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[Changes in hemodynamics and oxygen metabolism of different Child-grade patients during orthotopic liver transplantation without veno-venous bypass].
OBJECTIVE: To investigate the changes in hemodynamics and oxygen metabolism of different Child-grade patients during orthotopic liver transplantation (OLT) without veno-venous bypass.
METHODS: Forty patients with end-stage liver disease undergoing non veno-venous OLT under general anesthesia were enrolled in this research. Swan-Ganz catheter was placed in the pulmonary artery via right internal jugular vein and right radial artery was cannulated to monitor mean pulmonary artery pressure (mPAP) and artery blood pressure (ABP) continuously. Pulmonary capillary wedge pressure (PCWP) and central venous pressure (CVP) were also recorded. Cardiac output (CO) was recorded at several time points, such as, 30 min after induction (T1), when inferior vena cava and portal vein were clamped (T2), 30 min after portal vein was clamped (T3), 10 min after unclamping of portal vein (T4), 60 min after graft reperfusion (T5) and at the end of the operation (T6). Blood samples were taken from radial and pulmonary artery for blood gas analysis and hemodynamic parameters, such as, cardiac index (CI), stroke volume index (SVI), pulmonary vascular resistance index (PVRI), and system vascular resistance index (SVRI); oxygen delivery (DO2) and oxygen consumption (VO2) were also calculated at these time points.
RESULTS: (1) The mPAP values were much higher in group C than in group A or B at all time points. CVP was significantly increased at T1 or T2 in group C as compared with those points of Child's B or C. PCWP was increased significantly after unclamping of portal vein in all three groups and was much higher at several points in Child's C than in Child's A or B. The SVRI value of T1 and the PVRI value of T3 were much lower in group C than those points in group A and the value of SVRI/PVRI was less than normal except at T3 point. And blood gas analysis elucidated that PaO2 was higher than 400 mm Hg at any points. (2) Oxygen consumption was significantly decreased during the operation due to less blood supply and was reverted to normal at the end point of the operation in all patients. Oxygen delivery was all at least 1,000 mL/min during OLT and there was no significant difference between different groups or different points.
CONCLUSION: The hemodynamic state of high cardiac output with low peripheral resistance deteriorated when patients' Child-grade shifted from A to C. VO2 was less than normal value during OLT until the end point.
METHODS: Forty patients with end-stage liver disease undergoing non veno-venous OLT under general anesthesia were enrolled in this research. Swan-Ganz catheter was placed in the pulmonary artery via right internal jugular vein and right radial artery was cannulated to monitor mean pulmonary artery pressure (mPAP) and artery blood pressure (ABP) continuously. Pulmonary capillary wedge pressure (PCWP) and central venous pressure (CVP) were also recorded. Cardiac output (CO) was recorded at several time points, such as, 30 min after induction (T1), when inferior vena cava and portal vein were clamped (T2), 30 min after portal vein was clamped (T3), 10 min after unclamping of portal vein (T4), 60 min after graft reperfusion (T5) and at the end of the operation (T6). Blood samples were taken from radial and pulmonary artery for blood gas analysis and hemodynamic parameters, such as, cardiac index (CI), stroke volume index (SVI), pulmonary vascular resistance index (PVRI), and system vascular resistance index (SVRI); oxygen delivery (DO2) and oxygen consumption (VO2) were also calculated at these time points.
RESULTS: (1) The mPAP values were much higher in group C than in group A or B at all time points. CVP was significantly increased at T1 or T2 in group C as compared with those points of Child's B or C. PCWP was increased significantly after unclamping of portal vein in all three groups and was much higher at several points in Child's C than in Child's A or B. The SVRI value of T1 and the PVRI value of T3 were much lower in group C than those points in group A and the value of SVRI/PVRI was less than normal except at T3 point. And blood gas analysis elucidated that PaO2 was higher than 400 mm Hg at any points. (2) Oxygen consumption was significantly decreased during the operation due to less blood supply and was reverted to normal at the end point of the operation in all patients. Oxygen delivery was all at least 1,000 mL/min during OLT and there was no significant difference between different groups or different points.
CONCLUSION: The hemodynamic state of high cardiac output with low peripheral resistance deteriorated when patients' Child-grade shifted from A to C. VO2 was less than normal value during OLT until the end point.
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