Cerebral blood flow in hypertension.

The most important aspect of cerebral blood flow (CBF) in hypertension is the change that occurs in CBF autoregulation: increased cerebrovascular resistance causes the lower and upper limits of CBF autoregulation to be at higher pressure levels. The mechanism seems to be mainly structural thickening and luminal narrowing of cerebral resistance vessels. These adaptive changes, while protecting the brain against high intravascular pressure, render the brain more susceptible to ischemia at low blood pressure. An obvious consequence of the shift in the lower limit of CBF autoregulation in hypertension is that if the hypertensive patient's blood pressure is lowered acutely to "normal" levels, the pressure is below the patient's lower limit of autoregulation and ischemic damage may result. Basically, antihypertensive drugs can be placed into four groups as regards their effects on the cerebral circulation. First are the drugs without any direct effect: in this case, CBF remains constant until pressure reaches the lower limit of autoregulation and then decreases with any further pressure decrease. Diazoxide is in this category. Second are the drugs that directly dilate the small resistance levels in such a way that CBF is higher than normal at every pressure including pressures below the lower limit of autoregulation. However, perfusion may be uneven and autoregulation may be lost; an example of this kind of drug is dihydralazine. Third are the drugs which by alpha-or ganglion-blockade prevent the sympathetic vasoconstriction of large cerebral arteries (pial and larger), which can compromise CBF during a fall in blood pressure and hence shift the lower limit of autoregulation to a higher pressure than during blockade.(ABSTRACT TRUNCATED AT 250 WORDS)