Van Malderen Sophie C H, Kerkhove Dirk, Theuns Dominic A M J, Weytjens Caroline, Droogmans Steven, Tanaka Kaoru, Daneels Dorien, Van Dooren Sonia, Meuwissen Marije, Bonduelle Maryse, Brugada Pedro, Van Camp Guy
Department of Electrophysiology (Heart Rhythm Management Centre), Vrije Universiteit Brussel (VUB), UZ Brussel, Laarbeeklaan 101, 1090 Brussels, Belgium; Department of Electrophysiology, Thoraxcenter, Erasmus MC, 's Gravendijkwal 230, 3015 CE Rotterdam, The Netherlands..
Department of Non-invasive Cardiology, Vrije Universiteit Brussel (VUB), UZ Brussel, Laarbeeklaan 101, 1090 Brussels, Belgium.
Int J Cardiol. 2015 Jul 15;191:90-6. doi: 10.1016/j.ijcard.2015.04.243. Epub 2015 May 1.
Right ventricular (RV) conduction delay has been suggested as an underlying pathophysiological mechanism in Brugada syndrome (BS). In this cross-sectional study we non-invasively assessed the value of echocardiographic markers reflecting ventricular ejection delay to further assess electromechanical abnormalities in BS and to identify patients at risk for life-threatening arrhythmic events. Furthermore, we sought to assess differences in ejection delays between genders because male BS patients demonstrate a more malignant clinical phenotype.
124 BS patients (57.3% males) and 62 controls (CTR) (48.4% males) were included. Using Tissue Velocity Imaging, the ejection delay, determined as the time from QRS onset to the onset of the sustained systolic contraction, was measured for both RV free wall (RVED) and lateral LV wall (LVED). From these parameters, the interventricular ejection delay between both walls (IVED) was calculated.
BS patients had longer RVEDs and IVEDs compared to the CTR. BS patients with a previous history of syncope or spontaneous ventricular arrhythmia showed the longest RVEDs and IVEDs. Male BS patients demonstrated longer RVEDs and IVEDs than females. Male BS patients with malignant events had the longest delays. No significant differences regarding LVED were observed between BS patients and CTR.
We demonstrated that a previous history of malignant events was associated with longer RVEDs. Our findings supported the RV conduction delay mechanism behind BS and demonstrated for the first time that the predominant malignant male Brugada phenotype might also be the result of a more delayed RV conduction in males.
右心室传导延迟被认为是Brugada综合征(BS)潜在的病理生理机制。在这项横断面研究中,我们采用非侵入性方法评估反映心室射血延迟的超声心动图标志物的价值,以进一步评估BS患者的机电异常,并识别有发生危及生命心律失常事件风险的患者。此外,我们试图评估不同性别之间射血延迟的差异,因为男性BS患者表现出更恶性的临床表型。
纳入124例BS患者(男性占57.3%)和62例对照者(CTR)(男性占48.4%)。使用组织速度成像技术,测量右心室游离壁(RVED)和左心室侧壁(LVED)从QRS波起始至持续收缩期开始的时间,即射血延迟。根据这些参数计算两壁之间的心室间射血延迟(IVED)。
与CTR相比,BS患者的RVED和IVED更长。有晕厥或自发性室性心律失常病史的BS患者RVED和IVED最长。男性BS患者的RVED和IVED比女性更长。发生恶性事件的男性BS患者延迟时间最长。BS患者和CTR之间LVED无显著差异。
我们证明有恶性事件病史与更长的RVED相关。我们的研究结果支持BS背后的右心室传导延迟机制,并首次证明男性占主导的恶性Brugada表型可能也是男性右心室传导更延迟的结果。
