Al-Kassou Baravan, Tzikas Apostolos, Stock Friederike, Neikes Fabian, Völz Alexander, Omran Heyder
GFO Kliniken Bonn - Betriebsstätte St. Marien, Bonn Venusberg, Germany.
EuroIntervention. 2017 Apr 20;12(17):2083-2091. doi: 10.4244/EIJ-D-15-00543.
Correct sizing of a left atrial appendage (LAA) closure system is important to avoid redeployment of the device and peri-device leaks. The aims of this study were to assess the significance of two-dimensional transoesophageal echocardiography (2D-TEE), real-time 3D transoesophageal echocardiography (RT 3D-TEE) and angiography for measuring the size of the LAA landing zone and to determine the impact on sizing an LAA closure device. Furthermore, we investigated the relevance of volume loading on LAA size.
In a prospective study, 46 patients underwent 2D-TEE and RT 3D-TEE 24 hours prior to LAA closure, at the beginning of the procedure and just before the procedure after volume loading with an average of 1,035±246 ml. Angiography was performed immediately before the implantation. Maximal diameter (2.2±0.4 versus 2.3±0.4 cm; p<0.01), perimeter (6.5±1.0 versus 6.8±1.0 cm, p<0.01) and area (3.2±1.0 versus 3.5±1.1 cm², p<0.01) of the LAA increased significantly after volume loading. The highest correlation (R) between measurements and LAA device size was found for RT 3D-TEE-derived perimeter (R=0.97) and area (R=0.96), whereas the maximal diameter (R=0.78) measured by 2D-TEE and angiography (R=0.76) correlated less closely. Sizing based on an RT 3D-TEE-measured perimeter resulted only in 4% of undersizing the implanted device. Peri-device leaks occurred in seven cases (15%) and were associated with a lower compression of LAA devices (7±1.3% versus 14±3.2% for patients without leaks, p<0.001).
Volume loading before LAA closure increases LAA dimensions significantly. RT 3D-TEE measurements show a closer correlation to LAA closure device size than 2D-TEE or angiographic measurements.
正确确定左心耳(LAA)封堵系统的尺寸对于避免装置重新部署和装置周围渗漏至关重要。本研究的目的是评估二维经食管超声心动图(2D-TEE)、实时三维经食管超声心动图(RT 3D-TEE)和血管造影在测量LAA着陆区尺寸方面的意义,并确定其对LAA封堵装置尺寸确定的影响。此外,我们研究了容量负荷对LAA大小的相关性。
在一项前瞻性研究中,46例患者在LAA封堵术前24小时、手术开始时以及平均容量负荷1035±246 ml后手术即将开始前接受了2D-TEE和RT 3D-TEE检查。在植入前立即进行血管造影。容量负荷后,LAA的最大直径(2.2±0.4对2.3±0.4 cm;p<0.01)、周长(6.5±1.0对6.8±1.0 cm,p<0.01)和面积(3.2±1.0对3.5±1.1 cm²,p<0.01)显著增加。RT 3D-TEE得出的周长(R=0.97)和面积(R=0.96)与测量值和LAA装置尺寸之间的相关性最高,而2D-TEE测量的最大直径(R=0.78)和血管造影(R=0.76)的相关性较低。基于RT 3D-TEE测量周长确定尺寸时,仅4%的植入装置尺寸过小。7例(15%)出现装置周围渗漏,且与LAA装置较低的压缩率相关(无渗漏患者为7±1.3%对14±3.2%,p<0.001)。
LAA封堵术前的容量负荷显著增加LAA尺寸。与2D-TEE或血管造影测量相比,RT 3D-TEE测量与LAA封堵装置尺寸的相关性更高。
