The pressure reactivity index (PRx) and the pulse amplitude index (PAx) are invasively determined parameters that are commonly used to describe autoregulation following traumatic brain injury (TBI). Using a transcranial Doppler ultrasound (TCD) technique, it is possible to approximate cerebral arterial blood volume (CaBV) solely from cerebral blood flow velocities, and further, to calculate non-invasive markers of autoregulation. In this brief study, we aimed to investigate whether the estimation of relative CaBV with different models could describe the cerebrovascular reactivity of TBI patients. PRx, PAx and their non-invasive counterparts (nPRx and nPAx) were calculated retrospectively from data collected during the monitoring of TBI patients. CaBV, an essential parameter for the calculation of nPRx and nPAx, was determined with both a continuous flow forward (CFF) model-considering a non-pulsatile blood outflow from the brain-and a pulsatile flow forward (PFF) model, presuming a pulsatile outflow. We found that the estimated CaBV demonstrates good coherence with ICP and that nPRx and nPAx can describe cerebrovascular reactivity similarly to PRx and PAx. Continuous monitoring with TCD is difficult, so the usability of PRx and PAx is limited. However, they might become useful for clinicians in the near future owing to rapid advances in these technologies.
Keywords: Cerebral autoregulation; Cerebral blood volume; Pressure reactivity index; Pulse amplitude index; Transcranial Doppler.