Effect of increases in cardiac contractility on cerebral blood flow in humans

• Published in: American journal of physiology. Heart and circulatory physiology Vol. 313; no. 6; pp. H1155 - H1161
• Main Authors: Ogoh, Shigehiko, Moralez, Gilbert, Washio, Takuro, Sarma, Satyam, Hieda, Michinari, Romero, Steven A., Cramer, Matthew N., Shibasaki, Manabu, Crandall, Craig G.
• Format: Journal Article
• Language: English
• Published: United States American Physiological Society 01.12.2017
• Series: Integrative Cardiovascular Physiology and Pathophysiology
• Subjects: Arteries; Blood flow; Blood pressure; Cardiac output; Carotid artery; Drug dosages; External pressure; Heart rate; Risk assessment; Ultrasonic imaging; Veins & arteries; cardiac output; blood pressure; internal carotid artery; dobutamine; external carotid artery
• ISSN: 0363-6135; 1522-1539; 1522-1539
• DOI: 10.1152/ajpheart.00287.2017

The effect of acute increases in cardiac contractility on cerebral blood flow (CBF) remains unknown. We hypothesized that the external carotid artery (ECA) downstream vasculature modifies the direct influence of acute increases in heart rate and cardiac function on CBF regulation. Twelve healthy subjects received two infusions of dobutamine [first a low dose (5 μg·kg −1 ·min −1 ) and then a high dose (15 μg·kg −1 ·min −1 )] for 12 min each. Cardiac output, blood flow through the internal carotid artery (ICA) and ECA, and echocardiographic measurements were performed during dobutamine infusions. Despite increases in cardiac contractility, cardiac output, and arterial pressure with dobutamine, ICA blood flow and conductance slightly decreased from resting baseline during both low- and high-dose infusions. In contrast, ECA blood flow and conductance increased appreciably during both low- and high-dose infusions. Greater ECA vascular conductance and corresponding increases in blood flow may protect overperfusion of intracranial cerebral arteries during enhanced cardiac contractility and associated increases in cardiac output and perfusion pressure. Importantly, these findings suggest that the acute increase of blood perfusion attributable to dobutamine administration does not cause cerebral overperfusion or an associated risk of cerebral vascular damage. NEW & NOTEWORTHY A dobutamine-induced increase in cardiac contractility did not increase internal carotid artery blood flow despite an increase in cardiac output and arterial blood pressure. In contrast, external carotid artery blood flow and conductance increased. This external cerebral blood flow response may assist with protecting from overperfusion of intracranial blood flow.