Cerebral Oxygen Saturation and Blood Flow During Liver Transplantation

Abstract

After reperfusion of a liver graft, transcranial Doppler determined middle cerebral artery flow velocity, increases more than expected from the arterial carbon dioxide tension (PaCO₂).We evaluated if this indication of cerebral hyperperfusion is reflected in the jugular oxygen saturation (SjO₂) (n = 31) and oxygen saturation (ScO₂) (near-infrared spectrophotometry, n = 22). From the dissection phase to the anhepatic phase SjO₂ 71.0% (range 62.3%-78.5%), ScO₂ 70% (range 65%-77%), and PaCO₂ 34.9 mm Hg (range 30.8-38.3) remained statistically unchanged. In contrast, during the early reperfusion phase, SjO₂ increased to 77.0% (71.4%-83.0%) (P < 0.01) and the SCO₂ to 75% (68%-80%) (P < 0.05) as PaCO₂ increased to 37.5 mm Hg (34.8-41.9) (P < 0.001). Notably, SjO₂ also increased at reperfusion from 71.6% (66.5%-78.0% mm Hg) to 80.0% (76.8%-84.8%) in the four patients in whom PaCO₂ decreased at reperfusion from 37.6 mm Hg (36.8-39.5) to 34.0 mm Hg (32.3-36.8). If the changes in SjO₂ after reperfusion of the grafted liver should be explained as a reflection of changes in cerebral blood flow, in response to PaCO₂, it would indicate a highly accentuated CO₂ reactivity of 13%/mm Hg. The results support that cerebral blood flow and, in turn, oxygenation increase after reperfusion because the grafted liver liberates a vasodilating substance(s). (Anesth Analg 1997;84:730-3)