Cerebral autoregulation in the acute and subacute phase of ischemic stroke patients submitted to thrombolysis

Abstract

Cerebral autoregulation (CA) is a physiologic mechanism where by constriction or dilatation of cerebral microcirculation the cerebral blood flow (CBF) is kept constant, in spite of fluctuations of arterial blood pressure (ABP), thus protecting the brain from hypo or hyper perfusion. Intactness of CA can be estimated from the relationship between spontaneous fluctuations or changes in BP and CBF, and graded according to the Tiecks Autoregulation Index. Several methods can be used to measure CBF; Transcranial Doppler (TCD) ultrasound is one of the most commonly implemented techniques that is frequently used for research studies, mostly due to its non-invasive and portable nature as well as temporal and spatial resolution. There are two methods for estimating CA; static and dynamic, though research studies frequently implement the dynamic method because it can be applied without the use of drugs or invasive stimuli to alter the arterial BP (ABP), and can be applied to critical care patients through the analysis of spontaneous fluctuations of ABP. The importance of measuring CA has become to the forefront through years of research, which has found the presence of significant impairment of CA in the acute phase of stroke. Furthermore, it is believed that this impairment can affect the penumbra zone, and the study of CA could impact their treatment options. Until now, thrombolytic therapy is the only approved treatment in the acute phase of stroke, and management of ABP during and after treatment is directly related to the cerebral haemorrhagic complications due to the treatment impacting neurological outcome. Thus, the eventual CA impairment during and after the thrombolytic therapy could also impact neurological outcome. (AU)