主动性脾-股静脉分流术可避免门静脉三联征闭塞期间的内脏充血：一项实验研究。

Ribeiro E A, Cruz R J, Poli de Figueiredo L F, Rojas O, Rocha e Silva M

Division of Applied Physiology, Heart Institute/InCor, University of São Paulo Medical School, São Paulo, Brazil.

Transplant Proc. 2005 Jun;37(5):2347-50. doi: 10.1016/j.transproceed.2005.03.099.

UNLABELLED

Portal triad occlusion (PTO) is often performed during hepatic resections for trauma or malignancies to minimize intraoperative blood loss. The pringle maneuver is also regularly required during liver transplantation. This maneuver leads to temporary hepatic ischemia and may be associated with splanchnic blood flow congestion, promoting undesirable hemodynamic disturbances in some patients. Veno-venous bypass is a useful, easily performed technique that may avoid those deleterious hemodynamic effects of PTO. We tested the hypothesis that an active spleno-femoral shunt maintains hemodynamic stability and promotes complete decompression of the mesenteric bed, avoiding intestinal mucosal blood congestion, during PTO.

METHODS

Seven dogs (17.2 +/- 0.9 kg) were subjected to 45 minutes of hepatic ischemia during which there was an active spleno-femoral shunt. Systemic hemodynamics were evaluated through Swan-Ganz and arterial catheters. Splanchnic perfusion was assessed by portal vein blood flow and hepatic artery blood flow (PVBF and HABF, ultrasonic flowprobe), intestinal mucosal-arterial pCO(2) gradient (D(t-a)pCO(2), tonometry), and regional O(2)-derived variables.

RESULTS

No significant changes in systemic and regional parameters were observed during the ischemia period. During reperfusion, a significant decrease in mean arterial pressure, PVBF, and arterial pH was observed. A significant increase in ALT and D(t-a)pCO(2) (4.8 +/- 2.5 to 18.9 +/- 3 mm Hg) was also observed following hepatic blood flow restoration.

CONCLUSION

Spleno-femoral shunt maintains systemic hemodynamic stability, with an effective decompression of the splanchnic bed during portal triad occlusion. The deleterious hemodynamic and metabolic effects observed during reperfusion period, such as transitory hypotension, high D(t-a)pCO(2), and acidemia, were associated with an isolated hepatic ischemia-reperfusion injury, not with the blood congestion in the splanchnic bed.

未标记

门静脉三联征阻断（PTO）常用于肝脏创伤或恶性肿瘤切除术中，以减少术中失血。肝移植术中也经常需要进行普林格尔手法。该手法会导致暂时性肝缺血，并可能伴有内脏血流充血，在一些患者中会引发不良的血流动力学紊乱。静脉-静脉旁路是一种有用且易于实施的技术，可避免PTO的那些有害血流动力学效应。我们检验了这样一个假设：在PTO期间，主动脾-股分流可维持血流动力学稳定性，并促进肠系膜床的完全减压，避免肠黏膜充血。

方法

对7只犬（17.2±0.9千克）进行45分钟的肝缺血，期间存在主动脾-股分流。通过Swan-Ganz导管和动脉导管评估全身血流动力学。通过门静脉血流和肝动脉血流（PVBF和HABF，超声血流探头）、肠黏膜-动脉pCO₂梯度（D(t-a)pCO₂，张力测定法）以及局部O₂衍生变量评估内脏灌注。

结果

缺血期间全身和局部参数未观察到显著变化。再灌注期间，平均动脉压、PVBF和动脉pH显著降低。肝血流恢复后，ALT和D(t-a)pCO₂也显著升高（从4.8±2.5升至18.9±3毫米汞柱）。

结论

脾-股分流可维持全身血流动力学稳定性，在门静脉三联征阻断期间有效减压内脏床。再灌注期间观察到的有害血流动力学和代谢效应，如短暂性低血压、高D(t-a)pCO₂和酸血症，与孤立的肝缺血-再灌注损伤有关，而非与内脏床充血有关。

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