Development of new algorithms for depth of anesthesia monitoring integrating cerebral blood flow estimations

Abstract: Cerebral blood flow (CBF) reflects the rate of delivery of arterial blood to the brain. Since no nutrients, oxygen or water can be stored in the cranial cavity due to space and pressure restrictions, a continuous perfusion of the brain is critical for survival. Anesthesia is known to affect cerebral hemodynamics , but CBF is only monitored in critical patients due to the lack of a continuous and affordable bedside monitor for this purpose. This Thesis propases a potential solution through bioelectrical impedan… Show more