2 L versus 1 3 L, P=0 42), despite increased blood loss during pa

2 L versus 1.3 L, P=0.42), despite increased blood loss during parenchymal dissection (0.3 L versus 0.5L, P<0.01) (30). Similarly, Man et al. compared

intermittent Pringle control with no vascular control showed that using the Pringle, there was less total blood loss (1.3 L vs. 2.0 L, P<0.01), fewer transfusions (0-8.6 L versus 0-12.9 L, P=0.02), and Inhibitors,research,lifescience,medical shorter liver transection time per square cm (2.0 min versus 2.8 min, P=0.02) (29). While there is a growing body of literature supporting the use of the Pringle maneuver (continuous or intermittent) in the context of decreasing blood loss and risk of transfusion, there are associated risks of reperfusion injury (53-55). Man et al. examined this concern and found that the Pringle maneuver compared with no vascular control improved post operative liver function Inhibitors,research,lifescience,medical based on arterial ketone body ratio and serum bilirubin (P<0.05 for both) (29). This protective effect is a result of both improved hemodynamics because of the Pringle and retrograde flow from the hepatic veins (56). Therefore we recommend the use of the Pringle maneuver when there is concern for blood loss potentially necessitating eventual transfusion.

We prefer the intermittent technique of a period of occlusion of five to 10 minutes followed by several minutes of reperfusion prior to reapplication of the tourniquet. Again, close communication Inhibitors,research,lifescience,medical with the anesthesia team is imperative during this period of the operation, as the Pringle maneuver may induce hypotension, especially in a patient where the CVP is kept low intentionally. Total hepatic vascular exclusion and other methods Other vascular occlusion techniques have evolved from the Pringle maneuver, including exclusion of the hepatic veins, occlusion of the inferior vena cava Inhibitors,research,lifescience,medical (IVC) above and below the liver, and supraceliac

aortic control (48). Variations on these techniques can be summarized in the following Inhibitors,research,lifescience,medical manner (57): Inflow and outflow vascular occlusion Total hepatic vascular exclusion Inflow occlusion with extraparenchymal control of hepatic veins Inflow vascular occlusion Hepatic pedicle occlusion (Pringle maneuver) Continuous Intermittent Selective inflow occlusion Hemihepatic vascular clamping Segmental vascular clamping The most complete means of obtaining vascular control prior to parenchymal transection is with total vascular exclusion (TVE). With this technique the Pringle maneuver Parvulin is performed, followed by a clamp across the infrahepatic IVC above the renal veins, followed by a clamp across the suprahepatic IVC (see Figure 1). After completing the hepatectomy the clamps are removed. This technique requires volume loading to prevent profound www.selleckchem.com/products/fg-4592.html hypotension and potential cardiac arrest. Obvious communication between anesthesiology staff should be made throughout TVE, as hemodynamic instability is likely and potentially profound with venous return decreasing 50% and systemic vascular resistance increasing 80% (7,30).

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