Autonomic modulation and cardiac contractility in vasovagal syncope

Background: Previous studies proposed as one of the main mechanisms involved in neurally mediated syncope, the stimulation of ventricular mechanoreceptors as the final trigger for vagal discharge. Objectives: This study aimed to verify the presence of a sympathetic driven increase of cardiac contractility before vasovagal syncope. Methods: We studied 23 patients with recurrent syncope. All underwent a 60 degrees tilt with pharmacologic challenge (sublingual spray nitrate). Two conditions were used to assess autonomic activity by heart rate variability analysis: in a supine position after 5 min of rest and after 15 min of tilt. Simultaneously, cardiac contractility was quantified by tissue-Doppler echocardiography at the base of the free walls of left ventricle. The peak myocardial velocities during systole (Sw) and late diastole (Aw) were considered. Results: Passive tilt induced a significant increase of the low frequency component (LF) as well as a decrease of the high frequency component (HF) in positive patients (LF: from 49 +/- 18 to 65 +/- 18 nu, p < 0.05; HF: from 41 +/- 21 to 26 +/- 16 nu, p < 0.05). Tissue-Doppler showed a similar increase in Sw in both positive and negative patients but showed a significant decrease of Aw in syncopal subjects (p < 0.005). Conclusions: Our results do not show an increase in ventricular contractility before tilt-induced syncope, or in presence of a valuable increase of sympathetic activity. Instead, we observe a reduction of atrial contractility, which may be a contributory component in the pathogenesis of vasovagal syncope. (C) 2008 Elsevier Ireland Ltd. All rights reserved.