One of the heralding signs of vasospasm is often elevated blood pressure, with whatever is left of cerebral autoregulation attempting to increase cerebral blood flow by increasing systemic pressure. Whether induced hypertension is useful in preventing arterial vasospasm is another question altogether.
One study showed that induced hypertension was able to achieve higher flow in ischemic, but not infarcted territories, despite no change in global CBF 1).
No study of induced hypertension in isolation, though, has shown a decrease in the development of angiographic vasospasm. Thus, it is likely that hypertension may be useful in reversing neurologic deficits that develop from vasospasm, but not as a preventive mechanism by itself 2).
Induced hypertension (IH) appears to raise CBF most consistently in previous studies, but giving a fluid bolus has also been shown to improve CBF (and thereby DO2) to regions with low baseline flow.
Dhar et al. were able to broadly compare the efficacy of transfusion to a fluid bolus and induced hypertension for augmenting cerebral oxygen delivery to vulnerable brain regions in patients with SAH. They demonstrated that the transfusion of RBCs may be an equally or even more potent intervention than the traditional measures of treating DCI, such as raising blood pressure or giving volume, especially in more anemic patients or to vulnerable brain region at highest risk for ischemia. Any potential benefits must be weighed against the known risks of excessive or unnecessary blood transfusion. Direct comparative studies including those with clinical outcomes are required to define this relative efficacy and risk-benefit ratio. However, for the first time they have provided data that suggests transfusion may be a meaningful alternative or adjunct to hemodynamic augmentation 3).
Global edema is an independent risk factor for mortality and poor outcome after SAH. Loss of consciousness, which may reflect ictal circulatory brain arrest, is a risk factor for admission global edema, and vasopressor-induced hypertension is associated with the development of delayed global edema. Critical care management strategies that minimize edema formation after SAH may improve outcome 4).
Immediate induction of hypertension with higher pressure targets did not result in a lower rate of Delayed Cerebral Ischemia-related infarctions but was not associated with a higher complication rate compared with an incremental approach. Future tailored blood pressure management based on patient- and time-point-specific needs will hopefully better balance the neurological advantages versus the systemic complications of induced hypertension 5).