Abstract
Intravenous norepinephrine (NE) is utilized commonly in critical care for cardiovascular support. NE’s impact on cerebrovasculature is unclear and may carry important implications during states of critical neurological illness. The aim of the study was to perform a scoping review of the literature on the cerebrovascular/cerebral blood flow (CBF) effects of NE. A search of MEDLINE, BIOSIS, EMBASE, Global Health, SCOPUS, and Cochrane Library from inception to December 2019 was performed. All manuscripts pertaining to the administration of NE, in which the impact on CBF/cerebral vasculature was recorded, were included. We identified 62 animal studies and 26 human studies. Overall, there was a trend to a direct vasoconstriction effect of NE on the cerebral vasculature, with conflicting studies having demonstrated both increases and decreases in regional CBF (rCBF) or global CBF. Healthy animals and those undergoing cardiopulmonary resuscitation demonstrated a dose‐dependent increase in CBF with NE administration. However, animal models and human patients with acquired brain injury had varied responses in CBF to NE administration. The animal models indicate an increase in cerebral vasoconstriction with NE administration through the alpha receptors in vessels. Global and rCBF during the injection of NE displays a wide variation depending on treatment and model/patient.
Highlights
partial pressure of carbon dioxide (PCO2) and partial pressure of oxygen (PO2) were kept constant throughout all groups
NE unanesthetized: cerebral blood flow (CBF): No significant change in cortical regions but the flow decrease 6 to 22% in other structures which were significant in nucleus, hypothalamus, colliculus, and reticular NE anesthetized group 1: Same as unanesthetized but in superior colliculus the response was inverted leading to significant increase in blood flow NE anesthetized group 2: General increase in CBF except caudate nucleus
Intact cerebral autoregulation modelinduced hypertension by E and NE is not associated which changes in CBF, where dopamine causes cerebral hyperemia increased intracranial pressure (ICP) and increased global cerebral oxygen utilization
Summary
The aim of the study was to perform a scoping review of the literature on the cerebrovascular/cerebral blood flow (CBF) effects of NE. The goal of this study was to perform a systematically conducted scoping review of all available literature on the impact of NE on cerebrovascular responsiveness/CBF response, including animal and human studies. Given the goal of this review was to provide a comprehensive scoping overview of the available preclinical literature, a formal bias assessment was not conducted. The goal of this study was to provide a comprehensive systematically conducted scoping review of animal studies on NE’s effect on the cerebrovascular response/ CBF
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