McMullan David Michael, Reddy Vadiyala Mohan, Gottliebson William M, Silverman Norman H, Perry Stanton B, Chan Frandics, Hanley Frank Louis, Riemer Robert Kirk
Department of Pediatric Cardiac Surgery, Children's Hospital & Regional Medical Center, Seattle, WA, 98105, USA.
Pediatr Cardiol. 2008 Jul;29(4):706-12. doi: 10.1007/s00246-007-9152-5. Epub 2007 Nov 28.
We sought to identify and characterize the abnormal vascular structures responsible for pulmonary arteriovenous shunting following the Glenn cavopulmonary shunt. Superior cavopulmonary shunt is commonly performed as part of the staged pathway to total cavopulmonary shunt to treat univentricular forms of congenital heart disease, however, clinically significant pulmonary arteriovenous malformations develop in some patients after the procedure. The causes of pulmonary arteriovenous malformations and other pulmonary vascular changes that occur after cavopulmonary shunt are not known. Using a juvenile lamb model of superior cavopulmonary anastomosis that reliably produces pulmonary arteriovenous malformations, we performed echocardiography and morphological analyses to determine the anatomic site of shunting and to identify the vascular structures involved. Pulmonary arteriovenous shunting was identified by contrast echocardiography in all surviving animals (n = 40) following superior cavopulmonary anastomosis. Pulmonary vascular corrosion casts revealed abnormal tortuous vessels joining pulmonary arteries and veins in cavopulmonary shunt animals but not control animals. In conclusion, unusual channels that bridged pulmonary arteries and veins were identified. These may represent the vascular structures responsible for arteriovenous shunting following the classic Glenn cavopulmonary shunt. Detailed analysis of these structures may elucidate factors responsible for their development.
我们试图识别和描述在格林腔肺分流术后导致肺动静脉分流的异常血管结构。上腔静脉-肺动脉分流术通常作为全腔静脉-肺动脉分流术分期治疗单心室型先天性心脏病的一部分进行,然而,一些患者在该手术后会出现具有临床意义的肺动静脉畸形。腔肺分流术后发生肺动静脉畸形和其他肺血管变化的原因尚不清楚。我们使用一种可靠地产生肺动静脉畸形的幼年羔羊上腔静脉-肺动脉吻合模型,进行了超声心动图和形态学分析,以确定分流的解剖部位并识别相关的血管结构。在所有存活的动物(n = 40)中,通过对比超声心动图在上腔静脉-肺动脉吻合术后发现了肺动静脉分流。肺血管铸型显示,腔肺分流动物中有异常迂曲的血管连接肺动脉和静脉,而对照动物中则没有。总之,我们识别出了连接肺动脉和静脉的异常通道。这些可能代表了经典格林腔肺分流术后导致动静脉分流的血管结构。对这些结构的详细分析可能会阐明导致其形成的因素。