Liver Circulation and Function during Isoflurane and Halothane Anesthesia

Abstract

Hepatic arterial blood flow (HABF) and portal blood flow (PBF) were measured in 18 dogs while awake, and during isoflurane and halothane anesthesia. Surgical preparation 1 wk before the measurements consisted of a left thoracotomy, placement of a left atrial catheter, and insertion of another catheter into the distal aorta via the left femoral artery. Cardiac output and liver blood flow were determined using microspheres at 3 stages: stage 1-awake state; stage 2-after 45 min of 1 MAC [minimum anesthetic concentration] of isoflurane (8 dogs) or halothane (10 dogs) anesthesia; and stage 3-after 45 min of 2 MAC of inhalation anesthesia. Half-life and fractional clearance for indocyanine green (ICG) were determined 1 day before the experiment (awake state), and at the end of stages 2 and 3. Mean arterial pressure (MAP) and cardiac index (CI), as well as PBF, decreased during isoflurane and halothane anesthesia. HABF increased significantly during isoflurane anesthesia, remained unchanged during 1 MAC of halothane anesthesia, and significantly decreased during 2 MAC of halothane anesthesia. Apparently, hepatic O2 supply was maintained much better during isoflurane than during halothane anesthesia. PBF correlated with CI during halothane (r = 0.97) and, to a certain extent, with MAP during isoflurane (r = 0.66). HABF correlated with CI and MAP during halothane (r - 0.74 and 0.71, respectively), but did not correlate with systemic hemodynamic variables during isoflurane. ICG half-life significantly increased during 1 and 2 MAC of halothane anesthesia. The degree of increase did not correlate with the level of anesthesia or the decrease in total hepatic blood flow. Isoflurane anesthesia was not accompanied by significant changes in ICG half-life. The data suggest that halothane has a more deleterious effect on liver blood flow than does isoflurane and, in addition, interferes with liver cell ability to absorb and excrete ICG.