physiology
Last reviewed 06/2023
Cerebral Blood Flow (CBF) = Cerebral Perfusion Pressure (CPP) / Cerebral Vascular Resistance (CVR)
CPP = Systemic BP - Intracranial Pressure (ICP)
Normal ICP = 0-10 mm Hg (0-135 mm CSF). Small increases in CSF volume may be accommodated by CSF expulsion to the lumbar theca.
Factors affecting CVR:
-
chemoregulation - accumulation of metabolic by-products
- for example a fall
in arteriolar PCO2 produces a cerebral vasoconstriction; reverse for cerebral
vasodilatation
- rapid reduction of intracranial blood volume is conventionally
obtained by controlled hyperventilation via the CO2-regulation of CBF
- effect
is mediated via a pH-dependent constriction of precapillary resistance vessels
- note
though that prolonged hyperventilation is probably of limited value or may even
be harmful (1)
- there is a risk of inducing focal ischaemia with pronounced hyperventilation
- reduction of CBF and cerebral blood volume during hyperventilation is also transient in spite of preserved hypocapnia
- in the most severely damaged patients hyperventilation is least effective in reducing CBV because of impaired cerebrovascular CO2-reactivity
- note
though that prolonged hyperventilation is probably of limited value or may even
be harmful (1)
- effect
is mediated via a pH-dependent constriction of precapillary resistance vessels
- rapid reduction of intracranial blood volume is conventionally
obtained by controlled hyperventilation via the CO2-regulation of CBF
- for example a fall
in arteriolar PCO2 produces a cerebral vasoconstriction; reverse for cerebral
vasodilatation
- autoregulation - maintains CBF over a CPP range between 60 mm Hg and 160 mm Hg by vasoconstriction and vasodilatation respectively.
Reference: