P. Pere et al., Cerebral blood flow and oxygenation in liver transplantation for acute or chronic hepatic disease without venovenous bypass, LIVER TRANS, 6(4), 2000, pp. 471-479
The autoregulation of cerebral blood flow (CBF) is impaired in patients wit
h end-stage liver disease and encephalopathy, These patients are vulnerable
to sudden deterioration of cerebral perfusion and oxygenation during liver
transplantation. We compared CBF and metabolism during liver transplantati
on without venovenous bypass and 24 hours postoperatively in 9 patients wit
h acute liver failure (ALF) and 16 patients with chronic liver disease. A f
iberoptic catheter was inserted cranially through the left internal jugular
vein for determination of jugular venous oxygen saturation, cerebral oxyge
n extraction ratio (COER), lactate level, and neuron-specific enolase (NSE)
level. Arterial concentrations of lactate were also measured. Flow velocit
y in the middle cerebral arteries was monitored bilaterally using transcran
ial Doppler sonography. Mean flow velocity and pulsatility index (PI) were
regarded as indicators of intracranial pressure. Core body temperatures wer
e recorded. Mild hyperventilation, perioperative hemofiltration, and N-acet
ylcysteine infusion were used according to our clinical practice. NSE level
was greater in acute patients at: the end of surgery (P <.05), but not 24
hours later. Lactate concentrations were greater in patients with ALF (P <.
001) preoperatively and intraoperatively but were similar in both groups 24
hours postoperatively. There was no difference between arterial and jugula
r venous concentrations of lactate. Changes in blood flow velocity, PI, and
GOER were parallel and without statistical significance between the groups
. The patients' core temperature did not correlate with CBF, NSE level, or
clinical outcome. Caval clamping was well tolerated in both patient groups.