Cerebral Perfusion Flashcards
% cardiac output to brain
15%
Normal cerebral blood flow
averages 55 to 60 mL/100 g brain tissue per minute
Grey matter the blood flow is 75 mL/100 g/ minute
White matter it is around 45 mL/100 g/ minute
CBF classes as Ischemia
20 mL/100 g/minute. Permanent damage usually results when the blood flow drops below 10 mL/100 g/minute
cerebral perfusion pressure (CPP)
CPP is the effective blood pressure gradient across the brain
CPP = MAP − ICP
MAP = DP + 1⁄3PP or 2⁄3DP + 1⁄3SP
Factors that regulate cerebral blood flow under physiological conditions
CPP
Concentration of arterial CO2
Arterial PO2
Cerebral autoregulation
The ability to maintain constant blood flow to the brain over a wide range of CPP (50-150 mm Hg).
Under certain pathological conditions cerebral blood flow cannot always be autoregulated
CPP exceeds 150 mm Hg, such as in hypertensive crisis, the autoregulatory system fails. Exudation of fluid from the vascular system with resultant vasogenic edema
Certain toxins such as carbon dioxide can cause diffuse cerebrovascular dilatation and inhibit proper autoregulation
During the first 4 to 5 days of head trauma, many patients can experience a disruption in cerebral autoregulation
Vasogenic Oedema
increased capillary permeability, mainly white matter, plasma proteins, increased extracellular fluid. Primary or metastatic tumour, abscess, late stages of infarction, trauma. steriods and mannitol effective
cytotoxic oedema
cellular swelling (neuronal, endothelial, glial). grey and white matter. increased intracellular fluid and sodium due to failure of membrane transport. decreased extracellular fluid. early stages of infarction, water intoxication. steriods not effective. mannitol effective.
Monro- Kelly Doctrine
The cranium is a rigid structure
Brain, blood and CSF
When a new intracranial mass is introduced, a compensatory change in volume must occur through a reciprocal decrease in venous blood or CSF to keep the total intracranial volume constant
Compliance
Change in volume observed for a given change in pressure
dV / dP
Elastance
Inverse of compliance
Change in pressure observed for a given change in volume
dP / dV
It represents the accommodation to outward expansion of an intracranial mass
Cushing’s reflex
Vasopressor response
-Hypertension, irregular breathing and bradycardia
Cranial surgery or head injury.
Would expect patients to have a lower GCS.
- Increased ICP more than MAP
- Compression of cerebral arterioles
- Decreased CBF, activation autonomic nervous system
- Sympathetic response: alpha-1 adrenergic receptors -> Hypertension and tachycardia
- Aortic baro-receptors stimulate vagus nerve -> Bradycardia
- Bradycardia also due to mechanical distortion of medulla
Management of increased ICP
Head end elevation: facilitate venous return
Mannitol/ Hypertonic saline
Hyperventilation: decrease CBF (temporary measure)
Barbiturate coma: decrease cerebral metabolism, CBF
Surgical decompression
