Cardiac output and vasodilation in the vasovagal response: An analysis of the classic papers

详细信息    查看全文

• 作者：Wouter Wieling ; MD ; PhD^* ; ^{w.wieling@amc.nl" class="auth_mail" title="E-mail the corresponding author} ; David L. Jardine ; MD ; PhD^&dagger ; ; Frederik J. de Lange ; MD ; PhD^&Dagger ; ; Michele Brignole ; MD^§ ; ; Henning B. Nielsen ; MD ; DMSci^║ ; Julian Stewart ; MD ; PhD^¶ ; ; Richard Sutton ; MB BS ; DSc ; FHRS^#
• 关键词：BP ; blood pressure ; CBV ; central blood volume ; CO ; cardiac output ; FBF ; forearm blood flow ; HR ; heart rate ; LBNP ; lower body negative pressure ; SBP ; systolic blood pressure ; SV ; stroke volume ; SVR ; systemic vascular resistance
• 刊名：Heart Rhythm
• 出版年：2016
• 出版时间：March 2016
• 年：2016
• 卷：13
• 期：3
• 页码：798-805
• 全文大小：1211 K

文摘

The simple faint is secondary to hypotension and bradycardia resulting in transient loss of consciousness. According to Ohm’s law applied to the circulation, BP = SVR × CO, hypotension can result from a decrease in systemic vascular resistance (SVR), cardiac output (CO), or both. It is important to understand that when blood pressure (BP) is falling, SVR and CO do not change reciprocally as they do in the steady state. In 1932, Lewis, assuming that decreased SVR alone accounted for hypotension, defined “the vasovagal response” along pathophysiologic lines to denote the association of vasodilation with vagal-induced bradycardia in simple faint. Studies performed by Barcroft and Sharpey-Schafer between 1940 and 1950 used volume-based plethysmography to demonstrate major forearm vasodilation during extreme hypotension and concluded that the main mechanism for hypotension was vasodilation. Plethysmographic measurements were intermittent and not frequent enough to capture rapid changes in blood flow during progressive hypotension. However, later investigations by Weissler, Murray, and Stevens performed between 1950 and 1970 used invasive beat-to-beat BP measurements and more frequent measurements of CO using the Fick principle. They demonstrated that CO significantly fell before syncope, and little vasodilation occurred until very late in the vasovagal reaction Thus, since the 1970s, decreasing cardiac output rather than vasodilation has been regarded as the principal mechanism for the hypotension of vasovagal syncope.