the mastoid process (behind ear) 12-24 hours after the insult

Question 19

why can CSF leakage occur in a base of skull fracture?

Answer 19

because base of skull fractures are often associated with tearing of the dura mater

Question 20

where in the skull does cerebrospinal fluid flow?

Answer 20

in the subarachnoid space

Question 21

from superficial to deep, what are the layers of the head, skull and meninges?

Answer 21

skin, periosteum, skull, dura mater, subdural space, arachnoid mater, subarachnoid space, pia mater, brain

Question 22

what is a concussion?

Answer 22

a transient reduction in cerebral functioning without structural defect, often caused by an acceleration injury or blunt force trauma. It is thought that the Reticular Activating System is impacted

Question 23

what are some signs of concussion?

Answer 23

• light headedness
• vertigo
• nausea
• vomiting
• tinnitus
• photophobia
• fatigue
• cognitive disfunction

Question 24

what is cerebral contusion?

Answer 24

bruising of the brain tissue resulting in an alteration of neurological function that includes conscious level

Question 25

what are the most common locations for cerebral contusions to occur?

Answer 25

the frontal and temporal lobes

Question 26

what is a coup contusion?

Answer 26

a contusion/bruise that occurs at the site of impact

Question 27

what is a contrecoup contusion?

Answer 27

a contusion/bruise that occurs opposite the site of impact

Question 28

review this snapshot of differnt intracranial haemorrhages

Answer 28

Question 29

how long after the primary brain injury do the pathphysiological process of a secondary brain injury begin to develop?

Answer 29

2-24 hours

Question 30

what are some identifyable symptoms in the development or exacerbation of a secondary brain injury?

Answer 30

• hypotension (systolic BP <90mmHg)
• hypoxia (SpO2 <90 or PaO2 <50mmHg)
• hypoglycaemia
• hyperprexia (body temp goes above 41.5C due to changes in the hypothalamus)
• hypocapnia (PaCO2 <30mmHg)

Question 31

what is the predominant mechanism of secondary brain injuries?

Answer 31

impaired cerebral oxygenation as a result of reduced cerebral blood flow

Question 32

review this clinical snapshot of secondary brain injuries

Answer 32

Question 33

what are some causes (list 2-3) of secondary brain injury associated with increased morbidity and mortality?

Answer 33

• hypoxia
• hypotension
• hypo/hypercapnia
• hyperthermia
• hypo/hyperglycaemia
• hyperosmolarity
• hypo/hypernatraemia
• infection
• seizure
• delayed haemotoma
• subarachnoid haemorrhage
• vasospasm
• hydrocephalus

Question 34

regarding the inflammatory process, what is an important consideration when treating someone with a suspected TBI or increased ICP?

Answer 34

the inflammatory process can increase membrane permeability, as a result the blood brain barrier may be more susceptible to crossing. It is important to consider this as drugs that usually don’t cross this barrier may have an undesired affect

Question 35

explain the principle of the monroe-kellie doctrine

Answer 35

the monroe-kellie doctrine states that as the skull is essentiall a ‘closed vault’ pressure and volume are inversely related. There are three subtances that makeup the inside of the skull, brain tissue (around 1300mL), blood (100-150mL), and cerebrospinal fluid (100-150mL). Essentially, if there is a rise in one of these three things ICP will rise and the volume of the other components will decrease. If a compensatory reduction in volume does not occur, ICP will rise further

Question 36

what percentage of your bodies total oxygen requirements does your brain use?

Answer 36

20%

Question 37

what is cerebral perfusion pressure and how is it calculated?

Answer 37

The amount of pressure needed to maintain bloodflow to the brain

A calculated measure of blood flow to the brain. CPP is determined by subtracting intracranial pressure from mean arterial blood pressure

Question 38

How is MAP calculated and what does it represent?

Answer 38

MAP = 1/3 pulse pressure + diastolic BP
or MAP = (2xdiastolic + systolic BP) / 3

MAP represents the average pressure in a persons arteries during one cardiac cycle

Question 39

What happens if ICP is increased and MAP is decreased?

Answer 39

CPP is reliant on a balance of MAP (systemic BP) and ICP. If MAP is ↓ (due to ↓BP) and ICP is ↑, then autoregulatory mechanisms will try to ↑ BP and HR in order to improve CO

Question 40

autoregulatory machanisms responsible for maintaining CPP are sensitive, between what ranges do they work effectively?

Answer 40

CPP between 50mmHg and 150mmHg

Question 41

what is cushings reflex?

Answer 41

this occurs when a space-occupying mass (e.g haemorrhage, haemotoma) increase intracranial pressure (ICP). This rapid rise in ICP causes brain tissue to become displaced and move towards the foramen magnum. Cushings reflex is a result of this and is characterised by hypertension, bradycardia, and irregular respirations

Question 42

what are the major regulatory machanisms in maintaining adequate cerebral blood flow?

Answer 42

PaCO2, blood pressure, and blood pH

Question 43

how do PaCO2, blood pressure and blood pH

Answer 43

alterations in these things will cause cerebral vasoconstriction and/or vasodilation

Question 44

does hypotension and/or hypoventilation result in vasoconstriction or vasodilation?

Answer 44

hypotension and/or hypoventilation will result in an increase in PaCO2 and therefore a decrease in pH (acidosis). This will cause vasodilation in an attempt to increase cerebral blood flow and oxygen delivery

Question 45

does hypertension, hyperventilation, and/or an increased pH (alkalosis) result in vasodilation or vasocontriction?

Answer 45

hypertension and/or hyperventilation will result in a decrease in PaCO2 and therefore an increase in pH (alkalosis). This will cause vasodilation in an attempt to decrease cerebral blood flow

Question 46

what is the glasgow coma scale?

Answer 46

a tool used to assess and calculate a persons level of conciousness

Question 47

explain the scoring of the glasgow coma scale

Answer 47

Question 48

what are the key considerations in TBI management?

Answer 48

airway management - intubations, consider risk of C-spine injury

blood pressure management - important to manage adequate CPP, consider rising ICP and fluid overload

management of intracranial hypertension - positioning, anti-seizure and anti-emetic medication, reduce anxiety-related sympathetic innervation