Clinical Aspects of Cerebral Perfusion and ICP

Question 1

What percentage of cardiac output goes to the brain?

Answer 1

15%

Question 2

What is the perfusion of the brain in ml/100g/min?

Answer 2

55-60ml/100g brain tissue per minute

Question 3

How does grey matter and white matter blood flow differ?

Answer 3

Grey matter blood flow is 75ml/100g/min, white matter is around 45ml/100g/min

Question 4

At what perfusion does ischaemia occur?

Answer 4

Ischaemia occurs at 20ml/100g/min

Question 5

At what perfusion does permanent damage occur?

Answer 5

Permanent damage results when the blood flow drops below 10ml/100g/min

Question 6

What is the most significant factor that determines cerebral blood flow?

Answer 6

Most significant factor that determines cerebral blood flow at any given time is cerebral perfusion pressure (CPP):

• Is the effective blood pressure gradient across the brain

Question 7

What does CPP stand for?

Answer 7

Cerebral perfusion pressure

Question 8

What formula describes cerebral perfusion pressure?

Answer 8

CPP = MAP – ICP

Question 9

How does increased ICP impact CPP?

Answer 9

Increased ICP causes decreased CPP

Question 10

What are some factors that regulate cerebral blood flow under physiological conditions?

Answer 10

• CPP
• Concentration of arterial CO₂
• Arterial PO₂

Question 11

What is cerebral autoregulation?

Answer 11

Ability to maintain constant blood flow to the brain over a wide range of CPP (50-150mmHg)

Question 12

Over what range of mmHg does cerebral autoregulation work?

Answer 12

50-150mmHg

Question 13

What happens when CPP is low for cerebral autoregulation?

Answer 13

• Cerebral arterioles dilate to allow adequate flow at the decreased pressure

Question 14

What happens when CPP is high for cerebral autoregulation?

Answer 14

• Cerebral arterioles constrict

Question 15

Under certain pathological conditions, cerebral blood flow cannot always be autoregulated. What are some examples?

Answer 15

• Hypertension
  
  • If CPP exceeds 150mmHg such as in hypertensive crises the autoregulatory system fails
• Exudation of fluid from the vascular system with resultant vasogenic oedema
• Toxins such as CO₂ can cause diffuse cerebrovascular dilation and inhibit proper autoregulation
• During first 4 to 5 days of head trauma many patients experience a disruption in cerebral autoregulation

Question 16

Cerebral oedema is a prominent cause of what?

Answer 16

Subacute to chronic intracranial hypertension

Question 17

What is cerebral oedema?

Answer 17

State of increased brain volume as a result of an increase in water content

Question 18

What are he different kinds of cerebral oedema?

Answer 18

• Vasogenic oedema (extracellular oedema)
• Cytotoxic oedema (intracellular oedema)
• Interstitial oedema

Question 19

What is vasogenic oedema also called?

Answer 19

Extracellular oedema

Question 20

What is cytotoxic oedema also called?

Answer 20

Intracellular oedema

Question 21

Compare and contrast the pathogenesis of each type of cerebral oedema?

Answer 21

Question 22

Compare and contrast the location of each type of cerebral oedema?

Answer 22

Question 23

Compare and contrast the composition of oedema fluid of each type of cerebral oedema?

Answer 23

Question 24

Compare and contrast the ECF (increasd/decreased) of each type of cerebral oedema?

Answer 24

Question 25

Compare and contrast the effect of steroids on each type of cerebral oedema?

Answer 25

Question 26

Compare and contrast the effect of mannitol on each type of cerebral oedema?

Answer 26

Question 27

What does BBB stand for?

Answer 27

Blood brain barrier

Question 28

What is the blood brain barrier?

Answer 28

A barrier composed of astrocytic foot process wrapping around a capillary endothelium composed of tight junctions

Question 29

Can all substances carried in the blood reach the neural tissue?

Answer 29

No, the blood brain barrier stops them

Question 30

What protects the brain from substances that can normally passively cross capillaries?

Answer 30

Endothelial tight junctions

Question 31

What are mechanisms by which materials may be transported naturally across the endothelial cells of the blood brain barrier?

Answer 31

* Lipid soluble substances * Can usually penetrate all capillary endothelial cell membranes in a passive manner * Amino acids and sugars * Transported across the capillary endothelium by specific carrier-mediated mechanisms

Question 32

What is the total volume that makes up ICP and what is this composed of?

