双向上腔静脉-肺动脉吻合术可提高扩张型心房-肺动脉连接的机械效率。
Bidirectional superior cavopulmonary anastomosis improves mechanical efficiency in dilated atriopulmonary connections.
作者信息
Lardo A C, Webber S A, Iyengar A, del Nido P J, Friehs I, Cape E G
机构信息
Cardiac Dynamics Laboratory, Division of Cardiology, Children's Hospital of Pittsburgh, University of Pittsburgh, Pittsburgh, PA, USA.
出版信息
J Thorac Cardiovasc Surg. 1999 Oct;118(4):681-91. doi: 10.1016/S0022-5223(99)70014-0.
OBJECTIVE
Few therapeutic options exist for patients with failing dilated atriopulmonary connections. We addressed the hypothesis that a bidirectional superior cavopulmonary anastomosis will improve the hemodynamic efficiency of dilated atriopulmonary connections while maintaining physiologic pulmonary flow distributions.
METHODS
Dilated atriopulmonary connections with and without a bidirectional superior cavopulmonary anastomosis were created in explanted sheep heart preparations and transparent glass models. A mechanical energy balance and flow visualization were performed for 6 flow rates (1-6 L/min), both with and without the bidirectional superior cavopulmonary anastomosis, and were then compared. A novel contrast echocardiographic technique was used to quantify inferior vena cava flow (hepatic venous return) distributions into the pulmonary arteries.
RESULTS
The rate of fluid-energy dissipation was 52% +/- 14% greater in the dilated atriopulmonary anastomosis than in the bidirectional superior cavopulmonary anastomosis model over the range of flow rates studied (P = 6.3E(-3)). Total venous return passing to the right pulmonary artery increased from 41% +/- 2% to 47% +/- 3% (P = 9.7E(-3)) and that for inferior vena cava flow decreased from and 42% +/- 3% to 12% +/- 4% (P = 3.3E(-4)) after addition of the bidirectional superior cavopulmonary anastomosis. Flow visualization confirmed more ordered atrial flow in the bidirectional cavopulmonary anastomosis model, resulting from a reduction of caval flow stream collision and interaction.
CONCLUSIONS
A bidirectional cavopulmonary anastomosis reduces fluid-energy dissipation in atriopulmonary connections, provides a physiologic distribution of total flow, and maintains some hepatic venous flow to each lung. This approach may be a technically simple alternative to atriopulmonary takedown procedures and conversions to total cavopulmonary connections in selected patients.
目的
对于扩张型心房肺连接功能衰竭的患者,治疗选择有限。我们探讨了双向上腔静脉肺动脉吻合术可提高扩张型心房肺连接的血流动力学效率,同时维持生理性肺血流分布这一假说。
方法
在体外羊心标本和透明玻璃模型中构建有和没有双向上腔静脉肺动脉吻合术的扩张型心房肺连接。对6种流速(1 - 6升/分钟)分别进行有无双向上腔静脉肺动脉吻合术时的机械能平衡和血流可视化,并进行比较。采用一种新型对比超声心动图技术来量化下腔静脉血流(肝静脉回流)在肺动脉中的分布。
结果
在所研究的流速范围内,扩张型心房肺吻合术中的流体能量耗散率比双向上腔静脉肺动脉吻合术模型高52%±14%(P = 6.3×10⁻³)。添加双向上腔静脉肺动脉吻合术后,进入右肺动脉的总静脉回流从41%±2%增加到47%±3%(P = 9.7×10⁻³),而下腔静脉血流从42%±3%降至12%±4%(P = 3.3×10⁻⁴)。血流可视化证实双向腔静脉肺动脉吻合术模型中的心房血流更有序,这是由于腔静脉血流束碰撞和相互作用减少所致。
结论
双向腔静脉肺动脉吻合术可减少心房肺连接中的流体能量耗散,提供总血流的生理性分布,并维持部分肝静脉血流至每侧肺。对于选定患者,这种方法可能是心房肺拆除手术和转换为全腔静脉肺动脉连接术在技术上更简单的替代方案。
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