经冠状静脉窦逆灌是有效的心肌保护方法。
Retrograde coronary sinus perfusion was a feasible approach for myocardial protection.
术后冠状动脉造影,以观察冠状静脉窦形态。
The morphologic features of the coronary sinus was also studied with coronary angiography.
术中常规放置冠状静脉窦导管及右心室起搏导管。
Coronary sinus catheter and right ventricular catheter were placed.
结论冠状静脉窦憩室与后间隔旁路存在着解剖关系。
Conclusions Coronary sinus diverticulum is anatomically intimately related to the posteroseptal accessory pathway.
术中冠状静脉窦造影检查有助于发现憩室和确定有效的消融部位。
Coronary venography during the ablation session is very helpful to detect the diverticulum and identify the effective ablation site.
在1例峡部顺钟向阻滞者,冠状静脉窦口刺激诱发出短阵逆钟向房扑。
Temporary counterclockwise atrial flutter was induced by pacing at coronary sinus ostium in 1 case with clockwise block in the isthmus.
目的探讨实时三维超声心动图技术对无顶冠状静脉窦综合征的诊断价值。
Objective To explore the value of real-time three-dimensional echocardiography (RT-3DE) in visualization of pathological structures of unroofed coronary sinus syndrome (UCSS).
目的:评价经冠状静脉窦逆行灌注法应用于心脏不停跳心瓣膜替换手术的价值。
Objective: To evaluate the myocardial protective effect of continuous retrograde coronary sinus perfusion for heart valve replacement in beating heart.
结果所有患者的冠状静脉窦近端有一憩室,并在憩室的颈部消融阻断房室旁路。
Results A diverticulum attaching the proximal coronary sinus was found and the associated accessory pathway was successfully ablated at the neck of diverticulum in all of these five patients.
成功消融靶点:左侧游离壁2例、左后间隔冠状静脉窦憩室4例、心中静脉7例。
The effective target sites:7 within middle vein, 4 at the neck of coronary sinus diverticulum and 2 at left free wall.
目的应用经冠状静脉窦逆行灌注法对心脏不停跳心脏瓣膜替换手术进行临床分析。
Objective To analyze valve replacement through the coronary sinus in retrograde perfusion heart surgery.
目的:探讨经冠状静脉窦逆行灌注心脏不停跳方法对体外循环术中心肌保护的效果。
Objective: To study the myocardial protective effects on retrograde perfusion via coronary sinus in beating heart.
目的验证直视插管测定犬心脏冠状静脉窦血流量方法的可行性及有效性,并总结监测经验。
Objective to verify the possibility and the efficacy of measurement of coronary sinus blood flow by visual cannulation in canine heart, and to summarize the experience of monitoring.
患者均进行了三腔双心室同步起搏,起搏电极导线分别置于右心房、右心室以及经由冠状静脉窦置于一支心脏静脉起搏左心室。
All of them received three chamber biventricular pacing and the left ventricular pacing lead was inserted into a cardiac vein through coronary sinus.
左心室起搏电极导线植入不同的冠状静脉窦分支,其中,心大静脉16例,心侧静脉9例,心侧后静脉21例,心后静脉23例,心中静脉2例。
The left ventricular lead was implanted in branch of coronary sinus, 16 in great cardiac vein, 9 in latherier vein, 21 in latherier posterior vein, 23 in posterior vein and 2 in middle cardiac vein.
左心室起搏电极导线植入不同的冠状静脉窦分支,其中,心大静脉16例,心侧静脉9例,心侧后静脉21例,心后静脉23例,心中静脉2例。
The left ventricular lead was implanted in branch of coronary sinus, 16 in great cardiac vein, 9 in latherier vein, 21 in latherier posterior vein, 23 in posterior vein and 2 in middle cardiac vein.
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