Answer 32

Question 33

Wha is the Monro-Kellie Doctrine?

Answer 33

Describes the relationship between the contents of the cranium and intracranial pressure, in non-pathological states 3 components exist in equilibrium to maintain normal intracranial pressure, the brain tissue, the blood and the cerebrospinal fluid

Question 34

What percentage of cranial volume is composed of brain tissue?

Answer 34

70%

Question 35

What are the contents of the cranium?

Answer 35

Brain tissue BLood Cerebrospinal fluid

Question 36

In line with Monro-Kellie Doctrine, what must happen when a new intracranial mass is introduced to the cranium?

Answer 36

Compensatory change in volume must occur through a reciprocal decrease in venous blood of CSF to keep the total intracranial volume constant

Question 37

What is compliance?

Answer 37

Change in volume for a given change in pressure dV/dP

Question 38

What is elastance?

Answer 38

Inverse of compliance Elastance = change in pressure for a given change in volume dP/dV Represents the accommodation to outward expansion of an intracranial mass

Question 39

Describe the homeostatic mechanisms that means initial changes in cranium volume produce small changes in pressure?

Answer 39

Venous system collapses easily and squeezes venous blood out through the jugular veins or through the emissary and scalp veins CSF can be displaced from the ventricular system through the foramina of Luschka and Magendie into the spinal subarachnoid space

Question 40

What happens ones compensatory mechanism to keep cranium pressure change low with volume change have been exhausted?

Answer 40

Small changes in volume produce significant increases in pressure

Question 41

What are the 3 distinct peaks of ICP waveforms?

Answer 41

* Percussion wave * Tidal wave * Dicrotic wave

Question 42

What is A?

Answer 42

Percussion wave

Question 43

What is B?

Answer 43

Tidal wave

Question 44

What is C?

Answer 44

Dicrotic wave

Question 45

What test is done to determine high or flow CSF?

Answer 45

ICP pressure monitoring

Question 46

What are Lundberg waves?

Answer 46

Repetitive changes in intracranial pressure occurring at frequencies of 0.5 to 2 waves/min

Question 47

What are the different kinds of ICP waveforms?

Answer 47

A waves: * Abrupt elevation in ICP for 5 to 20 minutes followed by rapid fall in pressure to resting levels * The amplitude may reach as high as 50 to 100mmHg B waves: * Frequency of 0.5 to 2 waves per minutes, are related to rhythmic variations in breathing C waves: * Rhythmic variations related to waves of systemic blood pressure and have small amplitude

Question 48

What are A waves?

Answer 48

* Abrupt elevation in ICP for 5 to 20 minutes followed by rapid fall in pressure to resting levels * The amplitude may reach as high as 50 to 100mmHg

Question 49

What are B waves?

Answer 49

* Frequency of 0.5 to 2 waves per minutes, are related to rhythmic variations in breathing

Question 50

What are C waves?

Answer 50

* Rhythmic variations related to waves of systemic blood pressure and have small amplitude

Question 51

What is the frequency of B waves?

Answer 51

0.5 to 2 waves per minute

Question 52

What can the amplitude of A waves reach?

Answer 52

50 to 100mmHg

Question 53

What is Cushing's reflex?

Answer 53

Physiological nervous system response to increased intracranial pressure that results in Cushing’s triad of increased blood pressure, irregular breathing and bradycardia

Question 54

What does Cushing's reflex cause?

Answer 54

* Compression of cerebral arterioles * Decreased CBF, activation of autonomic nervous system * Sympathetic response * Alpha-1 adrenergic receptors causing hypertension and tachycardia * Aortic baro-receptors stimulate vagus nerve causing bradycardia * Bradycardia is also due to mechanical distortion of medulla

Question 55

What is the management of increased ICP?

Answer 55

Head end elevation to facilitate venous return Mannitol/hypertonic saline Hyperventilation to decreased CBF (temporary measure) Barbiturate coma to decrease cerebral metabolism and CBF Surgical decompression

Question 56

What are some newer concepts for the investigation of ICP?

Answer 56

Brain tissue oxygenation monitoring: * Probe to monitor oxygenation of tissue * Detect and treat low oxygenation, increasing CPP Micro-dialysis: * Investigate brain metabolism * Implantation of specially designed catheters * To collect small-molecular-weight substances to help measure and identify neurotransmitters, peptides and other substances